Crispr/cas-related methods and compositions for treating cystic fibrosis

ABSTRACT

CRISPR/CAS-related compositions and methods for treatment of Cystic Fibrosis (CF).

REFERENCE TO RELATED APPLICATIONS

This application is a divisional of U.S. patent application Ser. No.15/288,475, filed Oct. 7, 2016, which is a continuation of PCTInternational Patent Application No. PCT/US2015/023960, filed on Apr. 1,2015, which claims the benefit of U.S. Provisional Application No.61/977,488, filed Apr. 9, 2014, the contents of each of which are herebyincorporated by reference in their entirety herein, and to each of whichpriority is claimed.

SEQUENCE LISTING

The specification further incorporates by reference the Sequence Listingsubmitted herewith via EFS on Apr. 30, 2021. Pursuant to 37 C.F.R. §1.52(e)(5), the Sequence Listing text file, identified as084177_0247SEQ.txt, is 6,269,340 bytes and was created on Apr. 30, 2021.The Sequence Listing, electronically filed herewith, does not extendbeyond the scope of the specification and thus does not contain newmatter.

FIELD OF THE INVENTION

The invention relates to CRISPR/CAS-related methods and components forediting of a target nucleic acid sequence, and applications thereof inconnection with Cystic Fibrosis (CF) or CF-like disease.

BACKGROUND

Cystic fibrosis (CF) is an autosomal recessive, hereditary diseasecaused by defects in the cystic fibrosis transmembrane conductanceregulator (CFTR) gene. The CFTR gene encodes a cAMP-gated channel thatis involved in chloride and bicarbonate transport. It regulates sodiumtransport through inhibition of the epithelial sodium channel, which isencoded by the SCNN1A gene. CFTR is expressed on the apical surface ofepithelial cells in the airway, gastrointestinal tract, reproductivetract, sweat glands and submucosal glands.

CF affects one in 3,500 children born in the United States. It is themost common fatal autosomal recessive disease in individuals of Europeandescent (Tobias 2011; Essential Medical Genetics, John Wiley & Sons, ed.p. 312). There are approximately 30,000 subjects in the United Stateswith the disease (From The Cystic Fibrosis Foundation; cff.org, accessedon Mar. 19, 2015).

The most common mutation in the CFTR gene is a deletion of the threenucleotides encoding Phenylalanine (F) at position 508 of the CFTRprotein (also sometime referred to herein as “F508del”). This mutationis the causative mutation in approximately two-thirds of CF cases. Theremaining cases are caused by at least 1000 different mutations, many ofwhich cause a less severe form of the disease.

Subjects having CF can present at birth or in early infancy withpancreatic insufficiency. Pancreatic dysfunction leads to malabsorptionof fat and fat-soluble vitamins, which causes poor growth as well asgallstones and biliary disease. The lung manifestations of the diseasecan be more severe but may present slightly after pancreaticmanifestations, in infancy or early childhood. Aberrant chloride andsodium transport due to decreased CFTR activity causes lowered apicalsurface fluid levels in the lungs, which leads to “sticky” mucous andlower airway obstruction. Subjects having CF or CF-like disease sufferfrom frequent infections due to inability to clear mucous. Localinflammatory mediators try to clear the infection but have difficulty.The triad of inflammation, infection and obstruction leads toprogressive destruction of the lung parenchyma. Eventually, manysubjects having CF or CF-like disease die in their late 30's due torespiratory failure.

Current treatments for CF or CF-like disease delay lung destruction andslow disease progression. Treatments for the pulmonary manifestations ofCF or CF-like disease include: antibiotics (oral, inhaled andintravenous), CFTR modulators (including CFTR potentiators), DNase,chest physiotherapy to loosen secretions and anti-inflammatorytherapeutics. Treatment of the gastrointestinal manifestations includessupplemental gut soluble vitamins, high calorie diet and oral pancreaticenzymes. Subjects who develop diabetes are treated with insulininjections or an insulin pump. At the end stage, patients may benefitfrom lung transplant. Lung transplant may be combined with liver and/orpancreatic transplant.

Current treatments do not reverse the damage to the lungs or cure CF orCF-like disease. The average life expectancy for subjects having CF orCF-like disease is 37 years of age (MacKenzie et al., 2014; Annals ofInternal Medicine 161(4):233-41). 80% of patients with CF or CF-likedisease die from end-stage lung disease.

In spite of current therapies, there is a need for a therapy thatprevents or delays the progression of disease in CF or CF-like disease.

SUMMARY OF THE INVENTION

Methods and compositions discussed herein provide for the treatment andprevention of Cystic Fibrosis (CF) and CF-like disease. The approachdescribed herein aims to restore CFTR channel function, restorechloride, bicarbonate and/or sodium balance, and/or decrease mucousviscosity within the lungs, airways, gastrointestinal tract andreproductive tract.

CFTR modulators (both approved and in development) improve thefunctioning of mutant CFTR. These therapeutics improve CFTR functioningbut do not return functionality to wild type levels. The approachdescribed herein is expected to restore CFTR function through completecorrection of the gene.

Gene therapy approaches are in development that deliver the CFTR channelgene to the lungs of CF or CF-like disease patients. However, genetherapy may require constant readministration over the course of thelifetime of a subject due to high cell turnover in target epithelialcells. The approach described herein is expected to restore CFTRfunction and/or ameliorate SCNN1A disinhibition permanently through one,two or several doses.

The CFTR gene encodes a 180-kDA cAMP-gated chloride (Cl—) channel. Thechannel has six transmembrane spanning domains and is expressed byepithelial cells, lymphocytes and cardiac myocytes. The CFTR regulatesthe viscosity of mucous through its activity in the epithelial cells ofthe lungs, gastrointestinal tract and reproductive tract. Mutations inthe CFTR result in decreased CFTR activity. Decreased CFTR activity canlead to aberrant ion transport, which gives rise to various diseasesymptoms in the lungs and other tissues, such as accumulation of stickymucus, airway obstruction, infection and inflammation. Correction ofCFTR mutations will ameliorate or cure lung, gastrointestinal and/orreproductive symptoms of CF or CF-like disease.

The SCNN1A gene encodes the alpha subunit of the epithelial sodiumchannel (ENaC). The channel, comprised of alpha, beta and gammasubunits, regulates sodium transport into epithelial cells, includingthe epithelium of the lungs, sweat glands and kidneys. Mutations in theSCNN1A gene, (e.g. Val114ILE) have been shown to cause CF-like disease,characterized by pulmonary disease, including bronchiectasis. Mutationsin SCNN1A also cause pseudohypoaldosteronism, a severe disease of thekidney. Pseudohypoaldosteronism is due to defective sodium transportwithin kidney epithelial cells; it is not caused by defective sodiumtransport in other tissues. The methods described herein include thetargeted knockout of SCNN1A in the lung, gastrointestinal tract and/orreproductive tract. The methods described herein will not target kidneyepithelium and will avoid the negative consequences of SCNN1A mutationswithin the kidney epithelium. One mutation in the SCNN1A gene, a 1477T>Gsubstitution (W493R) has been identified in subjects who also have amutation in CFTR. This mutation is associated with a severe CF orCF-like disease phenotype, including severe bronchiectasis, chronicbronchitis and/or severe gastrointestinal symptoms. This mutation hasbeen found to be associated with 4-fold overactivity of the ENaC channel(Azad et al., 2009; Human Mutation 30: 1093-1103). Overactivity of theSCNN1A-encoded ENaC channel can contribute to CF and CF-like disease. Inall subjects, the CFTR is involved in inhibition of ENaC. CFTR mutationsin subjects with CF or CF-like disease leads to ENaC disinhibition,leading to overactivity of the ENaC channel. ENaC overactivity can leadto further reduction in viscosity of mucous in CF or CF-like diseasesubjects, as more sodium is absorbed at the apical surface of epithelialcells, followed by increased fluid absorption from the mucous layerwithin the lung (Baker et al., 2012; Medicine & Science in Sports andExercise 44(12): 2315-2321). Increased fluid absorption from the mucouslayer reduces mucous viscosity. Inhibition of ENaC through SCNN1Aknockout and/or knockdown in subjects with CF or CF-like disease canameliorate the symptoms of CF or CF-like disease. Mutations in the CFTRgene (also known as ABC35, ATP-binding cassette sub-family C, member 7,CFTR/MRP, dJ760C5.1, MRP7 and TNR-CFTR) have been shown to cause CFand/or CF-like disease. Mutations in the CFTR gene leading to CF and/orCF-like disease can be described based on their target position in theCFTR protein. In an embodiment, the target position is F508, e.g.,F508del (also sometimes referred to herein as “ΔF508”), in the CFTRprotein, which corresponds to a deletion of three nucleotidesc.1521_1523delCTT in the CFTR gene (e.g., c.1521_1523delCTT(p.Phe508delPhe)). In an embodiment, the target position is G551, e.g.,G551D, in the CFTR protein, which corresponds to c.1652G>A in the CFTRgene. In an embodiment, the target position is G542, e.g., G542X, in theCFTR protein, which corresponds to c.1624G>T in the CFTR gene. In anembodiment, the target position is N1303, e.g., N1303K, in the CFTRprotein, which corresponds to c.3909C>G in the CFTR gene. In anembodiment, the target position is R117, e.g., R117H, in the CFTRprotein, which corresponds to c.350G>A in the CFTR gene. In anembodiment, the target position is W1282, e.g., W1282X, in the CFTRprotein, which corresponds to c. c.3846G>A in the CFTR gene. In anembodiment, the target position is R553, e.g., R553X, in the CFTRprotein, which corresponds to c.1657C>T in the CFTR gene. In anembodiment, the target position is c.3717+12191, also known asc.3849+10kb, which corresponds to 3717+12191C>T in the CFTR gene. In anembodiment, the target position is c.2657+5, also known as c.2789+5,which corresponds to 2657+5G>A in the CFTR gene. In an embodiment, thetarget position is c.3140-26, also known as c.3272-26, which correspondsto c.3140-26A>G in the CFTR gene.

Overactivity of the SCNN1A gene has been shown to contribute tobronchiectasis, bronchitis, and gastrointestinal symptoms in subjectswith CF and in subjects with CF-like disease. In another aspect, methodsand compositions discussed herein may be used to alter the SCNN1A gene(also known as sodium channel, non-voltage-gated 1 alpha subunit;amiloride-sensitive epithelial sodium channel alpha subunit; BESC2;ENaCa; SCNEA; SCNN1; ENaCalpha) to treat or prevent CF or CF-likedisease, by targeting the SCNN1A gene, e.g., the non-coding or codingregions, e.g., a promoter region, or a transcribed sequence, e.g.,intronic or exonic sequence. In an embodiment, the target position isV114, which corresponds to V114I in the SCNN1A gene. SCNN1A encodes anepithelial sodium channel, ENaC, that is negatively regulated by CFTR.In subjects with CFTR mutations, knocking out or knocking down theSCNN1A gene in certain cells will reduce or reverse the effect ofdefective CFTR. In subjects with no CFTR mutations but CF-like diseasecaused by SCNN1A mutations or other mechanisms, knocking out or knockingdown the SCNN1A gene in certain cells will improve the viscosity ofmucous and ameliorate disease.

Methods and compositions disclosed herein provide a number of approachesfor treating or preventing CF and/or CF-like disease. As is discussed inmore detail below, methods described herein provide for treating orpreventing CF or CF-like disease by correcting a target position in theCFTR gene to provide corrected, or functional, e.g., wild type, CFTR.Other methods described herein allow for treating or preventing CF orCF-like disease by inducing or introducing a mutation that reduces thelevel of functional SCNN1A gene product.

In one aspect, methods and compositions discussed herein, provide forthe correction of the underlying cause of CF or CF-like disease, e.g.,the correction of a mutation at a target position in the CFTR gene,e.g., correction of a mutation in the CFTR gene that corresponds toamino acid position 508, e.g., an F508 deletion (F508del), in CFTRprotein.

“CF target mutant position”, as used herein, refers to a target positionin the CFTR gene, which, if mutated, can result in a mutant protein andgive rise to CF or CF-like disease. In an embodiment, the targetposition comprises one, two, or three nucleotides. In an embodiment, theCF target mutant position is a position in the CFTR gene at which achange can give rise to a mutant protein having a mutation at F508,e.g., F508del. In an embodiment, the CF target mutant position is aposition in the CFTR gene at which a change can give rise to a mutantprotein having a mutation at G551, e.g., G551D. In an embodiment, the CFtarget mutant position is a position in the CFTR gene at which a changecan give rise to a mutant protein having a mutation at G542, e.g.,G542X, in the CFTR protein, which corresponds to c.1624G>T in the CFTRgene. In an embodiment, the CF target mutant position is a position inthe CFTR gene at which a change can give rise to a mutant protein havinga mutation at N1303, e.g., N1303K, in the CFTR protein, whichcorresponds to c.3909C>G in the CFTR gene. In an embodiment, the CFtarget mutant position is a position in the CFTR gene at which a changecan give rise to a mutant protein having a mutation at R117, e.g.,R117H, in the CFTR protein, which corresponds to c.350G>A in the CFTRgene. In an embodiment, the CF target mutant position is a position inthe CFTR gene at which a change can give rise to a mutant protein havinga mutation at W1282, e.g., W1282X, in the CFTR protein, whichcorresponds to c. c.3846G>A in the CFTR gene. In an embodiment, the CFtarget mutant position is a position in the CFTR gene at which a changecan give rise to a mutant protein having a mutation at R553, e.g.,R553X, in the CFTR protein, which corresponds to c.1657C>T in the CFTRgene. In an embodiment, the CF target mutant position is c.3717+12191,also known as c.3849+10kb, which corresponds to 3717+12191C>T in theCFTR gene. In an embodiment, the CF target mutant position is c.2657+5,also known as c.2789+5, which corresponds to 2657+5G>A in the CFTR gene.In an embodiment, the CF target mutant position is c.3140-26, also knownas c.3272-26, which corresponds to c.3140-26A>G in the CFTR gene. In anembodiment, the CF target mutant position is a position in the SCNN1Agene at which a change can give rise to a mutant protein having amutation at V114, which corresponds to V114I in the SCNN1A gene.

While some of the disclosure herein is presented in the context of themutation in the CFTR gene that gives rise to an F508 mutant protein(e.g., a F508del mutant protein), a G551 mutant protein (e.g., a G551Dmutant protein), a G542 mutant protein (e.g., G542X mutant protein), aN1303 mutant protein (e.g., a N1303K mutant protein), a R117 mutantprotein (e.g., an R117H mutant protein), a W1282 mutant protein (e.g., aW1282X mutant protein), an R553 mutant protein (e.g., an R553X mutantprotein), a c.2789+5bp intronic mutant (e.g., a c.2789+5bp G>A mutant),or a c.3272-26bp intronic mutant (e.g., a c.3272-26bp A>G mutant), themethods and compositions herein are broadly applicable to any mutation,e.g., a point mutation or a deletion, in the CFTR gene that gives riseto CF or CF-like disease.

While not wishing to be bound by theory, it is believed that, in anembodiment, a mutation at a CF target mutant position is corrected byhomology directed repair (HDR), as described herein.

In another aspect, methods and compositions discussed herein may be usedto alter the SCNN1A gene (also known as sodium channel,non-voltage-gated 1 alpha subunit) to treat or prevent CF or CF-likedisease, by targeting the SCNN1A gene, e.g., the non-coding or codingregions, e.g., a promoter region, or a transcribed sequence, e.g.,intronic or exonic sequence. SCNN1A encodes an epithelial sodium channelthat is negatively regulated by CFTR. By knocking out the SCNN1A gene incertain cells, the effect of defective CFTR can be reduced or reversed.

In another aspect, the methods and compositions discussed herein may beused to alter the SCNN1A gene to treat or prevent CF or CF-like diseaseby targeting the coding sequence of the SCNN1A gene. In one embodiment,the gene, e.g., the coding sequence of the SCNN1A gene, is targeted toknockout the gene, e.g., to eliminate expression of the gene, e.g., toknockout one or both alleles of the SCNN1A gene, e.g., by induction ofan alteration comprising a deletion or mutation in the SCNN1A gene. Inan embodiment, the method provides an alteration that comprises aninsertion or deletion.

In an embodiment, coding region, e.g., an early coding region, of theSCNN1A gene, is targeted for alteration and knockout. In one embodiment,an early coding region of the SCNN1A gene is targeted to knockout theSCNN1A gene. In an embodiment, targeting affects both alleles of theSCNN1A gene. In an embodiment, targeting affects one allele of theSCNN1A gene. In an embodiment, a targeted knockout approach reduces oreliminates expression of functional SCNN1A gene product. In anembodiment, the method provides an alteration in the SCNN1A gene thatcomprises an insertion or deletion.

In another aspect, the methods and compositions discussed herein may beused to alter the SCNN1A gene to treat or prevent CF or CF-like diseaseby targeting non-coding sequence of the SCNN1A gene, e.g., promoter, anenhancer, an intron, 3′UTR, and/or polyadenylation signal. In anembodiment, the gene, e.g., the non-coding sequence of the SCNN1A gene,is targeted to knockout the gene, e.g., to eliminate expression of thegene, e.g., to knockout one or both alleles of the SCNN1A gene, e.g., byinduction of an alteration comprising a deletion or mutation in theSCNN1A gene. In an embodiment, the method provides an alteration thatcomprises an insertion or deletion.

As described herein, in an embodiment, a targeted knockout approach ismediated by non-homologous end joining (NHEJ) using a CRISPR/Cas systemcomprising an enzymatically active Cas9 (eaCas9).

“CF target knockout position”, as used herein, refers to a position inthe SCNN1A gene, which if altered by NHEJ-mediated alteration, resultsin alleviation of a symptom of CF or CF-like disease. In an embodiment,the alteration results in reduction or elimination of expression offunctional SCNN1A gene product. In an embodiment, the position is in theSCNN1A coding region, e.g., an early coding region.

In an embodiment, the promoter region of the SCNN1A gene is targeted toknock down the expression of the SCNN1A gene. This type of alteration isalso sometimes referred to as “knocking down” the SCNN1A gene. While notwishing to be bound by theory, in an embodiment, a targeted knockdownapproach is mediated by a CRISPR/Cas system comprising a Cas9 molecule,e.g., an enzymatically inactive Cas9 (eiCas9) molecule or an eiCas9fusion protein (e.g., an eiCas9 fused to a transcription repressordomain or chromatin modifying protein), as described herein. In anembodiment, the SCNN1A gene is targeted to alter (e.g., to block,reduce, or decrease) the transcription of the SCNN1A gene. In anotherembodiment, the SCNN1A gene is targeted to alter the chromatin structure(e.g., one or more histone and/or DNA modifications) of the SCNN1A gene.In an embodiment, a CF target knockdown position is targeted by genomeediting using the CRISPR/Cas9 system. In an embodiment, one or more gRNAmolecules comprising a targeting domain are configured to target anenzymatically inactive Cas9 (eiCas9) or an eiCas9 fusion protein (e.g.,an eiCas9 fused to a transcription repressor domain), sufficiently closeto a CF target knockdown position to reduce, decrease or repressexpression of the SCNN1A gene.

“CF target knockdown position”, as used herein, refers to a position inthe SCNN1A gene, which if targeted, e.g., by an eiCas9 molecule or aneiCas9 fusion described herein, results in reduction or elimination ofexpression of functional SCNN1A gene product. In an embodiment, thetranscription of the SCNN1A gene is reduced or eliminated. In anotherembodiment, the chromatin structure of the SCNN1A gene is altered.

“CF target knockin position”, as used herein, refers to a sequence,which if modified by the insertion of CFTR sequence, results in anoptimization of CFTR activity, e.g., by resulting in a CFTR sequencethat encodes a protein having wild type activity. Exemplary CF targetknockin position include: CFTR sequence within intron 2, into which,e.g., can be introduced CFTR sequence that codes for CFTR exons 3-27;and sequence within CFTR intron 10, into which sequence that codes forCFTR exons 11-27 can be introduced. In an embodiment, a CF targetknockin position includes CFTR intronic sequence between a second and athird exon (e.g., intron 2), and CFTR sequence encoding the third exonthrough the final exon (exon 27), is introduced, resulting in a CFTRsequence that is free of one or more cryptic splice sites and thatencodes a CFTR protein having wild type activity. In an embodiment, a CFtarget knockin position, is a position which is upstream of a mutation,or upstream of an intron having a mutation, and introduction ofwild-type CFTR sequence results in a CFTR sequence that is free of themutation. In an embodiment the CF target knockin position is in CFTRintronic sequence: between exon2 and exon 3; or between exon10 and exon11. In an embodiment, the resulting CFTR sequence comprises subjectsequence upstream from the CF target knockin position and newlyintroduced sequence downstream from the CF target knockin position,which taken together, encode a CFTR protein having wild type activity.In an embodiment, the point of insertion is 3′ to a splice donor siteand 5′ from a splice acceptor site. In an embodiment, CFTR sequenceencoding exons 3-27 is inserted under control of the promoter, e.g., atthe transcription start site. In an embodiment, CFTR sequence introducedcan exclude introns, e.g., a sequence encoding exons, but withoutintrons, is inserted, e.g., CFTR CDNA sequence is introduced.

“CF target position”, as used herein, refers to a CF target mutantposition, CF target knockout position, CF target knockdown position,and/or CF target knockin position, as described herein.

In one aspect, disclosed herein is a gRNA molecule, e.g., an isolated ornon-naturally occurring gRNA molecule, comprising a targeting domainwhich is complementary with a target domain from the CFTR gene or SCNN1Agene.

In an embodiment, the targeting domain of the gRNA molecule isconfigured to provide a cleavage event, e.g., a double strand break or asingle strand break, sufficiently close to a CF target position in theCFTR gene or SCNN1A gene to allow alteration, e.g., alterationassociated with, respectively, HDR or NHEJ, of a CF target position inthe CFTR gene or SCNN1A gene. In an embodiment, the targeting domain isconfigured such that a cleavage event, e.g., a double strand or singlestrand break, is positioned within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30,35, 40, 45, 50, 60, 70, 80, 90, 100, 150, 200, 225, 250, or 300nucleotides of a CF target position. The break, e.g., a double strand orsingle strand break, can be positioned upstream or downstream of a CFtarget position in the CFTR gene or SCNN1A gene.

In an embodiment, a second gRNA molecule comprising a second targetingdomain is configured to provide a cleavage event, e.g., a double strandbreak or a single strand break, sufficiently close to the CF targetposition in the CFTR gene or SCNN1A gene, to allow alteration, e.g.,alteration associated with, respectively, HDR or NHEJ, of the CF targetposition in the CFTR gene or SCNN1A gene, either alone or in combinationwith the break positioned by said first gRNA molecule. In an embodiment,the targeting domains of the first and second gRNA molecules areconfigured such that a cleavage event, e.g., a double strand or singlestrand break, is positioned, independently for each of the gRNAmolecules, within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60,70, 80, 90, 100, 150, 200, 225, 250, or 300 nucleotides of the targetposition. In an embodiment, the breaks, e.g., double strand or singlestrand breaks, are positioned on both sides of a nucleotide of a CFtarget position in the CFTR gene or SCNN1A gene. In an embodiment, thebreaks, e.g., double strand or single strand breaks, are positioned onone side, e.g., upstream or downstream, of a nucleotide of a CF targetposition in the CFTR gene or SCNN1A gene.

In an embodiment, a single strand break is accompanied by an additionalsingle strand break, positioned by a second gRNA molecule, as discussedbelow. For example, the targeting domains are configured such that acleavage event, e.g., the two single strand breaks, are positionedwithin 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80,90, 100, 150, 200, 225, 250, or 300 nucleotides of a CF target position.In an embodiment, the first and second gRNA molecules are configuredsuch, that when guiding a Cas9 molecule, e.g., a Cas9 nickase, a singlestrand break will be accompanied by an additional single strand break,positioned by a second gRNA, sufficiently close to one another to resultin alteration of a CF target position in the CFTR gene or SCNN1A gene.In an embodiment, the first and second gRNA molecules are configuredsuch that a single strand break positioned by said second gRNA is within10, 20, 30, 40, or 50 nucleotides of the break positioned by said firstgRNA molecule, e.g., when the Cas9 molecule is a nickase. In anembodiment, the two gRNA molecules are configured to position cuts atthe same position, or within a few nucleotides of one another, ondifferent strands, e.g., essentially mimicking a double strand break.

In an embodiment, a double strand break can be accompanied by anadditional double strand break, positioned by a second gRNA molecule, asis discussed below. For example, the targeting domain of a first gRNAmolecule is configured such that a double strand break is positionedupstream of a CF target position in the CFTR gene or SCNN1A gene, e.g.,within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80,90, 100, 150, 200, 225, 250, or 300 nucleotides of the target position;and the targeting domain of a second gRNA molecule is configured suchthat a double strand break is positioned downstream of a CF targetposition in the CFTR gene or SCNN1A gene, e.g., within 1, 2, 3, 4, 5,10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100, 150, 200, 225,250, or 300 nucleotides of the target position.

In an embodiment, a double strand break can be accompanied by twoadditional single strand breaks, positioned by a second gRNA moleculeand a third gRNA molecule. For example, the targeting domain of a firstgRNA molecule is configured such that a double strand break ispositioned upstream of a CF target position in the CFTR gene or SCNN1Agene, e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50,60, 70, 80, 90, 100, 150, 200, 225, 250, or 300 nucleotides of thetarget position; and the targeting domains of a second and third gRNAmolecule are configured such that two single strand breaks arepositioned downstream of a CF target position in the CFTR gene or SCNN1Agene, e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50,60, 70, 80, 90, 100, 150, 200, 225, 250, or 300 nucleotides of thetarget position. In an embodiment, the targeting domain of the first,second and third gRNA molecules are configured such that a cleavageevent, e.g., a double strand or single strand break, is positioned,independently for each of the gRNA molecules.

In an embodiment, a first and second single strand breaks can beaccompanied by two additional single strand breaks positioned by a thirdgRNA molecule and a fourth gRNA molecule. For example, the targetingdomain of a first and second gRNA molecule are configured such that twosingle strand breaks are positioned upstream of a CF target position inthe CFTR gene or SCNN1A gene, e.g., within 1, 2, 3, 4, 5, 10, 15, 20,25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100, 150, 200, 225, 250, or 300nucleotides of the target position; and the targeting domains of a thirdand fourth gRNA molecule are configured such that two single strandbreaks are positioned downstream of a CF target position in the CFTRgene or SCNN1A gene, e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35,40, 45, 50, 60, 70, 80, 90, 100, 150, 200, 225, 250, or 300 nucleotidesof the target position.

It is contemplated herein that, in an embodiment, when multiple gRNAsare used to generate (1) two single stranded breaks in close proximity,(2) two double stranded breaks, e.g., flanking a CF target position,e.g., a mutation (e.g., to remove a piece of DNA, e.g., to introduce adeletion mutation) or to create more than one indel in the gene, e.g.,in a coding region, e.g., an early coding region, (3) one doublestranded break and two paired nicks flanking a CF target position, e.g.,a mutation (e.g., to remove a piece of DNA, e.g., to introduce adeletion mutation) or (4) four single stranded breaks, two on each sideof a position, e.g., a mutation, that they are targeting the same CFtarget position. It is further contemplated herein that multiple gRNAsmay be used to target more than one CF target position (e.g., mutation)in the same gene.

In an embodiment, the targeting domain of the first gRNA molecule andthe targeting domain of the second gRNA molecules are complementary toopposite strands of the target nucleic acid molecule. In an embodiment,the gRNA molecule and the second gRNA molecule are configured such thatthe PAMs are oriented outward.

In an embodiment, the targeting domain of a gRNA molecule is configuredto avoid unwanted target chromosome elements, such as repeat elements,e.g., Alu repeats, in the target domain. The gRNA molecule may be afirst, second, third and/or fourth gRNA molecule, as described herein.

In an embodiment, the targeting domain of a gRNA molecule is configuredto position a cleavage event sufficiently far from a preselectednucleotide, e.g., the nucleotide of a coding region, such that thenucleotide is not altered. In an embodiment, the targeting domain of agRNA molecule is configured to position an intronic cleavage eventsufficiently far from an intron/exon border, or naturally occurringsplice signal, to avoid alteration of the exonic sequence or unwantedsplicing events. The gRNA molecule may be a first, second, third and/orfourth gRNA molecule, as described herein.

In an embodiment, a CF target mutant position, e.g., a deletion in theCFTR gene, e.g., at F508, e.g., F508del, is targeted, e.g., forcorrection. In an embodiment, the targeting domain of a gRNA moleculecomprises a sequence that is the same as, or differs by no more than 1,2, 3, 4, or 5 nucleotides from, a targeting domain sequence from any oneof Tables 1A-1E, 10A-10C, 11A-11E or 12A-12C. In some embodiments, thetargeting domain is independently selected from those in Tables 1A-1E,10A-10C, 11A-11E or 12A-12C. For example, in certain embodiments, thetargeting domain is independently selected from:

(SEQ ID NO: 387) GAGGGUAAAAUUAAGCACAG; (SEQ ID NO: 388)AGUUUCUUACCUCUUCUAGU; (SEQ ID NO: 389) AAUGGUGCCAGGCAUAAUCC;(SEQ ID NO: 390) GGUAAAAUUAAGCACAG; (SEQ ID NO: 391) AGCAUGCCAACUAGAAG;or (SEQ ID NO: 392) GUAUCUAUAUUCAUCAU.

In an embodiment, when the CF target mutant position is F508, e.g.,F508del, and two gRNAs are used to position two breaks, e.g., two singlestranded breaks, in the target nucleic acid sequence, each guide RNA isindependently selected from one of Tables 1A-1E, 10A-10C, 11A-11E or12A-12C.

In an embodiment, a CF target mutant position, e.g., a mutation in theCFTR gene, e.g., at G551, e.g., G551D, is targeted, e.g., forcorrection. In an embodiment, the targeting domain of a gRNA moleculecomprises a sequence that is the same as, or differs by no more than 1,2, 3, 4, or 5 nucleotides from, a targeting domain sequence from any oneof Tables 2A-2E, 16A-16D, 17A-17E, or 18A-18C. In some embodiments, thetargeting domain is independently selected from those in Tables 2A-2E,16A-16D, 17A-17E, or 18A-18C. For example, in certain embodiments, thetargeting domain is independently selected from:

(SEQ ID NO: 453) GAGAAAGACAAUAUAGUUCU; (SEQ ID NO: 454)GGUGGAAUCACACUGAGUGG; (SEQ ID NO: 455) CCCACUAGCCAUAAAACCCC;(SEQ ID NO: 456) GGUGGAAUCACACUGAG; (SEQ ID NO: 457) GGAAUCACACUGAGUGG;(SEQ ID NO: 458) GGGGUUUUAUGGCUAGU; or (SEQ ID NO: 459)ACUAGCCAUAAAACCCC.

In an embodiment, more than one gRNA is used to position breaks, e.g.,two single stranded breaks or two double stranded breaks, or acombination of single strand and double strand breaks, e.g., to createone or more indels, in the target nucleic acid sequence. In anembodiment, the targeting domain of each guide RNA is independentlyselected from one of Tables 2A-2E, 16A-16D, 17A-17E, or 18A-18C.

In an embodiment, a mutation in the CFTR gene, e.g., at N1303, e.g.,N1303K, is targeted, e.g., for correction. In an embodiment, thetargeting domain of a gRNA molecule comprises a sequence that is thesame as, or differs by no more than 1, 2, 3, 4, or 5 nucleotides from, atargeting domain sequence from any one of Tables 19A-19D, 20A-20E, or21A-21B. In some embodiments, the targeting domain is independentlyselected from those in Tables 19A-19D, 20A-20E, or 21A-21B. For example,in certain embodiments, the targeting domain is selected from:

(SEQ ID NO: 2223) GGAGUGAUCAAGAAAUA; (SEQ ID NO: 2224)GAGUACCCUAACAUACC; (SEQ ID NO: 2225) GUGUGUGCACAACUUUAAAA;(SEQ ID NO: 2226) GGAAAGUUGCAGAUGAGGUA; (SEQ ID NO: 2227)GAACUUGAUGGUAAGUACAU; or (SEQ ID NO: 2228) GCUAUAUCAGCCAUUUGUGU.

In an embodiment, when the CF target mutant position is N1303, e.g.,N1303K, and two gRNAs are used to position two breaks, e.g., two singlestranded breaks, in the target nucleic acid sequence, each guide RNA isindependently selected from one of Tables 19A-19D, 20A-20E, or 21A-21B.

In an embodiment, a mutation in the CFTR gene, e.g., at W1282, e.g.,W1282X, is targeted, e.g., for correction. In an embodiment, thetargeting domain of a gRNA molecule comprises a sequence that is thesame as, or differs by no more than 1, 2, 3, 4, or 5 nucleotides from, atargeting domain sequence from any one of Tables 28A-28D, 29A-29E, or30A-30B. In some embodiments, the targeting domain is independentlyselected from those in Tables 28A-28D, 29A-29E, or 30A-30B. For example,in certain embodiments, the targeting domain is selected from:

(SEQ ID NO: 2993) GAAUUAUGUUUAUGGCA; (SEQ ID NO: 2994)GGAGAAAUCCAGAUCGA; (SEQ ID NO: 2995) GGCCUCUUGGGAAGAAC;(SEQ ID NO: 2996) GUCCUUUUGCUCACCUG; (SEQ ID NO: 2997)GAUCGAUGGUGUGUCUU; (SEQ ID NO: 2998) GAAGGAGAAAUCCAGAUCGA;(SEQ ID NO: 2999) GUGGGCCUCUUGGGAAGAAC.

In an embodiment, when the CF target mutant position is W1282, e.g.,W1282X, and two gRNAs are used to position two breaks, e.g., two singlestranded breaks, in the target nucleic acid sequence, each guide RNA isindependently selected from one of Tables 28A-28D, 29A-29E, or 30A-30B.

In an embodiment, a mutation in the CFTR gene, e.g., at R553, e.g.,R553X, is targeted, e.g., for correction. In an embodiment, thetargeting domain of a gRNA molecule comprises a sequence that is thesame as, or differs by no more than 1, 2, 3, 4, or 5 nucleotides from, atargeting domain sequence from any one of Tables 25A-25D, 26A-26E, or27A-27D. In some embodiments, the targeting domain is independentlyselected from those in Tables 25A-25D, 26A-26E, or 27A-27D. For example,in certain embodiments, the targeting domain is selected from:

(SEQ ID NO: 466) GCUUUAUAUUCUGUUUC; (SEQ ID NO: 456) GGUGGAAUCACACUGAG;(SEQ ID NO: 457) GGAAUCACACUGAGUGG; (SEQ ID NO: 464) GUUCAAAAUUUCAACUG;(SEQ ID NO: 465) GGUGAAUAACUAAUUAU; (SEQ ID NO: 458) GGGGUUUUAUGGCUAGU;(SEQ ID NO: 462) GAGCAAGAAUUUCUUUAGCA; (SEQ ID NO: 460)GACAAUAUAGUUCUUGGAGA; (SEQ ID NO: 461) GAAGGUGGAAUCACACUGAG;(SEQ ID NO: 454) GGUGGAAUCACACUGAGUGG; or (SEQ ID NO: 453)GAGAAAGACAAUAUAGUUCU.

In an embodiment, when the CF target mutant position is R553, e.g.,R553X, and two gRNAs are used to position two breaks, e.g., two singlestranded breaks, in the target nucleic acid sequence, each guide RNA isindependently selected from one of Tables 25A-25D, 26A-26E, or 27A-27D.

In an embodiment, a mutation in the CFTR gene, e.g., at 3717+12191C>T,also known as 3849+10kbC>T is targeted, e.g., for correction. In anembodiment, the targeting domain of a gRNA molecule comprises a sequencethat is the same as, or differs by no more than 1, 2, 3, 4, or 5nucleotides from, a targeting domain sequence from any one of Tables34A-34D, 35A-35D, or 36A-36D. In some embodiments, the targeting domainis independently selected from those in Tables 34A-34D, 35A-35D, or36A-36D. For example, in certain embodiments, the targeting domain isselected from:

(SEQ ID NO: 3344) GAGUAAGACACCCUGAA; (SEQ ID NO: 3345)GAUUUCUGGAGACCACA; (SEQ ID NO: 3346) GGUUUUAGCUAUUACUC;(SEQ ID NO: 3347) GUAGUUGAAUCAUUCAG; (SEQ ID NO: 3348)GAACUCAGUUUUUAGGU; (SEQ ID NO: 3349) GAAAGGAAAUGUUCUAUUCA;(SEQ ID NO: 3350) GUUUUUAGGUUGGGAAAGAC; (SEQ ID NO: 3351)GCACAUAAUAAUUAGUUUCC; (SEQ ID NO: 3352) GAGAACUCAGUUUUUAGGUU; or(SEQ ID NO: 3353) GAAAACACUGACUUAGAUUU.

In an embodiment, when the CF target mutant position is 3717+12191C>Tand two gRNAs are used to position two breaks, e.g., two single strandedbreaks, in the target nucleic acid sequence, each guide RNA isindependently selected from one of Tables 34A-34D, 35A-35D, or 36A-36D.

In an embodiment, a mutation in the CFTR gene, e.g., at 2657+5G>A, alsoknown as 2789+5G>A is targeted, e.g., for correction. In an embodiment,the targeting domain of a gRNA molecule comprises a sequence that is thesame as, or differs by no more than 1, 2, 3, 4, or 5 nucleotides from, atargeting domain sequence from any one of Tables 4A-4D, 5A-5E, or 6A-6C.In some embodiments, the targeting domain is independently selected fromthose in Tables 4A-4D, 5A-5E, or 6A-6C. For example, in certainembodiments, the targeting domain is selected from:

(SEQ ID NO: 937) GAAGCAGCCACCUGGAA; (SEQ ID NO: 938) GGAAUAUUCACUUUCCA;(SEQ ID NO: 939) GAAUUUAGAUGUGGGCA; (SEQ ID NO: 940) GUGUCUUGUUCCAUUCC;(SEQ ID NO: 941) GUGGGCAUGGGAGGAAU; (SEQ ID NO: 942) GUUGUGCUGUGGCUCCU;(SEQ ID NO: 943) GAUGUGAAUUUAGAUGU; (SEQ ID NO: 944)GACCCAGGAACACAAAGCAA; (SEQ ID NO: 945) GUGUCACCUCACCCAACUAA;(SEQ ID NO: 946) GUGUCUUGUUCCAUUCCAGG; (SEQ ID NO: 947)GAUGUGGGCAUGGGAGGAAU; (SEQ ID NO: 948) GUGAAUUUAGAUGUGGGCAU.

In an embodiment, when the CF target mutant position is 2657+5G>A andtwo gRNAs are used to position two breaks, e.g., two single strandedbreaks, in the target nucleic acid sequence, each guide RNA isindependently selected from one of Tables 4A-4D, 5A-5E, or 6A-6C.

In an embodiment, a mutation in the CFTR gene, e.g., at 3140-26A>G, alsoknown as 3272-26A>G, is targeted, e.g., for correction. In anembodiment, the targeting domain of a gRNA molecule comprises a sequencethat is the same as, or differs by no more than 1, 2, 3, 4, or 5nucleotides from, a targeting domain sequence from any one of Tables7A-7D, 8A-8E, or 9A-9B. In some embodiments, the targeting domain isindependently selected from those in Tables 7A-7D, 8A-8E, or 9A-9B. Forexample, in certain embodiments, the targeting domain is selected from:

(SEQ ID NO: 1282) GUAAGGCUGCCGUCCGA; (SEQ ID NO: 1283)GGAAAUAUUUCACAGGC; (SEQ ID NO: 1284) GUAAAUUCAGAGCUUUG;(SEQ ID NO: 1285) GGACACUUCGUGCCUUCGGA; (SEQ ID NO: 1286)GGAACCAGCGCAGUGUUGAC; (SEQ ID NO: 1287) GUAACAAGAUGAGUGAAAAU.

In an embodiment, when the CF target mutant position is 3140-26A>G andtwo gRNAs are used to position two breaks, e.g., two single strandedbreaks, in the target nucleic acid sequence, each guide RNA isindependently selected from one of Tables 7A-7D, 8A-8E, or 9A-9B.

In another embodiment, a CF target knockout position, e.g., a positionin the coding region, e.g., the early coding region, of the SCNN1A geneis targeted, e.g., for knockout. In an embodiment, the targeting domaincomprises a sequence that is the same as, or differs by no more than 1,2, 3, 4, or 5 nucleotides from, a targeting domain sequence from any oneof Tables 3A-3D, 43A-43E, 44A-44G, or 45A-45E. In an embodiment, thetargeting domain is independently selected from those in Tables 3A-3D,43A-43E, 44A-44G, or 45A-45E. In another embodiment, the targetingdomain is independently selected from:

(SEQ ID NO: 497) GCCCAUACCAGGUCUCAUGG; (SEQ ID NO: 498)CCAUACCAGGUCUCAUGGAG; (SEQ ID NO: 499) GCCCUCCACAGUCCACUCCA;(SEQ ID NO: 500) CCCCUCCAUGAGACCUGGUA; (SEQ ID NO: 501)AUACCAGGUCUCAUGGA; or (SEQ ID NO: 502) CUCCAUGAGACCUGGUA.

In an embodiment, when the CF target knockout position is the SCNN1Acoding region, e.g., early coding region, and more than one gRNA is usedto position breaks, e.g., two single stranded breaks or two doublestranded breaks, or a combination of single strand and double strandbreaks, e.g., to create one or more indels, in the target nucleic acidsequence, each guide RNA is independently selected from one of Tables3A-3D, 43A-43E, 44A-44G, or 45A-45E.

In an embodiment, the targeting domain of the gRNA molecule isconfigured to target an enzymatically inactive Cas9 (eiCas9) molecule oran eiCas9 fusion protein (e.g., an eiCas9 fused to a transcriptionrepressor domain), sufficiently close to a SCNN1A transcription startsite (TSS) to reduce (e.g., block) transcription, e.g., transcriptioninitiation or elongation, binding of one or more transcription enhancersor activators, and/or RNA polymerase. In an embodiment, the targetingdomain is configured to target between 1000 bp upstream and 1000 bpdownstream (e.g., between 500 bp upstream and 1000 bp downstream,between 1000 bp upstream and 500 bp downstream, between 500 bp upstreamand 500 bp downstream, within 500 bp upstream, or within 500 bpdownstream) of the TSS of the SCNN1A gene. One or more gRNAs may be usedto target an eiCas9 to the promoter region of the SCNN1A gene.

In an embodiment, when the SCNN1A promoter region is targeted, e.g., forknockdown, the targeting domain can comprise a sequence that is the sameas, or differs by no more than 1, 2, 3, 4, or 5 nucleotides from, atargeting domain sequence from any one of Tables 46A-46E, 47A-47G, or48A-48E. In an embodiment, the targeting domain is independentlyselected from those in Tables 46A-46E, 47A-47G, or 48A-48E.

In an embodiment, the targeting domain is independently selected fromthose in Table 46A. In an embodiment, the targeting domain isindependently selected from those in Table 47A. In an embodiment, thetargeting domain is independently selected from those in Table 48A.

In an embodiment, when the CF target knockdown position is the SCNN1Apromoter region and more than one gRNA is used to position an eiCas9molecule or an eiCas9-fusion protein (e.g., an eiCas9-transcriptionrepressor domain fusion protein), in the target nucleic acid sequence,the targeting domain for each guide RNA is independently selected fromone of Tables 46A-46E, 47A-47G, or 48A-48E.

In an embodiment, the gRNA, e.g., a gRNA comprising a targeting domain,which is complementary with the CFTR gene or SCNN1A gene, is a modulargRNA. In other embodiments, the gRNA is a unimolecular or chimeric gRNA.

In an embodiment, the targeting domain which is complementary with atarget domain from the CF target position in the CFTR gene or SCNN1Agene is 16 nucleotides or more in length. In an embodiment, thetargeting domain is 16 nucleotides in length. In an embodiment, thetargeting domain is 17 nucleotides in length. In another embodiment, thetargeting domain is 18 nucleotides in length. In still anotherembodiment, the targeting domain is 19 nucleotides in length. In stillanother embodiment, the targeting domain is 20 nucleotides in length. Instill another embodiment, the targeting domain is 21 nucleotides inlength. In still another embodiment, the targeting domain is 22nucleotides in length. In still another embodiment, the targeting domainis 23 nucleotides in length. In still another embodiment, the targetingdomain is 24 nucleotides in length. In still another embodiment, thetargeting domain is 25 nucleotides in length. In still anotherembodiment, the targeting domain is 26 nucleotides in length.

In an embodiment, the targeting domain comprises 16 nucleotides.

In an embodiment, the targeting domain comprises 17 nucleotides.

In an embodiment, the targeting domain comprises 18 nucleotides.

In an embodiment, the targeting domain comprises 19 nucleotides.

In an embodiment, the targeting domain comprises 20 nucleotides.

In an embodiment, the targeting domain comprises 21 nucleotides.

In an embodiment, the targeting domain comprises 22 nucleotides.

In an embodiment, the targeting domain comprises 23 nucleotides.

In an embodiment, the targeting domain comprises 24 nucleotides.

In an embodiment, the targeting domain comprises 25 nucleotides.

In an embodiment, the targeting domain comprises 26 nucleotides.

A gRNA as described herein may comprise from 5′ to 3′: a targetingdomain (comprising a “core domain”, and optionally a “secondarydomain”); a first complementarity domain; a linking domain; a secondcomplementarity domain; a proximal domain; and a tail domain. In someembodiments, the proximal domain and tail domain are taken together as asingle domain.

In an embodiment, a gRNA comprises a linking domain of no more than 25nucleotides in length; a proximal and tail domain, that taken together,are at least 20 nucleotides in length; and a targeting domain equal toor greater than 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotidesin length.

In another embodiment, a gRNA comprises a linking domain of no more than25 nucleotides in length; a proximal and tail domain, that takentogether, are at least 30 nucleotides in length; and a targeting domainequal to or greater than 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26nucleotides in length.

In another embodiment, a gRNA comprises a linking domain of no more than25 nucleotides in length; a proximal and tail domain, that takentogether, are at least 35 nucleotides in length; and a targeting domainequal to or greater than 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26nucleotides in length.

In another embodiment, a gRNA comprises a linking domain of no more than25 nucleotides in length; a proximal and tail domain, that takentogether, are at least 40 nucleotides in length; and a targeting domainequal to or greater than 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26nucleotides in length.

A cleavage event, e.g., a double strand or single strand break, isgenerated by a Cas9 molecule. The Cas9 molecule may be an enzymaticallyactive Cas9 (eaCas9) molecule, e.g., an eaCas9 molecule that forms adouble strand break in a target nucleic acid or an eaCas9 molecule formsa single strand break in a target nucleic acid (e.g., a nickasemolecule).

In an embodiment, the eaCas9 molecule catalyzes a double strand break.

In some embodiments, the eaCas9 molecule comprises HNH-like domaincleavage activity but has no, or no significant, N-terminal RuvC-likedomain cleavage activity. In this case, the eaCas9 molecule is anHNH-like domain nickase, e.g., the eaCas9 molecule comprises a mutationat D10, e.g., D10A. In other embodiments, the eaCas9 molecule comprisesN-terminal RuvC-like domain cleavage activity but has no, or nosignificant, HNH-like domain cleavage activity. In an embodiment, theeaCas9 molecule is an N-terminal RuvC-like domain nickase, e.g., theeaCas9 molecule comprises a mutation at H840, e.g., H840A. In anembodiment, the eaCas9 molecule is an N-terminal RuvC-like domainnickase, e.g., the eaCas9 molecule comprises a mutation at N863, e.g.,an N863A mutation.

In an embodiment, a single strand break is formed in the strand of thetarget nucleic acid to which the targeting domain of said gRNA iscomplementary. In another embodiment, a single strand break is formed inthe strand of the target nucleic acid other than the strand to which thetargeting domain of said gRNA is complementary.

In another aspect, disclosed herein is a nucleic acid, e.g., an isolatedor non-naturally occurring nucleic acid, e.g., DNA, that comprises (a) asequence that encodes a gRNA molecule comprising a targeting domain thatis complementary with a target domain, e.g., with a CF target position,in the CFTR gene or SCNN1A gene as disclosed herein.

In an embodiment, the nucleic acid encodes a gRNA molecule, e.g., afirst gRNA molecule, comprising a targeting domain configured to providea cleavage event, e.g., a double strand break or a single strand break,sufficiently close to a CF target position in the CFTR gene or SCNN1Agene to allow alteration, e.g., alteration associated with,respectively, HDR or NHEJ, of a CF target position in the CFTR gene orSCNN1A gene.

In an embodiment, the nucleic acid encodes a gRNA molecule, e.g., afirst gRNA molecule, comprising a targeting domain configured to targetan enzymatically inactive Cas9 (eiCas9) molecule or an eiCas9 fusionprotein (e.g., an eiCas9 fused to a transcription repressor domain),sufficiently close to a CF knockdown target position to reduce, decreaseor repress expression of the SCNN1A gene.

In an embodiment, the nucleic acid encodes a gRNA molecule, e.g., thefirst gRNA molecule, comprising a targeting domain comprising a sequencethat is the same as, or differs by no more than 1, 2, 3, 4, or 5nucleotides from, a targeting domain sequence as described herein, e.g.,from any one of Tables 1A-1E, 2A-2E, 3A-3D, 4A-4D, 5A-5E, 6A-6C, 7A-7D,8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E,24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E, 30A-30B, 31A-31D,32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D, 37A-37D, 38A-38E, 39A-39D,40A-40D, 41A-41E, 42A-42D, 43A-43E, 44A-44G, 45A-45E, 46A-46E, 47A-47G,or 48A-48E. In an embodiment, the nucleic acid encodes a gRNA moleculecomprising a targeting domain as described herein, e.g., that isselected from those in Tables 1A-1E, 2A-2E, 3A-3D, 4A-4D, 5A-5E, 6A-6C,7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E,15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B,22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E,30A-30B, 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D, 37A-37D,38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D, 43A-43E, 44A-44G, 45A-45E,46A-46E, 47A-47G, or 48A-48E.

In an embodiment, the nucleic acid encodes a modular gRNA, e.g., one ormore nucleic acids encode a modular gRNA. In another embodiment, thenucleic acid encodes a chimeric gRNA. The nucleic acid may encode agRNA, e.g., the first gRNA molecule, comprising a targeting domaincomprising 16 nucleotides or more in length. In an embodiment, thenucleic acid encodes a gRNA, e.g., the first gRNA molecule, comprising atargeting domain that is 16 nucleotides in length. In anotherembodiment, the nucleic acid encodes a gRNA, e.g., the first gRNAmolecule, comprising a targeting domain that is 17 nucleotides inlength. In yet another embodiment, the nucleic acid encodes a gRNA,e.g., the first gRNA molecule, comprising a targeting domain that is 18nucleotides in length. In still another embodiment, the nucleic acidencodes a gRNA, e.g., the first gRNA molecule, comprising a targetingdomain that is 19 nucleotides in length. In still another embodiment,the nucleic acid encodes a gRNA, e.g., the first gRNA molecule,comprising a targeting domain that is 20 nucleotides in length. In stillanother embodiment, the nucleic acid encodes a gRNA, e.g., the firstgRNA molecule, comprising a targeting domain that is 21 nucleotides inlength. In still another embodiment, the nucleic acid encodes a gRNA,e.g., the first gRNA molecule, comprising a targeting domain that is 22nucleotides in length. In still another embodiment, the nucleic acidencodes a gRNA, e.g., the first gRNA molecule, comprising a targetingdomain that is 23 nucleotides in length. In still another embodiment,the nucleic acid encodes a gRNA, e.g., the first gRNA molecule,comprising a targeting domain that is 24 nucleotides in length. In stillanother embodiment, the nucleic acid encodes a gRNA, e.g., the firstgRNA molecule, comprising a targeting domain that is 25 nucleotides inlength. In still another embodiment, the nucleic acid encodes a gRNA,e.g., the first gRNA molecule, comprising a targeting domain that is 26nucleotides in length.

In an embodiment, the targeting domain comprises 16 nucleotides.

In an embodiment, the targeting domain comprises 17 nucleotides.

In an embodiment, the targeting domain comprises 18 nucleotides.

In an embodiment, the targeting domain comprises 19 nucleotides.

In an embodiment, the targeting domain comprises 20 nucleotides.

In an embodiment, the targeting domain comprises 21 nucleotides.

In an embodiment, the targeting domain comprises 22 nucleotides.

In an embodiment, the targeting domain comprises 23 nucleotides.

In an embodiment, the targeting domain comprises 24 nucleotides.

In an embodiment, the targeting domain comprises 25 nucleotides.

In an embodiment, the targeting domain comprises 26 nucleotides.

In an embodiment, a nucleic acid encodes a gRNA comprising from 5′ to3′: a targeting domain (comprising a “core domain”, and optionally a“secondary domain”); a first complementarity domain; a linking domain; asecond complementarity domain; a proximal domain; and a tail domain. Insome embodiments, the proximal domain and tail domain are taken togetheras a single domain.

In an embodiment, a nucleic acid encodes a gRNA e.g., the first gRNAmolecule, comprising a linking domain of no more than 25 nucleotides inlength; a proximal and tail domain, that taken together, are at least 20nucleotides in length; and a targeting domain equal to or greater than16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, a nucleic acid encodes a gRNA e.g., the first gRNAmolecule, comprising a linking domain of no more than 25 nucleotides inlength; a proximal and tail domain, that taken together, are at least 30nucleotides in length; and a targeting domain equal to or greater than16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, a nucleic acid encodes a gRNA e.g., the first gRNAmolecule, comprising a linking domain of no more than 25 nucleotides inlength; a proximal and tail domain, that taken together, are at least 35nucleotides in length; and a targeting domain equal to or greater than16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, a nucleic acid encodes a gRNA comprising e.g., thefirst gRNA molecule, a linking domain of no more than 25 nucleotides inlength; a proximal and tail domain, that taken together, are at least 40nucleotides in length; and a targeting domain equal to or greater than16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, a nucleic acid comprises (a) a sequence that encodes agRNA molecule, e.g., the first gRNA molecule, comprising a targetingdomain that is complementary with a target domain in the CFTR gene orSCNN1A gene as disclosed herein, and further comprising (b) a sequencethat encodes a Cas9 molecule.

The Cas9 molecule may be a nickase molecule, an enzymatically activatingCas9 (eaCas9) molecule, e.g., an eaCas9 molecule that forms a doublestrand break in a target nucleic acid and/or an eaCas9 molecule forms asingle strand break in a target nucleic acid. In an embodiment, a singlestrand break is formed in the strand of the target nucleic acid to whichthe targeting domain of said gRNA is complementary. In anotherembodiment, a single strand break is formed in the strand of the targetnucleic acid other than the strand to which to which the targetingdomain of said gRNA is complementary.

In an embodiment, the eaCas9 molecule catalyzes a double strand break.

In an embodiment, the eaCas9 molecule comprises HNH-like domain cleavageactivity but has no, or no significant, N-terminal RuvC-like domaincleavage activity. In another embodiment, the said eaCas9 molecule is anHNH-like domain nickase, e.g., the eaCas9 molecule comprises a mutationat D10, e.g., D10A. In another embodiment, the eaCas9 molecule comprisesN-terminal RuvC-like domain cleavage activity but has no, or nosignificant, HNH-like domain cleavage activity. In another embodiment,the eaCas9 molecule is an N-terminal RuvC-like domain nickase, e.g., theeaCas9 molecule comprises a mutation at H840, e.g., H840A. In anotherembodiment, the eaCas9 molecule is an N-terminal RuvC-like domainnickase, e.g., the eaCas9 molecule comprises a mutation at N863, e.g.,an N863A mutation.

A nucleic acid disclosed herein may comprise (a) a sequence that encodesa gRNA molecule comprising a targeting domain that is complementary witha target domain in the CFTR and/or SCNN1A gene as disclosed herein; (b)a sequence that encodes a Cas9 molecule.

In an embodiment, the Cas9 molecule is an enzymatically active Cas9(eaCas9) molecule. In an embodiment, the Cas9 molecule is anenzymatically inactive Cas9 (eiCas9) molecule or a modified eiCas9molecule, e.g., the eiCas9 molecule is fused to Krüppel-associated box(KRAB) to generate an eiCas9-KRAB fusion protein molecule.

A nucleic acid disclosed herein may comprise (a) a sequence that encodesa gRNA molecule comprising a targeting domain that is complementary witha target domain in the CFTR gene or SCNN1A gene as disclosed herein; (b)a sequence that encodes a Cas9 molecule; and further may comprise (c)(i)a sequence that encodes a second gRNA molecule described herein having atargeting domain that is complementary to a second target domain of theCFTR gene or SCNN1A gene, and optionally, (c)(ii) a sequence thatencodes a third gRNA molecule described herein having a targeting domainthat is complementary to a third target domain of the CFTR gene orSCNN1A gene; and optionally, (c)(iii) a sequence that encodes a fourthgRNA molecule described herein having a targeting domain that iscomplementary to a fourth target domain of the CFTR gene or SCNN1A gene.

In an embodiment, a nucleic acid encodes a second gRNA moleculecomprising a targeting domain configured to provide a cleavage event,e.g., a double strand break or a single strand break, sufficiently closeto a CF target position in the CFTR gene or SCNN1A gene, to allowalteration, e.g., alteration associated with, respectively, HDR or NHEJ,of a CF target position in the CFTR gene or SCNN1A gene, either alone orin combination with the break positioned by said first gRNA molecule.

In an embodiment, a nucleic acid encodes a second gRNA moleculecomprising a targeting domain configured to target an enzymaticallyinactive Cas9 (eiCas9) molecule or an eiCas9 fusion protein (e.g., aneiCas9 fused to a transcription repressor domain), sufficiently close toa CF knockdown target position to reduce, decrease or repress expressionof the SCNN1A gene.

In an embodiment, a nucleic acid encodes a third gRNA moleculecomprising a targeting domain configured to provide a cleavage event,e.g., a double strand break or a single strand break, sufficiently closeto a CF target position in the CFTR gene or SCNN1A gene to allowalteration, e.g., alteration associated with, respectively, HDR or NHEJ,of a CF target position in the CFTR gene or SCNN1A gene, either alone orin combination with the break positioned by the first and/or second gRNAmolecule.

In an embodiment, a nucleic acid encodes a third gRNA moleculecomprising a targeting domain configured to target an enzymaticallyinactive Cas9 (eiCas9) molecule or an eiCas9 fusion protein (e.g., aneiCas9 fused to a transcription repressor domain), sufficiently close toa CF knockdown target position to reduce, decrease or repress expressionof the SCNN1A gene.

In an embodiment, a nucleic acid encodes a fourth gRNA moleculecomprising a targeting domain configured to provide a cleavage event,e.g., a double strand break or a single strand break, sufficiently closeto a CF target position in the CFTR gene or SCNN1A gene to allowalteration, e.g., alteration associated with, respectively, HDR or NHEJ,of a CF target position in the CFTR gene or SCNN1A gene, either alone orin combination with the break positioned by the first gRNA molecule, thesecond gRNA molecule and/or the third gRNA molecule.

In an embodiment, the nucleic acid encodes a second gRNA molecule. Thesecond gRNA is selected to target the same CF target position as thefirst gRNA molecule. Optionally, the nucleic acid may encode a thirdgRNA, and further optionally, the nucleic acid may encode a fourth gRNAmolecule. The third gRNA molecule and the fourth gRNA molecule areselected to target the same CF target position as the first and secondgRNA molecules.

In an embodiment, the nucleic acid encodes a second gRNA moleculecomprising a targeting domain comprising a sequence that is the same as,or differs by no more than 1, 2, 3, 4, or 5 nucleotides from, atargeting domain sequence from one of Tables 1A-1E, 2A-2E, 3A-3D, 4A-4D,5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D,14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E,21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D,29A-29E, 30A-30B, 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D,37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D, 43A-43E, 44A-44G,45A-45E, 46A-46E, 47A-47G, or 48A-48E. In an embodiment, the nucleicacid encodes a second gRNA molecule comprising a targeting domainselected from those in Tables 1A-1E, 2A-2E, 3A-3D, 4A-4D, 5A-5E, 6A-6C,7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E,15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B,22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E,30A-30B, 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D, 37A-37D,38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D, 43A-43E, 44A-44G, 45A-45E,46A-46E, 47A-47G, or 48A-48E. In an embodiment, when a third or fourthgRNA molecule are present, the third and fourth gRNA molecules mayindependently comprise a targeting domain comprising a sequence that isthe same as, or differs by no more than 1, 2, 3, 4, or 5 nucleotidesfrom, a targeting domain sequence from one of Tables 1A-1E, 2A-2E,3A-3D, 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E,12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C,19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E,27A-27D, 28A-28D, 29A-29E, 30A-30B, 31A-31D, 32A-32D, 33A-33B, 34A-34D,35A-35D, 36A-36D, 37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D,43A-43E, 44A-44G, 45A-45E, 46A-46E, 47A-47G, or 48A-48E. In a furtherembodiment, when a third or fourth gRNA molecule are present, the thirdand fourth gRNA molecules may independently comprise a targeting domainselected from those in Tables 1A-1E, 2A-2E, 3A-3D, 4A-4D, 5A-5E, 6A-6C,7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E,15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B,22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E,30A-30B, 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D, 37A-37D,38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D, 43A-43E, 44A-44G, 45A-45E,46A-46E, 47A-47G, or 48A-48E.

In an embodiment, the nucleic acid encodes a second gRNA which is amodular gRNA, e.g., wherein one or more nucleic acid molecules encode amodular gRNA. In another embodiment, the nucleic acid encoding a secondgRNA is a chimeric gRNA. In another embodiment, when a nucleic acidencodes a third or fourth gRNA, the third and fourth gRNA may be amodular gRNA or a chimeric gRNA. When multiple gRNAs are used, anycombination of modular or chimeric gRNAs may be used.

A nucleic acid may encode a second, a third, and/or a fourth gRNA, eachindependently, comprising a targeting domain comprising 16 nucleotidesor more in length. In an embodiment, the nucleic acid encodes a secondgRNA comprising a targeting domain that is 16 nucleotides in length. Inan embodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 17 nucleotides in length. In anotherembodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 18 nucleotides in length. In still anotherembodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 19 nucleotides in length. In still anotherembodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 20 nucleotides in length. In still anotherembodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 21 nucleotides in length. In still anotherembodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 22 nucleotides in length. In still anotherembodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 23 nucleotides in length. In still anotherembodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 24 nucleotides in length. In still anotherembodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 25 nucleotides in length. In still anotherembodiment, the nucleic acid encodes a second gRNA comprising atargeting domain that is 26 nucleotides in length.

In an embodiment, the targeting domain comprises 16 nucleotides.

In an embodiment, the targeting domain comprises 17 nucleotides.

In an embodiment, the targeting domain comprises 18 nucleotides.

In an embodiment, the targeting domain comprises 19 nucleotides.

In an embodiment, the targeting domain comprises 20 nucleotides.

In an embodiment, the targeting domain comprises 21 nucleotides.

In an embodiment, the targeting domain comprises 22 nucleotides.

In an embodiment, the targeting domain comprises 23 nucleotides.

In an embodiment, the targeting domain comprises 24 nucleotides.

In an embodiment, the targeting domain comprises 25 nucleotides.

In an embodiment, the targeting domain comprises 26 nucleotides.

In an embodiment, a nucleic acid encodes a second, a third, and/or afourth gRNA, each independently, comprising from 5′ to 3′: a targetingdomain (comprising a “core domain”, and optionally a “secondarydomain”); a first complementarity domain; a linking domain; a secondcomplementarity domain; a proximal domain; and a tail domain. In someembodiments, the proximal domain and tail domain are taken together as asingle domain.

In an embodiment, a nucleic acid encodes a second, a third, and/or afourth gRNA comprising a linking domain of no more than 25 nucleotidesin length; a proximal and tail domain, that taken together, are at least20 nucleotides in length; and a targeting domain equal to or greaterthan 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, a nucleic acid encodes a second, a third, and/or afourth gRNA comprising a linking domain of no more than 25 nucleotidesin length; a proximal and tail domain, that taken together, are at least30 nucleotides in length; and a targeting domain equal to or greaterthan 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, a nucleic acid encodes a second, a third, and/or afourth gRNA comprising a linking domain of no more than 25 nucleotidesin length; a proximal and tail domain, that taken together, are at least35 nucleotides in length; and a targeting domain equal to or greaterthan 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, a nucleic acid encodes a second, a third, and/or afourth gRNA comprising a linking domain of no more than 25 nucleotidesin length; a proximal and tail domain, that taken together, are at least40 nucleotides in length; and a targeting domain equal to or greaterthan 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, when the CFTR gene is corrected by HDR, the nucleicacid encodes (a) a sequence that encodes a gRNA molecule comprising atargeting domain that is complementary with a target domain in the CFTRgene as disclosed herein; (b) a sequence that encodes a Cas9 molecule;optionally, (c)(i) a sequence that encodes a second gRNA moleculedescribed herein having a targeting domain that is complementary to asecond target domain of the CFTR gene, and further optionally, (c)(ii) asequence that encodes a third gRNA molecule described herein having atargeting domain that is complementary to a third target domain of theCFTR gene; and still further optionally, (c)(iii) a sequence thatencodes a fourth gRNA molecule described herein having a targetingdomain that is complementary to a fourth target domain of the CFTR gene;and further may comprise (d) a template nucleic acid, e.g., a templatenucleic acid described herein.

In an embodiment, the template nucleic acid is a single stranded nucleicacid. In another embodiment, the template nucleic acid is a doublestranded nucleic acid. In an embodiment, the template nucleic acidcomprises a nucleotide sequence, e.g., of one or more nucleotides, thatwill be added to or will template a change in the target nucleic acid.In another embodiment, the template nucleic acid comprises a nucleotidesequence that may be used to modify the target position. In anotherembodiment, the template nucleic acid comprises a nucleotide sequence,e.g., of one or more nucleotides, that corresponds to wild type sequenceof the target nucleic acid, e.g., of the target position.

The template nucleic acid may comprise a replacement sequence, e.g., areplacement sequence from the Table 49. In some embodiments, thetemplate nucleic acid comprises a 5′ homology arm, e.g., a 5′ homologyarm from Table 49. In other embodiments, the template nucleic acidcomprises a 3′ homology arm, e.g., a 3′ homology arm from Table 49.

In an embodiment, a nucleic acid encodes (a) a sequence that encodes agRNA molecule comprising a targeting domain that is complementary with atarget domain in the CFTR gene or SCNN1A gene as disclosed herein, and(b) a sequence that encodes a Cas9 molecule, e.g., a Cas9 moleculedescribed herein. In an embodiment, (a) and (b) are present on the samenucleic acid molecule, e.g., the same vector, e.g., the same viralvector, e.g., the same adeno-associated virus (AAV) vector. In anembodiment, the nucleic acid molecule is an AAV vector. Exemplary AAVvectors that may be used in any of the described compositions andmethods include an AAV2 vector, a modified AAV2 vector, an AAV3 vector,a modified AAV3 vector, an AAV6 vector, a modified AAV6 vector, an AAV8vector and an AAV9 vector.

In another embodiment, (a) is present on a first nucleic acid molecule,e.g. a first vector, e.g., a first viral vector, e.g., a first AAVvector; and (b) is present on a second nucleic acid molecule, e.g., asecond vector, e.g., a second vector, e.g., a second AAV vector. Thefirst and second nucleic acid molecules may be AAV vectors.

In another embodiment, the nucleic acid may further comprise (c) asequence that encodes a second, third and/or fourth gRNA molecule asdescribed herein. In another embodiment, the nucleic acid comprises (a),(b) and (c)(i). Each of (a) and (c)(i) may be present on the samenucleic acid molecule, e.g., the same vector, e.g., the same viralvector, e.g., the same adeno-associated virus (AAV) vector. In anembodiment, the nucleic acid molecule is an AAV vector.

In another embodiment, (a) and (c)(i) are on different vectors. Forexample, (a) may be present on a first nucleic acid molecule, e.g. afirst vector, e.g., a first viral vector, e.g., a first AAV vector; and(c)(i) may be present on a second nucleic acid molecule, e.g., a secondvector, e.g., a second vector, e.g., a second AAV vector. In anembodiment, the first and second nucleic acid molecules are AAV vectors.

In another embodiment, each of (a), (b), and (c)(i) are present on thesame nucleic acid molecule, e.g., the same vector, e.g., the same viralvector, e.g., an AAV vector. In an embodiment, the nucleic acid moleculeis an AAV vector. In an alternate embodiment, one of (a), (b), and(c)(i) is encoded on a first nucleic acid molecule, e.g., a firstvector, e.g., a first viral vector, e.g., a first AAV vector; and asecond and third of (a), (b), and (c)(i) is encoded on a second nucleicacid molecule, e.g., a second vector, e.g., a second vector, e.g., asecond AAV vector. The first and second nucleic acid molecule may be AAVvectors.

In an embodiment, (a) is present on a first nucleic acid molecule, e.g.,a first vector, e.g., a first viral vector, a first AAV vector; and (b)and (c)(i) are present on a second nucleic acid molecule, e.g., a secondvector, e.g., a second vector, e.g., a second AAV vector. The first andsecond nucleic acid molecule may be AAV vectors.

In another embodiment, (b) is present on a first nucleic acid molecule,e.g., a first vector, e.g., a first viral vector, e.g., a first AAVvector; and (a) and (c)(i) are present on a second nucleic acidmolecule, e.g., a second vector, e.g., a second vector, e.g., a secondAAV vector. The first and second nucleic acid molecule may be AAVvectors.

In another embodiment, (c)(i) is present on a first nucleic acidmolecule, e.g., a first vector, e.g., a first viral vector, e.g., afirst AAV vector; and (b) and (a) are present on a second nucleic acidmolecule, e.g., a second vector, e.g., a second vector, e.g., a secondAAV vector. The first and second nucleic acid molecule may be AAVvectors.

In another embodiment, each of (a), (b) and (c)(i) are present ondifferent nucleic acid molecules, e.g., different vectors, e.g.,different viral vectors, e.g., different AAV vector. For example, (a)may be on a first nucleic acid molecule, (b) on a second nucleic acidmolecule, and (c)(i) on a third nucleic acid molecule. The first, secondand third nucleic acid molecule may be AAV vectors.

In another embodiment, when a third and/or fourth gRNA molecule arepresent, each of (a), (b), (c)(i), (c)(ii) and (c)(iii) may be presenton the same nucleic acid molecule, e.g., the same vector, e.g., the sameviral vector, e.g., an AAV vector. In an embodiment, the nucleic acidmolecule is an AAV vector. In an alternate embodiment, each of (a), (b),(c)(i), (c)(ii) and (c)(iii) may be present on the different nucleicacid molecules, e.g., different vectors, e.g., the different viralvectors, e.g., different AAV vectors. In a further embodiment, each of(a), (b), (c)(i), (c)(ii) and (c)(iii) may be present on more than onenucleic acid molecule, but fewer than five nucleic acid molecules, e.g.,AAV vectors.

In another embodiment, when (d) a template nucleic acid is present, eachof (a), (b), and (d) may be present on the same nucleic acid molecule,e.g., the same vector, e.g., the same viral vector, e.g., an AAV vector.In an embodiment, the nucleic acid molecule is an AAV vector. In analternate embodiment, each of (a), (b), and (d) may be present on thedifferent nucleic acid molecules, e.g., different vectors, e.g., thedifferent viral vectors, e.g., different AAV vectors. In a furtherembodiment, each of (a), (b), and (d) may be present on more than onenucleic acid molecule, but fewer than three nucleic acid molecules,e.g., AAV vectors.

In another embodiment, when (d) a template nucleic acid is present, eachof (a), (b), (c)(i) and (d) may be present on the same nucleic acidmolecule, e.g., the same vector, e.g., the same viral vector, e.g., anAAV vector. In an embodiment, the nucleic acid molecule is an AAVvector. In an alternate embodiment, each of (a), (b), (c)(i) and (d) maybe present on the different nucleic acid molecules, e.g., differentvectors, e.g., the different viral vectors, e.g., different AAV vectors.In a further embodiment, each of (a), (b), (c)(i) and (d) may be presenton more than one nucleic acid molecule, but fewer than four nucleic acidmolecules, e.g., AAV vectors.

In another embodiment, when (d) a template nucleic acid is present, eachof (a), (b), (c)(i), (c)(ii) and (d) may be present on the same nucleicacid molecule, e.g., the same vector, e.g., the same viral vector, e.g.,an AAV vector. In an embodiment, the nucleic acid molecule is an AAVvector. In an alternate embodiment, each of (a), (b), (c)(i), (c)(ii)and (d) may be present on the different nucleic acid molecules, e.g.,different vectors, e.g., the different viral vectors, e.g., differentAAV vectors. In a further embodiment, each of (a), (b), (c)(i), (c)(ii)and (d) may be present on more than one nucleic acid molecule, but fewerthan five nucleic acid molecules, e.g., AAV vectors.

In another embodiment, when (d) a template nucleic acid is present, eachof (a), (b), (c)(i), (c)(ii), (c)(iii) and (d) may be present on thesame nucleic acid molecule, e.g., the same vector, e.g., the same viralvector, e.g., an AAV vector. In an embodiment, the nucleic acid moleculeis an AAV vector. In an alternate embodiment, each of (a), (b), (c)(i),(c)(ii), (c)(iii) and (d) may be present on the different nucleic acidmolecules, e.g., different vectors, e.g., the different viral vectors,e.g., different AAV vectors. In a further embodiment, each of (a), (b),(c)(i), (c)(ii), (c)(iii) and (d) may be present on more than onenucleic acid molecule, but fewer than six nucleic acid molecules, e.g.,AAV vectors.

The nucleic acids described herein may comprise a promoter operablylinked to the sequence that encodes the gRNA molecule of (a), e.g., apromoter described herein. The nucleic acid may further comprise asecond promoter operably linked to the sequence that encodes the second,third and/or fourth gRNA molecule of (c), e.g., a promoter describedherein. The promoter and second promoter differ from one another. Insome embodiments, the promoter and second promoter are the same.

The nucleic acids described herein may further comprise a promoteroperably linked to the sequence that encodes the Cas9 molecule of (b),e.g., a promoter described herein.

In another aspect, disclosed herein is a composition comprising (a) agRNA molecule comprising a targeting domain that is complementary with atarget domain in the CFTR gene or SCNN1A gene, as described herein. Thecomposition of (a) may further comprise (b) a Cas9 molecule, e.g., aCas9 molecule as described herein. A composition of (a) and (b) mayfurther comprise (c) a second, third and/or fourth gRNA molecule, e.g.,a second, third and/or fourth gRNA molecule described herein. Acomposition of (a), (b) and (c) may further comprise (d) a templatenucleic acid, e.g., a template nucleic acid described herein. In anembodiment, the composition is a pharmaceutical composition. Thecompositions described herein, e.g., pharmaceutical compositionsdescribed herein, can be used in the treatment or prevention of CF orCF-like disease in a subject, e.g., in accordance with a methoddisclosed herein.

In another aspect, disclosed herein is a method of altering a cell,e.g., altering the structure, e.g., altering the sequence, of a targetnucleic acid of a cell, comprising contacting said cell with: (a) a gRNAthat targets the CFTR gene or SCNN1A gene, e.g., a gRNA as describedherein; (b) a Cas9 molecule, e.g., a Cas9 molecule as described herein;and optionally, (c) a second, third and/or fourth gRNA that targets CFTRgene or SCNN1A gene, e.g., a second, third and/or fourth gRNA asdescribed herein; and optionally, (d) a template nucleic acid, e.g., atemplate nucleic acid as described herein.

In an embodiment, the method comprises contacting said cell with (a) and(b).

In an embodiment, the method comprises contacting said cell with (a),(b), and (c).

In an embodiment, the method comprises contacting said cell with (a),(b), (c) and (d).

The gRNA of (a) and optionally (c) may be selected from any of Tables1A-1E, 2A-2E, 3A-3D, 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C,11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D, 17A-17E,18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D,26A-26E, 27A-27D, 28A-28D, 29A-29E, 30A-30B, 31A-31D, 32A-32D, 33A-33B,34A-34D, 35A-35D, 36A-36D, 37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E,42A-42D, 43A-43E, 44A-44G, 45A-45E, 46A-46E, 47A-47G, or 48A-48E, or agRNA that differs by no more than 1, 2, 3, 4, or 5 nucleotides from, atargeting domain sequence from any of Tables 1A-1E, 2A-2E, 3A-3D, 4A-4D,5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D,14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E,21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D,29A-29E, 30A-30B, 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D,37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D, 43A-43E, 44A-44G,45A-45E, 46A-46E, 47A-47G, or 48A-48E.

In an embodiment, the method comprises contacting a cell from a subjectsuffering from or likely to develop CF or CF-like disease. The cell maybe from a subject having a mutation at a CF target position in the CFTRgene or a subject which would benefit from having a mutation at a CFtarget position in the SCNN1A gene.

In an embodiment, the cell being contacted in the disclosed method is anepithelial cell, e.g., a pulmonary epithelial cell, e.g., a bronchialepithelial cell or an alveolar epithelial cell. The contacting may beperformed ex vivo and the contacted cell may be returned to thesubject's body after the contacting step. In other embodiments, thecontacting step may be performed in vivo.

In an embodiment, the method of altering a cell as described hereincomprises acquiring knowledge of the sequence at a CF target position insaid cell, prior to the contacting step. Acquiring knowledge of thesequence at a CF target position in the cell may be by sequencing theCFTR gene or SCNN1A gene, or a portion of the CFTR gene or SCNN1A gene.

In an embodiment, the contacting step of the method comprises contactingthe cell with a nucleic acid, e.g., a vector, e.g., an AAV vector, thatexpresses at least one of (a), (b), and (c). In an embodiment, thecontacting step of the method comprises contacting the cell with anucleic acid, e.g., a vector, e.g., an AAV vector, that expresses eachof (a), (b), and (c). In another embodiment, the contacting step of themethod comprises delivering to the cell a Cas9 molecule of (b) and anucleic acid which encodes a gRNA of (a) and optionally, a second gRNA(c)(i) and further optionally, a third gRNA (c)(ii) and/or fourth gRNA(c)(iii)).

In an embodiment, the contacting step of the method comprises contactingthe cell with a nucleic acid, e.g., a vector, e.g., an AAV vector, thatexpresses at least one of (a), (b), (c) and (d). In an embodiment, thecontacting step of the method comprises contacting the cell with anucleic acid, e.g., a vector, e.g., an AAV vector, that expresses eachof (a), (b), and (c). In another embodiment, the contacting step of themethod comprises delivering to the cell a Cas9 molecule of (b), anucleic acid which encodes a gRNA of (a) and a template nucleic acid of(d), and optionally, a second gRNA (c)(i) and further optionally, athird gRNA (c)(ii) and/or fourth gRNA (c)(iii).

In an embodiment, contacting comprises contacting the cell with anucleic acid, e.g., a vector, e.g., an AAV vector, e.g., an AAV2 vector,a modified AAV2 vector, an AAV3 vector, a modified AAV3 vector, an AAV6vector, a modified AAV6 vector, an AAV8 vector or an AAV9 vector, asdescribed herein.

In an embodiment, contacting comprises delivering to the cell a Cas9molecule of (b), as a protein or an mRNA, and a nucleic acid whichencodes a gRNA of (a) and optionally a second, third and/or fourth gRNAof (c).

In an embodiment, contacting comprises delivering to the cell a Cas9molecule of (b), as a protein or an mRNA, said gRNA of (a), as an RNA,and optionally said second, third and/or fourth gRNA of (c), as an RNA.

In an embodiment, contacting comprises delivering to the cell a gRNA of(a) as an RNA, optionally the second, third and/or fourth gRNA of (c) asan RNA, and a nucleic acid that encodes the Cas9 molecule of (b).

In another aspect, disclosed herein is a method of treating orpreventing a subject suffering from or likely to develop CF or CF-likedisease, e.g., altering the structure, e.g., sequence, of a targetnucleic acid of the subject, comprising contacting the subject (or acell from the subject) with:

-   -   (a) a gRNA that targets the CFTR gene or SCNN1A gene, e.g., a        gRNA disclosed herein;    -   (b) a Cas9 molecule, e.g., a Cas9 molecule disclosed herein; and    -   optionally, (c)(i) a second gRNA that targets the CFTR gene or        SCNN1A gene, e.g., a second gRNA disclosed herein, and    -   further optionally, (c)(ii) a third gRNA, and still further        optionally, (c)(iii) a fourth gRNA that target the CFTR gene or        SCNN1A gene, e.g., a third and fourth gRNA disclosed herein.

The method of treating a subject may further comprise contacting thesubject (or a cell from the subject) with (d) a template nucleic acid,e.g., a template nucleic acid disclosed herein. A template nucleic acidis used when the method of treating a subject uses HDR to alter thesequence of the target nucleic acid of the subject.

In some embodiments, contacting comprises contacting with (a) and (b).

In some embodiments, contacting comprises contacting with (a), (b), and(c)(i).

In some embodiments, contacting comprises contacting with (a), (b),(c)(i) and (c)(ii).

In some embodiments, contacting comprises contacting with (a), (b),(c)(i), (c)(ii) and (c)(iii).

In some embodiments, contacting comprises contacting with (a), (b),(c)(i) and (d).

In some embodiments, contacting comprises contacting with (a), (b),(c)(i), (c)(ii) and (d).

In some embodiments, contacting comprises contacting with (a), (b),(c)(i), (c)(ii), (c)(iii) and (d).

The gRNA of (a) or (c) (e.g., (c)(i), (c)(ii), or (c)(iii)) may beselected from any of Tables 1A-1E, 2A-2E, 3A-3D, 4A-4D, 5A-5E, 6A-6C,7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E,15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B,22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E,30A-30B, 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D, 37A-37D,38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D, 43A-43E, 44A-44G, 45A-45E,46A-46E, 47A-47G, or 48A-48E, or a gRNA that differs by no more than 1,2, 3, 4, or 5 nucleotides from, a targeting domain sequence from any ofTables 1A-1E, 2A-2E, 3A-3D, 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B,10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D,17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D,25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E, 30A-30B, 31A-31D, 32A-32D,33A-33B, 34A-34D, 35A-35D, 36A-36D, 37A-37D, 38A-38E, 39A-39D, 40A-40D,41A-41E, 42A-42D, 43A-43E, 44A-44G, 45A-45E, 46A-46E, 47A-47G, or48A-48E.

In an embodiment, the method comprises acquiring knowledge of thesequence (e.g., a mutation) of a CF target position in said subject.

In an embodiment, the method comprises acquiring knowledge of thesequence (e.g., a mutation) of a CF target position in said subject bysequencing the CFTR gene or SCNN1A gene or a portion of the CFTR gene orSCNN1A gene.

In an embodiment, the method comprises correcting a mutation at a CFtarget position in the CFTR gene.

In an embodiment, the method comprises correcting a mutation at a CFtarget position in the CFTR gene by HDR.

In an embodiment, the method comprises introducing a mutation at a CFtarget position in the SCNN1A gene.

In an embodiment, the method comprises introducing a mutation at a CFtarget position in the SCNN1A gene by NHEJ.

When the method comprises correcting the mutation at a CF targetposition by HDR, a Cas9 of (b), at least one guide RNA, e.g., a guideRNA of (a) and a template nucleic acid of (d) are included in thecontacting step.

In an embodiment, a cell of the subject is contacted ex vivo with (a),(b), (d) and optionally (c). In an embodiment, said cell is returned tothe subject's body.

In an embodiment, a cell of the subject is contacted is in vivo with(a), (b) (d) and optionally (c)(i), further optionally (c)(ii), andstill further optionally (c)(iii).

In an embodiment, the cell of the subject is contacted in vivo byinhalation delivery, e.g., via nebulizer, of (a), (b), (d) andoptionally (c)(i), further optionally (c)(ii), and still furtheroptionally (c)(iii).

In an embodiment, the cell of the subject is contacted in vivo byintravenous delivery of (a), (b), (d) and optionally (c)(i), furtheroptionally (c)(ii), and still further optionally (c)(iii).

In an embodiment, the cell of the subject is contacted in vivo byintraparenchymal delivery of (a), (b), (d) and optionally (c)(i),further optionally (c)(ii), and still further optionally (c)(iii), e.g.,to lung tissue or bronchial tree.

In an embodiment, the contacting step comprises contacting the subjectwith a nucleic acid, e.g., a vector, e.g., an AAV vector, describedherein, e.g., a nucleic acid that encodes at least one of (a), (b), (d)and optionally (c)(i), further optionally (c)(ii), and still furtheroptionally (c)(iii).

In an embodiment, the contacting step comprises delivering to saidsubject said Cas9 molecule of (b), as a protein or mRNA, and a nucleicacid which encodes (a), a nucleic acid of (d) and optionally (c)(i),further optionally (c)(ii), and still further optionally (c)(iii).

In an embodiment, the contacting step comprises delivering to thesubject the Cas9 molecule of (b), as a protein or mRNA, the gRNA of (a),as an RNA, a nucleic acid of (d) and optionally the second gRNA of(c)(i), further optionally said third gRNA of (c)(ii), and still furtheroptionally said fourth gRNA of (c)(iii), as an RNA.

In an embodiment, the contacting step comprises delivering to thesubject the gRNA of (a), as an RNA, optionally said second gRNA of(c)(i), further optionally said third gRNA of (c)(ii), and still furtheroptionally said fourth gRNA of (c)(iii), as an RNA, a nucleic acid thatencodes the Cas9 molecule of (b), and a nucleic acid of (d).

When the method comprises (1) introducing a mutation at a CF targetposition by NHEJ or (2) knocking down expression of the SCNN1A gene bytargeting the promoter region, a Cas9 of (b) and at least one guide RNA,e.g., a guide RNA of (a) are included in the contacting step.

In an embodiment, a cell of the subject is contacted ex vivo with (a),(b) and optionally (c)(i), further optionally (c)(ii), and still furtheroptionally (c)(iii). In an embodiment, said cell is returned to thesubject's body.

In an embodiment, a population of cells from a subject is contacted exvivo with (a), (b) and optionally (c)(i), further optionally (c)(ii),and still further optionally (c)(iii) and/or (d) to correct the F508delor G551D mutation in the CFTR gene and a second population of cells fromthe subject is contacted ex vivo with (a), (b) and optionally (c)(i),further optionally (c)(ii), and still further optionally (c)(iii), tointroduce a mutation in the SCNN1A gene to knockout the SCNN1A gene. Amixture of the two cell populations may be returned to the subject'sbody to treat or prevent CF or CF-like disease.

In an embodiment, a cell of the subject is contacted is in vivo with(a), (b) and optionally (c)(i), further optionally (c)(ii), and stillfurther optionally (c)(iii) and/or (d). In an embodiment, the cell ofthe subject is contacted in vivo by inhalation delivery, e.g., vianebulizer, of (a), (b) and optionally (c)(i), further optionally(c)(ii), and still further optionally (c)(iii) and/or (d). In anembodiment, the cell of the subject is contacted in vivo by intravenousdelivery of (a), (b) and optionally (c)(i), further optionally (c)(ii),and still further optionally (c)(iii) and/or (d). In an embodiment, thecell of the subject is contacted in vivo by intraparenchymal delivery of(a), (b) and optionally (c)(i), further optionally (c)(ii), and stillfurther optionally (c)(iii) and/or (d), e.g., to lung tissue orbronchial tree.

In an embodiment, contacting comprises contacting the subject with anucleic acid, e.g., a vector, e.g., an AAV vector, described herein,e.g., a nucleic acid that encodes at least one of (a), (b), andoptionally (c)(i), further optionally (c)(ii), and still furtheroptionally (c)(iii) and/or (d).

In an embodiment, contacting comprises delivering to said subject saidCas9 molecule of (b), as a protein or mRNA, and a nucleic acid whichencodes (a) and optionally (c)(i), further optionally (c)(ii), and stillfurther optionally (c)(iii) and/or (d).

In an embodiment, contacting comprises delivering to the subject theCas9 molecule of (b), as a protein or mRNA, the gRNA of (a), as an RNA,and optionally the second gRNA of (c)(i), further optionally said thirdgRNA of (c)(ii), and still further optionally said fourth gRNA of(c)(iii), as an RNA, and further optionally the template nucleic acid of(d) as a DNA.

In an embodiment, contacting comprises delivering to the subject thegRNA of (a), as an RNA, optionally said second gRNA of (c)(i), furtheroptionally said third gRNA of (c)(ii), and still further optionally saidfourth gRNA of (c)(iii), as an RNA, and a nucleic acid that encodes theCas9 molecule of (b), and optionally a nucleic acid that encodes thetemplate nucleic acid of (d).

In another aspect, disclosed herein is a reaction mixture comprising agRNA molecule, a nucleic acid, or a composition described herein, and acell, e.g., a cell from a subject having, or likely to develop CF orCF-like disease, or a subject having a mutation at a CF target positionin the CFTR gene, or a cell from a subject which would benefit fromhaving a mutation at a CF target position in the SCNN1A gene.

In another aspect, disclosed herein is a kit comprising, (a) a gRNAmolecule described herein, or nucleic acid that encodes the gRNA, andone or more of the following:

-   -   (b) a Cas9 molecule, e.g., a Cas9 molecule described herein, or        a nucleic acid or mRNA that encodes the Cas9;    -   (c)(i) a second gRNA molecule, e.g., a second gRNA molecule        described herein or a nucleic acid that encodes (c)(i);    -   (c)(ii) a third gRNA molecule, e.g., a second gRNA molecule        described herein or a nucleic acid that encodes (c)(ii);    -   (c)(iii) a fourth gRNA molecule, e.g., a second gRNA molecule        described herein or a nucleic acid that encodes (c)(iii); and    -   (d) a template nucleic acid, e.g, a template nucleic acid        described herein.

In an embodiment, the kit comprises nucleic acid, e.g., an AAV vector,that encodes one or more of (a), (b), (c)(i), (c)(ii), (c)(iii) and (d).

In another aspect, disclosed herein is non-naturally occurring templatenucleic acid described herein.

In yet another aspect, disclosed herein is a gRNA molecule, e.g., a gRNAmolecule described herein, for use in treating or preventing CF orCF-like disease in a subject, e.g., in accordance with a method oftreating or preventing CF or CF-like disease as described herein.

In an embodiment, the gRNA molecule in used in combination with a Cas9molecule, e.g., a Cas9 molecule described herein. Additionally oralternatively, in an embodiment, the gRNA molecule is used incombination with a second, third and/or fourth gRNA molecule, e.g., asecond, third and/or fourth gRNA molecule described herein.

In still another aspect, disclosed herein is use of a gRNA molecule,e.g., a gRNA molecule described herein, in the manufacture of amedicament for treating or preventing CF or CF-like disease in asubject, e.g., in accordance with a method of treating or preventing CFor CF-like disease as described herein.

In an embodiment, the medicament comprises a Cas9 molecule, e.g., a Cas9molecule described herein. Additionally or alternatively, in anembodiment, the medicament comprises a second, third and/or fourth gRNAmolecule, e.g., a second, third and/or fourth gRNA molecule describedherein.

The gRNA molecules and methods, as disclosed herein, can be used incombination with a governing gRNA molecule. As used herein, a governinggRNA molecule refers to a gRNA molecule comprising a targeting domainwhich is complementary to a target domain on a nucleic acid that encodesa component of the CRISPR/Cas system introduced into a cell or subject.For example, the methods described herein can further include contactinga cell or subject with a governing gRNA molecule or a nucleic acidencoding a governing molecule. In an embodiment, the governing gRNAmolecule targets a nucleic acid that encodes a Cas9 molecule or anucleic acid that encodes a target gene gRNA molecule. In an embodiment,the governing gRNA comprises a targeting domain that is complementary toa target domain in a sequence that encodes a Cas9 component, e.g., aCas9 molecule or target gene gRNA molecule. In an embodiment, the targetdomain is designed with, or has, minimal homology to other nucleic acidsequences in the cell, e.g., to minimize off-target cleavage. Forexample, the targeting domain on the governing gRNA can be selected toreduce or minimize off-target effects. In an embodiment, a target domainfor a governing gRNA can be disposed in the control or coding region ofa Cas9 molecule or disposed between a control region and a transcribedregion. In an embodiment, a target domain for a governing gRNA can bedisposed in the control or coding region of a target gene gRNA moleculeor disposed between a control region and a transcribed region for atarget gene gRNA. While not wishing to be bound by theory, in anembodiment, it is believed that altering, e.g., inactivating, a nucleicacid that encodes a Cas9 molecule or a nucleic acid that encodes atarget gene gRNA molecule can be effected by cleavage of the targetednucleic acid sequence or by binding of a Cas9 molecule/governing gRNAmolecule complex to the targeted nucleic acid sequence.

The compositions, reaction mixtures and kits, as disclosed herein, canalso include a governing gRNA molecule, e.g., a governing gRNA moleculedisclosed herein.

Unless otherwise defined, all technical and scientific terms used hereinhave the same meaning as commonly understood by one of ordinary skill inthe art to which this invention belongs. Although methods and materialssimilar or equivalent to those described herein can be used in thepractice or testing of the present invention, suitable methods andmaterials are described below. All publications, patent applications,patents, and other references mentioned herein are incorporated byreference in their entirety. In addition, the materials, methods, andexamples are illustrative only and not intended to be limiting.

Headings, including numeric and alphabetical headings and subheadings,are for organization and presentation and are not intended to belimiting.

Other features and advantages of the invention will be apparent from thedetailed description, drawings, and from the claims.

BRIEF DESCRIPTION OF THE DRAWINGS

FIGS. 1A-1I are representations of several exemplary gRNAs.

FIG. 1A depicts a modular gRNA molecule derived in part (or modeled on asequence in part) from Streptococcus pyogenes (S. pyogenes) as aduplexed structure (SEQ ID NOS: 42 and 43, respectively, in order ofappearance);

FIG. 1B depicts a unimolecular (or chimeric) gRNA molecule derived inpart from S. pyogenes as a duplexed structure (SEQ ID NO: 44);

FIG. 1C depicts a unimolecular gRNA molecule derived in part from S.pyogenes as a duplexed structure (SEQ ID NO: 45);

FIG. 1D depicts a unimolecular gRNA molecule derived in part from S.pyogenes as a duplexed structure (SEQ ID NO: 46);

FIG. 1E depicts a unimolecular gRNA molecule derived in part from S.pyogenes as a duplexed structure (SEQ ID NO: 47);

FIG. 1F depicts a modular gRNA molecule derived in part fromStreptococcus thermophilus (S. thermophilus) as a duplexed structure(SEQ ID NOS: 48 and 49, respectively, in order of appearance);

FIG. 1G depicts an alignment of modular gRNA molecules of S. pyogenesand S. thermophilus (SEQ ID NOS: 50-53, respectively, in order ofappearance).

FIGS. 1H-1I depicts additional exemplary structures of unimolecular gRNAmolecules. FIG. 1H shows an exemplary structure of a unimolecular gRNAmolecule derived in part from S. pyogenes as a duplexed structure (SEQID NO: 45). FIG. 1I shows an exemplary structure of a unimolecular gRNAmolecule derived in part from S. aureus as a duplexed structure (SEQ IDNO: 40).

FIGS. 2A-2G depict an alignment of Cas9 sequences from Chylinski et al.(RNA Biol. 2013; 10(5): 726-737). The N-terminal RuvC-like domain isboxed and indicated with a “Y”. The other two RuvC-like domains areboxed and indicated with a “B”. The HNH-like domain is boxed andindicated by a “G”. Sm: S. mutans (SEQ ID NO: 1); Sp: S. pyogenes (SEQID NO: 2); St: S. thermophilus (SEQ ID NO: 3); Li: L. innocua (SEQ IDNO: 4). Motif: this is a motif based on the four sequences: residuesconserved in all four sequences are indicated by single letter aminoacid abbreviation; “*” indicates any amino acid found in thecorresponding position of any of the four sequences; and “−” indicatesany amino acid, e.g., any of the 20 naturally occurring amino acids, orabsent.

FIGS. 3A-3B show an alignment of the N-terminal RuvC-like domain fromthe Cas9 molecules disclosed in Chylinski et al (SEQ ID NOS: 54-103,respectively, in order of appearance). The last line of FIG. 3Bidentifies 4 highly conserved residues.

FIGS. 4A-4B show an alignment of the N-terminal RuvC-like domain fromthe Cas9 molecules disclosed in Chylinski et al. with sequence outliersremoved (SEQ ID NOS: 104-177, respectively, in order of appearance). Thelast line of FIG. 4B identifies 3 highly conserved residues.

FIGS. 5A-5C show an alignment of the HNH-like domain from the Cas9molecules disclosed in Chylinski et al (SEQ ID NOS: 178-252,respectively, in order of appearance). The last line of FIG. 5Cidentifies conserved residues.

FIGS. 6A-6B show an alignment of the HNH-like domain from the Cas9molecules disclosed in Chylinski et al. with sequence outliers removed(SEQ ID NOS: 253-302, respectively, in order of appearance). The lastline of FIG. 6B identifies 3 highly conserved residues.

FIGS. 7A-7B depict an alignment of Cas9 sequences from S. pyogenes andNeisseria meningitidis (N. meningitidis). The N-terminal RuvC-likedomain is boxed and indicated with a “Y”. The other two RuvC-likedomains are boxed and indicated with a “B”. The HNH-like domain is boxedand indicated with a “G”. Sp: S. pyogenes; Nm: N. meningitidis. Motif:this is a motif based on the two sequences: residues conserved in bothsequences are indicated by a single amino acid designation; “*”indicates any amino acid found in the corresponding position of any ofthe two sequences; “−” indicates any amino acid, e.g., any of the 20naturally occurring amino acids, and “−” indicates any amino acid, e.g.,any of the 20 naturally occurring amino acids, or absent.

FIG. 8 shows a nucleic acid sequence encoding Cas9 of N. meningitidis(SEQ ID NO: 303). Sequence indicated by an “R” is an SV40 NLS; sequenceindicated as “G” is an HA tag; and sequence indicated by an “O” is asynthetic NLS sequence; the remaining (unmarked) sequence is the openreading frame (ORF).

FIGS. 9A and 9B are schematic representations of the domain organizationof S. pyogenes Cas 9. FIG. 9A shows the organization of the Cas9domains, including amino acid positions, in reference to the two lobesof Cas9 (recognition (REC) and nuclease (NUC) lobes). FIG. 9B shows thepercent homology of each domain across 83 Cas9 orthologs.

DETAILED DESCRIPTION Definitions

“CF target mutant position”, as used herein, refers to a target positionin the CFTR gene, which, if mutated, can result in a mutant protein andgive rise to CF or CF-like disease. In an embodiment, the targetposition comprises one, two, or three nucleotides. In an embodiment, theCF target mutant position is a position in the CFTR gene at which achange can give rise to a mutant protein having a mutation at F508,e.g., F508del. In an embodiment, the CF target mutant position is aposition in the CFTR gene at which a change can give rise to a mutantprotein having a mutation at G551, e.g., G551D. In an embodiment, the CFtarget mutant position is a position in the CFTR gene at which a changecan give rise to a mutant protein having a mutation at G542, e.g.,G542X, in the CFTR protein, which corresponds to c.1624G>T in the CFTRgene. In an embodiment, the CF target mutant position is a position inthe CFTR gene at which a change can give rise to a mutant protein havinga mutation at N1303, e.g., N1303K, in the CFTR protein, whichcorresponds to c.3909C>G in the CFTR gene. In an embodiment, the CFtarget mutant position is a position in the CFTR gene at which a changecan give rise to a mutant protein having a mutation at R117, e.g.,R117H, in the CFTR protein, which corresponds to c.350G>A in the CFTRgene. In an embodiment, the CF target mutant position is a position inthe CFTR gene at which a change can give rise to a mutant protein havinga mutation at W1282, e.g., W1282X, in the CFTR protein, whichcorresponds to c. c.3846G>A in the CFTR gene. In an embodiment, the CFtarget mutant position is a position in the CFTR gene at which a changecan give rise to a mutant protein having a mutation at R553, e.g.,R553X, in the CFTR protein, which corresponds to c.1657C>T in the CFTRgene. In an embodiment, the CF target mutant position is c.3717+12191,also known as c.3849+10kb, which corresponds to 3717+12191C>T in theCFTR gene. In an embodiment, the CF target mutant position is c.2657+5,also known as c.2789+5, which corresponds to 2657+5G>A in the CFTR gene.In an embodiment, the CF target mutant position is c.3140-26, also knownas c.3272-26, which corresponds to c.3140-26A>G in the CFTR gene. In anembodiment, the CF target mutant position is a position in the SCNN1Agene at which a change can give rise to a mutant protein having amutation at V114, which corresponds to V114I in the SCNN1A gene.

“CF target knockout position”, as used herein, refers to a position inthe CFTR and/or SCNN1A gene, which if altered by NHEJ-mediatedalteration, results in alleviation of a symptom of CF or CF-likedisease. In an embodiment, the alteration restores expression offunctional CFTR gene product. In an embodiment, the position is in theCFTR non-coding region, e.g., an intronic region (e.g., the alternationcorrects a cryptic splice site). In an embodiment, the alterationresults in reduction or elimination of expression of functional SCNN1Agene product. In an embodiment, the position is in the SCNN1A codingregion, e.g., an early coding region.

“CF target knockdown position”, as used herein, refers to a position inthe SCNN1A gene, which if targeted, e.g., by an eiCas9 molecule or aneiCas9 fusion described herein, results in reduction or elimination ofexpression of functional SCNN1A gene product. In an embodiment, thetranscription of the SCNN1A gene is reduced or eliminated. In anotherembodiment, the chromatin structure of the SCNN1A gene is altered. In anembodiment, the position is in the SCNN1A early coding region sequence.In an embodiment, a position in early coding region of the SCNN1A geneis targeted by an enzymatically inactive Cas9 (eiCas9) molecule or aneiCas9-fusion protein, as described herein.

“CF target knockin position”, as used herein, refers to a sequence,which if modified by the insertion of CFTR sequence, results in anoptimization of CFTR activity, e.g., by resulting in a CFTR sequencethat encodes a protein having wild type activity. Exemplary CF targetknockin position include: CFTR sequence within intron 2, into which,e.g., can be introduced CFTR sequence that codes for CFTR exons 3-27;and sequence within CFTR intron 10, into which sequence that codes forCFTR exons 11-27 can be introduced. In an embodiment, a CF targetknockin position includes CFTR intronic sequence between a second and athird exon (e.g., intron 2), and CFTR sequence encoding the third exonthrough the final exon (exon 27), is introduced, resulting in a CFTRsequence that is free of one or more cryptic splice sites and thatencodes a CFTR protein having wild type activity. In an embodiment, a CFtarget knockin position, is a position which is upstream of a mutation,or upstream of an intron having a mutation, and introduction ofwild-type CFTR sequence results in a CFTR sequence that is free of themutation. In an embodiment the CF target knockin position is in CFTRintronic sequence: between exon2 and exon 3; or between exon10 and exon11. In an embodiment, the resulting CFTR sequence comprises subjectsequence upstream from the CF target knockin position and newlyintroduced sequence downstream from the CF target knockin position,which taken together, encode a CFTR protein having wild type activity.In an embodiment, the point of insertion is 3′ to a splice donor siteand 5′ from a splice acceptor site. In an embodiment, CFTR sequenceencoding exons 3-27 is inserted under control of the promoter, e.g., atthe transcription start site. In an embodiment, CFTR sequence introducedcan exclude introns, e.g., a sequence encoding exons, but withoutintrons, is inserted, e.g., CFTR CDNA sequence is introduced.

“CF target position”, as used herein, refers to a CF target mutantposition, CF target knockout position, CF target knockdown position,and/or CF target knockin position, as described herein.

“Domain”, as used herein, is used to describe segments of a protein ornucleic acid. Unless otherwise indicated, a domain is not required tohave any specific functional property.

Calculations of homology or sequence identity between two sequences (theterms are used interchangeably herein) are performed as follows. Thesequences are aligned for optimal comparison purposes (e.g., gaps can beintroduced in one or both of a first and a second amino acid or nucleicacid sequence for optimal alignment and non-homologous sequences can bedisregarded for comparison purposes). The optimal alignment isdetermined as the best score using the GAP program in the GCG softwarepackage with a Blossum 62 scoring matrix with a gap penalty of 12, a gapextend penalty of 4, and a frame shift gap penalty of 5. The amino acidresidues or nucleotides at corresponding amino acid positions ornucleotide positions are then compared. When a position in the firstsequence is occupied by the same amino acid residue or nucleotide as thecorresponding position in the second sequence, then the molecules areidentical at that position. The percent identity between the twosequences is a function of the number of identical positions shared bythe sequences.

“Governing gRNA molecule”, as used herein, refers to a gRNA moleculethat comprises a targeting domain that is complementary to a targetdomain on a nucleic acid that comprises a sequence that encodes acomponent of the CRISPR/Cas system that is introduced into a cell orsubject. A governing gRNA does not target an endogenous cell or subjectsequence. In an embodiment, a governing gRNA molecule comprises atargeting domain that is complementary with a target sequence on: (a) anucleic acid that encodes a Cas9 molecule; (b) a nucleic acid thatencodes a gRNA which comprises a targeting domain that targets the CFTRor SCNN1A gene (a target gene gRNA); or on more than one nucleic acidthat encodes a CRISPR/Cas component, e.g., both (a) and (b). In anembodiment, a nucleic acid molecule that encodes a CRISPR/Cas component,e.g., that encodes a Cas9 molecule or a target gene gRNA, comprises morethan one target domain that is complementary with a governing gRNAtargeting domain. While not wishing to be bound by theory, in anembodiment, it is believed that a governing gRNA molecule complexes witha Cas9 molecule and results in Cas9 mediated inactivation of thetargeted nucleic acid, e.g., by cleavage or by binding to the nucleicacid, and results in cessation or reduction of the production of aCRISPR/Cas system component. In an embodiment, the Cas9 molecule formstwo complexes: a complex comprising a Cas9 molecule with a target genegRNA, which complex will alter the CFTR or SCNN1A gene; and a complexcomprising a Cas9 molecule with a governing gRNA molecule, which complexwill act to prevent further production of a CRISPR/Cas system component,e.g., a Cas9 molecule or a target gene gRNA molecule. In an embodiment,a governing gRNA molecule/Cas9 molecule complex binds to or promotescleavage of a control region sequence, e.g., a promoter, operably linkedto a sequence that encodes a Cas9 molecule, a sequence that encodes atranscribed region, an exon, or an intron, for the Cas9 molecule. In anembodiment, a governing gRNA molecule/Cas9 molecule complex binds to orpromotes cleavage of a control region sequence, e.g., a promoter,operably linked to a gRNA molecule, or a sequence that encodes the gRNAmolecule. In an embodiment, the governing gRNA, e.g., a Cas9-targetinggoverning gRNA molecule, or a target gene gRNA-targeting governing gRNAmolecule, limits the effect of the Cas9 molecule/target gene gRNAmolecule complex-mediated gene targeting. In an embodiment, a governinggRNA places temporal, level of expression, or other limits, on activityof the Cas9 molecule/target gene gRNA molecule complex. In anembodiment, a governing gRNA reduces off-target or other unwantedactivity. In an embodiment, a governing gRNA molecule inhibits, e.g.,entirely or substantially entirely inhibits, the production of acomponent of the Cas9 system and thereby limits, or governs, itsactivity.

“Modulator”, as used herein, refers to an entity, e.g., a drug, that canalter the activity (e.g., enzymatic activity, transcriptional activity,or translational activity), amount, distribution, or structure of asubject molecule or genetic sequence. In an embodiment, modulationcomprises cleavage, e.g., breaking of a covalent or non-covalent bond,or the forming of a covalent or non-covalent bond, e.g., the attachmentof a moiety, to the subject molecule. In an embodiment, a modulatoralters the, three dimensional, secondary, tertiary, or quaternarystructure, of a subject molecule. A modulator can increase, decrease,initiate, or eliminate a subject activity.

“Large molecule”, as used herein, refers to a molecule having amolecular weight of at least 2, 3, 5, 10, 20, 30, 40, 50, 60, 70, 80,90, or 100 kD. Large molecules include proteins, polypeptides, nucleicacids, biologics, and carbohydrates.

“Polypeptide”, as used herein, refers to a polymer of amino acids havingless than 100 amino acid residues. In an embodiment, it has less than50, 20, or 10 amino acid residues.

“Reference molecule”, e.g., a reference Cas9 molecule or reference gRNA,as used herein, refers to a molecule to which a subject molecule, e.g.,a subject Cas9 molecule of subject gRNA molecule, e.g., a modified orcandidate Cas9 molecule is compared. For example, a Cas9 molecule can becharacterized as having no more than 10% of the nuclease activity of areference Cas9 molecule. Examples of reference Cas9 molecules includenaturally occurring unmodified Cas9 molecules, e.g., a naturallyoccurring Cas9 molecule such as a Cas9 molecule of S. pyogenes, S.aureus or S. thermophilus. In an embodiment, the reference Cas9 moleculeis the naturally occurring Cas9 molecule having the closest sequenceidentity or homology with the Cas9 molecule to which it is beingcompared. In an embodiment, the reference Cas9 molecule is a sequence,e.g., a naturally occurring or known sequence, which is the parentalform on which a change, e.g., a mutation has been made.

“Replacement”, or “replaced”, as used herein with reference to amodification of a molecule does not require a process limitation butmerely indicates that the replacement entity is present.

“Small molecule”, as used herein, refers to a compound having amolecular weight less than about 2 kD, e.g., less than about 2 kD, lessthan about 1.5 kD, less than about 1 kD, or less than about 0.75 kD.

“Subject”, as used herein, may mean either a human or non-human animal.The term includes, but is not limited to, mammals (e.g., humans, otherprimates, pigs, rodents (e.g., mice and rats or hamsters), rabbits,guinea pigs, cows, horses, cats, dogs, sheep, and goats). In anembodiment, the subject is a human. In other embodiments, the subject ispoultry.

“Treat”, “treating” and “treatment”, as used herein, mean the treatmentof a disease in a mammal, e.g., in a human, including (a) inhibiting thedisease, i.e., arresting or preventing its development; (b) relievingthe disease, i.e., causing regression of the disease state; and (c)curing the disease.

“X” as used herein in the context of an amino acid sequence, refers toany amino acid (e.g., any of the twenty natural amino acids) unlessotherwise specified.

Cystic Fibrosis and CF-Like Disease

Cystic fibrosis (CF) is an autosomal recessive hereditary disease causedby defects in the cystic fibrosis transmembrane conductance regulator(CFTR) gene. The CFTR gene encodes a cAMP-gated channel that is involvedin chloride and bicarbonate transport. It regulates sodium transportthrough inhibition of the epithelial sodium channel, which is encoded bythe SCNN1A gene. CFTR is expressed on the apical surface of epithelialcells in the airway, gastrointestinal tract, reproductive tract, sweatglands and submucosal glands.

Subjects having CF or CF-like disease may present at birth or in earlyinfancy with pancreatic insufficiency. Pancreatic dysfunction leads tomalabsorption of fat and fat-soluble vitamins, which causes poor growthas well as gallstones and biliary disease. The lung manifestations ofthe disease can be more severe but may present slightly after pancreaticmanifestations, in infancy or early childhood. Aberrant chloride andsodium transport due to decreased CFTR activity causes lowered apicalsurface fluid levels in the lungs, which leads to “sticky” mucous andlower airway obstruction. Subjects having CF or CF-like disease sufferfrom frequent infections due to inability to clear mucous. Localinflammatory mediators try to clear the infection but have difficulty.The triad of inflammation, infection and obstruction leads toprogressive destruction of the lung parenchyma. Eventually, manysubjects having CF or CF-like disease die in their late 30's due torespiratory failure.

Current treatments for CF or CF-like disease can increase the lifeexpectancy of subjects with CF or CF-like disease. These treatmentsdelay lung destruction and slow disease progression. These treatments donot reverse the damage to the lungs or cure CF or CF-like disease.Subjects having CF or CF-like disease eventually suffer from end-stagelung disease.

Treatments for the pulmonary manifestations of CF or CF-like diseaseinclude: antibiotics (oral, inhaled and intravenous), CFTR modulators(including CFTR potentiators), DNase, chest physiotherapy to loosensecretions and anti-inflammatory therapeutics. Treatment of thegastrointestinal manifestations includes supplemental gut solublevitamins, high calorie diet and oral pancreatic enzymes. Subjects whodevelop diabetes are treated with insulin injections or an insulin pump.At the end stage, patients may benefit from lung transplant. Lungtransplant may be combined with liver and/or pancreatic transplant. Theaverage life expectancy for subjects having CF or CF-like disease isnearing 40 years of age.

Methods and compositions discussed herein provide for the treatment andprevention of Cystic Fibrosis (CF) and CF-like disease. The approachdescribed herein aims to restore CFTR channel function, restorechloride, bicarbonate and/or sodium balance, and/or decrease mucousviscosity within the lungs, airways, gastrointestinal tract andreproductive tract.

CFTR modulators (both approved and in development) improve thefunctioning of mutant CFTR. These therapeutics improve CFTR functioningbut do not return functionality to wild type levels. The approachdescribed herein is expected to restore CFTR function through completecorrection of the gene.

Gene therapy approaches are in development that deliver the CFTR channelgene to the lungs of CF patients. However, gene therapy may requireconstant readministration over the course of the lifetime of a subjectdue to high cell turnover in target epithelial cells. The approachdescribed herein is expected to restore CFTR function and/or ameliorateSCNN1A disinhibition permanently through one, two or several doses.

The CFTR gene encodes a 180-kDA cAMP-gated chloride (Cl—) channel. Thechannel has six transmembrane spanning domains and is expressed byepithelial cells, lymphocytes and cardiac myocytes. The CFTR regulatesthe viscosity of mucous through its activity in the epithelial cells ofthe lungs, gastrointestinal tract and reproductive tract. Mutations inthe CFTR result in decreased CFTR activity. Decreased CFTR activity canlead to aberrant ion transport, which gives rise to various diseasesymptoms in the lungs and other tissues, such as accumulation of stickymucus, airway obstruction, infection and inflammation. Correction ofCFTR mutations will ameliorate or cure lung, gastrointestinal and/orreproductive symptoms of CF.

The SCNN1A gene encodes the alpha subunit of the epithelial sodiumchannel (ENaC). The channel, comprised of alpha, beta and gammasubunits, regulates sodium transport into epithelial cells, includingthe epithelium of the lungs, sweat glands and kidneys. Mutations in theSCNN1A gene, (e.g. Val114ILE) have been shown to cause CF-like disease,characterized by pulmonary disease, including bronchiectasis. Mutationsin SCNN1A also cause pseudohypoaldosteronism, a severe disease of thekidney. Pseudohypoaldosteronism is due to defective sodium transportwithin kidney epithelial cells; it is not caused by defective sodiumtransport in other tissues. The methods described herein include thetargeted knockout of SCNN1A in the lung, gastrointestinal tract and/orreproductive tract. The methods described herein will not target kidneyepithelium and will avoid the negative consequences of SCNN1A mutationswithin the kidney epithelium. One mutation in the SCNN1A gene, a 1477T>Gsubstitution (W493R) has been identified in subjects who also have amutation in CFTR. This mutation is associated with a severe CFphenotype, including severe bronchiectasis, chronic bronchitis and/orsevere gastrointestinal symptoms. This mutation has been found to beassociated with 4-fold overactivity of the ENaC channel (Azad et al.,2009; Human Mutation 30: 1093-1103). Overactivity of the SCNN1A-encodedENaC channel can contribute to CF and CF-like disease. In all subjects,the CFTR is involved in inhibition of ENaC. CFTR mutations in subjectswith CF or CF-like disease leads to ENaC disinhibition, leading tooveractivity of the ENaC channel. ENaC overactivity can lead to furtherreduction in viscosity of mucous in CF or CF-like disease subjects, asmore sodium is absorbed at the apical surface of epithelial cells,followed by increased fluid absorption from the mucous layer within thelung (Baker et al., 2012; Medicine & Science in Sports and Exercise44(12): 2315-2321). Increased fluid absorption from the mucous layerreduces mucous viscosity. Inhibition of ENaC through SCNN1A knockoutand/or knockdown in subjects with CF or CF-like disease can amelioratethe symptoms of CF or CF-like disease.

One common mutation in the CFTR gene is a deletion of the threenucleotides encoding Phenylalanine (F) at position 508 of the CFTRprotein F508del (also sometime referred to herein as “F508del” or“delF508”). This mutation is the causative mutation in approximatelytwo-thirds of CF cases. The remaining cases are caused by at least 1000different mutations, many of which cause a less severe form of thedisease.

Overactivity of the SCNN1A gene has been shown to contribute tobronchiectasis, bronchitis, and gastrointestinal symptoms in subjectswith CF and in subjects with CF-like disease. In another aspect, methodsand compositions discussed herein may be used to alter the SCNN1A gene(also known as sodium channel, non-voltage-gated 1 alpha subunit;amiloride-sensitive epithelial sodium channel alpha subunit; BESC2;ENaCa; SCNEA; SCNN1; ENaCalpha) to treat or prevent CF or CF-likedisease, by targeting the SCNN1A gene, e.g., the non-coding or codingregions, e.g., a promoter region, or a transcribed sequence, e.g.,intronic or exonic sequence. In an embodiment, the target position isV114, which corresponds to V114I in the SCNN1A gene. SCNN1A encodes anepithelial sodium channel, ENaC, that is negatively regulated by CFTR.In subjects with CFTR mutations, knocking out or knocking down theSCNN1A gene in certain cells will reduce or reverse the effect ofdefective CFTR. In subjects with no CFTR mutations but CF-like diseasecaused by SCNN1A mutations or other mechanisms, knocking out or knockingdown the SCNN1A gene in certain cells will improve the viscosity ofmucous and ameliorate disease.

Methods to Treat or Prevent Cystic Fibrosis and Cystic Fibrosis-LikeDisease

Correction of the CFTR mutation (e.g., F508 deletion, e.g., G551Dsubstitution, e.g., G542X nonsense mutation, e.g., N1303K substitution,e.g., R117H substitution, e.g., W1282X nonsense mutation, e.g., R553Xnonsense mutation, e.g., 3849+10kbC>T substitution, e.g., 2789+5G>Asubstitution, e.g., 3273-26A>G substitution) or inactivation orknockdown of the SCNN1A gene, e.g., using the methods disclosed herein,can ameliorate the disease. In an embodiment, the method leads tonormalized ion transport, less viscous mucous, and/or reduced mucousplugging and inflammation, e.g., early in the disease course. In anembodiment, the method results in fewer infections, decreased lungtissue destruction, and/or slowing in progression of disease. In anembodiment, the method improves mucous production and/or reducefrequency and/or length of infections, e.g., in later stages of thedisease. In an embodiment, the method reduces or prevents further damageby ameliorating the triad of inflammation, infection and obstruction. Inan embodiment, the method delays progression of the disease. In anembodiment, the method reduces or prevents further damage byameliorating the triad of inflammation, infection and obstruction. In anembodiment, the method leads to normalized ion transport, andrestoration of fertility. In an embodiment, the method leads tonormalized ion transport, and improved gastrointestinal motility,absorption, and/or function.

Disclosed herein are the approaches to treat or prevent CF or CF-likedisease, using the compositions and methods described herein.

While not wishing to be bound by theory, it is believed that, in anembodiment described herein, the CFTR channel is corrected and chlorideand bicarbonate balance restored, e.g., within the lung, e.g., withinthe airway, e.g., within the gastrointestinal tract, e.g., within thereproductive tract, e.g., in the hepatobiliary epithelium, e.g. in thepancreas. CFTR modulators (both approved and in development) improve thefunctioning of mutant CFTR. These therapeutics improve CFTR functioningbut do not return functionality to wild type levels.

In an embodiment, the approach described herein restores CFTR functionthrough complete correction of the CFTR gene. In another embodiment, theapproach described herein inactivates the SCNN1A gene, e.g., in thepulmonary epithelium, e.g., in the airway epithelium, e.g., in thegastrointestinal epithelium, e.g. in the reproductive epithelium, e.g.,in the hepatobiliary epithelium, e.g. in the pancreatic ducts, in orderto inhibit the abnormal sodium ion transport associated with reducedCFTR activity and/or in order to inhibit abnormal sodium ion transportassociated with overactive ENaC activity. In an embodiment, these twoapproaches are combined to treat or prevent CF or CF-like disease. In anembodiment, the approaches described herein provide advantages over CFTRmodulators.

It is contemplated that the compositions disclosed herein may beadministered once or more than once (e.g., 2, 3, 4, 5, or more times) tocorrect a mutation in the CFTR gene or to inactivate or knock-down theSCNN1A gene. It is further contemplated that when the compositionsdisclosed herein are administered more than one time that the multipleadministrations are intended to increase the number of cells (e.g., thenumber of cells in the subject) containing the corrected form of theCFTR gene and/or the inactivated/knocked-down form of the SCNN1A gene,thereby increasing the effectiveness of the treatment.

The methods of treatment described herein can be initiated for subjectsat all stages of the disease. In an embodiment, the treatment isinitiated after disease onset, e.g., as the subject presents with lunginfections, wheezing and obstructed airways, and/or pancreaticinsufficiency, decreased gastrointestinal function, malabsorption,and/or infertility. While not wishing to be bound by theory, in anembodiment, repair of the CFTR gene or inactivation/knock-down of theSCNN1A gene after disease onset but early in the disease course reducesor prevents progression of the disease. In an embodiment, the methodcomprises treating a subject with advanced disease. In an embodiment,the method reduces or prevents further progression of symptoms, with orwithout reversing pathology.

In an embodiment, the treatment is initiated prior to disease onset. Inanother embodiment, the treatment is initiated at an early stage of thedisease, e.g., before the subject has noticed any decline in function orsymptoms.

In an embodiment, treatment is initiated in utero.

In an embodiment, treatment is initiated after birth.

In an embodiment, treatment is initiated prior to the age of 1.

In an embodiment, treatment is initiated prior to the age of 2.

In an embodiment, treatment is initiated prior to the age of 5.

In an embodiment, treatment is initiated prior to the age of 10.

In an embodiment, the subject has tested positive for a mutation in theCFTR gene, e.g., a mutation described herein.

In an embodiment, the subject has tested positive for a mutation in theSCNN1A gene, e.g., a mutation described herein.

In an embodiment, the treatment is initiated at appearance of a symptomof CF or CF-like disease, e.g., any of the following symptoms: frequentlung infections, chronic cough, sputum production, or chronic wheeze. Inan embodiment, the subject has a positive “sweat test” or elevated sweatChloride indicating dysfunction of the CFTR channel and/or overactivityof the SCNN1A channel. In an embodiment, the subject has an elevatedsweat Chloride, bronchiectasis and is found to have no mutation in theCFTR gene.

In an embodiment, the treatment is initiated if the subject is testedpositive for a defect, e.g., a genetic defect, in the CFTR gene.

In an embodiment, the treatment is initiated if the subject is testedpositive for a defect, e.g., a genetic defect, in the SCNN1A gene.

In an embodiment, the treatment is initiated if a family member of thesubject has been diagnosed with CF or CF-like disease. In an embodiment,the subject has a symptom or sign of CF or CF-like disease. In anembodiment, the subject has a mutation in the CFTR gene, e.g., amutation described herein.

In an embodiment, the treatment is initiated at the appearance of any ofthe following findings consistent with CF or CF-like disease, includingbut not limited to, obstructive lung disease on lung function tests;persistent colonization with B. cepacia, P. aeruginosa and S. aureus andother CF-related pathogens; chronic radiologic abnormalities on chestx-ray; or chronic sinusitis.

In an embodiment, the method comprises initiating treatment at theappearance of any of the following gastrointestinal findings consistentwith CF or CF-like disease, including but not limited to: failure tothrive, steatorrhea, hypoproteinemia, vitamin deficiency due tofat-soluble vitamin malabsorption, meconium ileus, rectal prolapse,malabsorption, pancreatic insufficiency, pancreatitis, or chronichepatobiliary disease. Evidence of chronic hepatobiliary disease caninclude, e.g., elevated transaminases and/or hyperbilirubinemia.

In an embodiment, a cell is treated ex vivo. In an embodiment, the cellis returned to the subject.

In an embodiment, it is contemplated herein that a population of cellsfrom a subject may be contacted ex vivo to correct a mutation in theCFTR gene, e.g., F508del, e.g., G542X, e.g., G551D, e.g., N1303K, e.g.,R117H, e.g., W1282X, e.g., R553X, e.g., 3849+10kbC>T, e.g., 2789+5G>A,e.g., 3273-26A>G, and a second population of cells from the subject iscontacted ex vivo to introduce a mutation in the SCNN1A gene to knockoutor knockdown SCNN1A. A mixture of the two cell populations may bereturned to the subject's body to prevent or treat CF or CF-likedisease.

In an embodiment, the cell is harvested from epidermis, pulmonary tree,hepatobiliary tree, gastrointestinal tract, reproductive tract, or otherorgan. In an embodiment, the cell is reprogrammed to an inducedpluripotent stem (iPS) cell. In an embodiment, the iPS cell isdifferentiated into airway epithelium, pulmonary epithelium, submucosalglands, submucosal ducts, biliary epithelium, gastrointestinalepithelium, pancreatic duct cells, reproductive epithelium, epidydimalcells, and/or cells of the hepatobiliary tree, e.g., clara cells, e.g.,ciliated cells, e.g., goblet cells, e.g., basal cells, e.g., acinuscells, e.g., bronchioalveolar stem cell e.g., lung epithelial cells,e.g., nasal epithelial cells, e.g., tracheal epithelial cells, e.g.,bronchial epithelial cells, e.g., enteroendocrine cells, e.g., Brunner'sgland cells, e.g., epididymal epithelium. In an embodiment, the CFTRgene in the cell is corrected with the method described herein. In anembodiment, the SCNN1A gene in the cell is corrected with the methoddescribed herein. In an embodiment, the CFTR gene and the SCNN1A gene inthe cell is corrected with the method described herein. In anembodiment, the cell is re-introduced into an appropriate location inthe subject, e.g., airway, pulmonary tree, bile duct system,gastrointestinal tract, pancreas, hepatobiliary tree, and/orreproductive tract.

In an embodiment, an autologous stem cell can be treated ex vivo,differentiated into airway epithelium, pulmonary epithelium, submucosalglands, submucosal ducts, biliary epithelium, gastrointestinalepithelium, pancreatic duct cells, reproductive epithelium, epidydimalcells, and/or cells of the hepatobiliary tree, e.g., clara cells, e.g.,ciliated cells, e.g., goblet cells, e.g., basal cells, e.g., acinuscells, e.g., bronchioalveolar stem cell e.g., lung epithelial cells,e.g., nasal epithelial cells, e.g., tracheal epithelial cells, e.g.,bronchial epithelial cells, e.g., enteroendocrine cells, e.g., Brunner'sgland cells, e.g., epididymal epithelium, and transplanted into thesubject.

In an embodiment, a heterologous stem cell can be treated ex vivo,differentiated into airway epithelium, pulmonary epithelium, submucosalglands, submucosal ducts, biliary epithelium, gastrointestinalepithelium, pancreatic duct cells, reproductive epithelium, epidydimalcells, and/or cells of the hepatobiliary tree, e.g., clara cells, e.g.,ciliated cells, e.g., goblet cells, e.g., basal cells, e.g., acinuscells, e.g., bronchioalveolar stem cell e.g., lung epithelial cells,e.g., nasal epithelial cells, e.g., tracheal epithelial cells, e.g.,bronchial epithelial cells, e.g., enteroendocrine cells, e.g., Brunner'sgland cells, e.g., epididymal epithelium, and transplanted into thesubject.

In an embodiment, the method described herein comprises delivery of gRNAor other components described herein, e.g., a Cas9 molecule and atemplate nucleic acid, by inhalation, e.g., via nebulizer. In anembodiment, the method described herein comprises delivery of gRNA orother components described herein, e.g., a Cas9 molecule and a templatenucleic acid by intravenous administration. In an embodiment, the methoddescribed herein comprises delivery of gRNA or other componentsdescribed herein, e.g., a Cas9 molecule and a template nucleic acid byintraparenchymal injection into lung tissue. In an embodiment, themethod described herein comprises delivery of gRNA or other componentsdescribed herein, e.g., a Cas9 molecule and a template nucleic acid, byintraparenchymal, intralveolar, intrabronchial, intratracheal injectioninto the trachea, bronchial tree and/or alveoli. In an embodiment, themethod described herein comprises delivery of gRNA or other componentsdescribed herein, e.g., a Cas9 molecule and a template nucleic acid, byintravenous, intraparenchymal or other directed injection oradministration to any of the following locations: the portalcirculation, liver parenchyma, pancreas, pancreatic duct, bile duct,jejunum, ileum, duodenum, stomach, upper intestine, lower intestine,gastrointestinal tract, epididymis, or reproductive tract.

In an embodiment, a gRNA or other components described herein, e.g., aCas9 molecule and a template nucleic acid are delivered, e.g., to asubject, by AAV, e.g., via nebulizer, or via nasal spray or inhaled,with or without accelerants to aid in absorption. In an embodiment, agRNA or other components described herein, e.g., a Cas9 molecule and atemplate nucleic acid are delivered, e.g., to a subject, by Sendaivirus, adenovirus, lentivirus or other modified or unmodified viraldelivery particle.

In an embodiment, a gRNA or other components described herein, e.g., aCas9 molecule and a template nucleic acid are delivered, e.g., to asubject, via nebulizer or jet nebulizer, nasal spray, or inhalation. Inan embodiment, a gRNA or other components described herein, e.g., a Cas9molecule and a template nucleic acid, is formulated in an aerosolizedcationic liposome, lipid nanoparticle, lipoplex, non-lipid polymercomplex or dry powder, e.g., for delivery via nebulizer, with or withoutaccelerants to aid in absorption.

In an embodiment, a gRNA or other components described herein, e.g., aCas9 molecule and a template nucleic acid are delivered, e.g., to asubject, via liposome GL67A. GL67A is described, e.g.,www.cfgenetherapy.org.uk/clinical/product.html; Eastman et al., Hum GeneTher. 1997 Apr. 10; 8(6):765-73.

Disclosed herein are methods for altering the CF target position in theCFTR and/or SCNN1A genes.

Methods and compositions disclosed herein provide a number of approachesfor treating or preventing CF and CF-like disease. In an embodiment,methods described herein provide for treating or preventing CF andCF-like disease by correcting a target position in the CFTR gene toprovide corrected, or functional, e.g., wild type, CFTR. In anembodiment, methods described herein allow for treating or preventing CFand CF-like disease by inducing or introducing a mutation that reducesthe level of functional SCNN1A gene product. In subjects with CF orCF-like disease, these methods can be used alone, e.g. CFTR correction,e.g., SCNN1A knockout or knockdown, or in combination, e.g., CFTRcorrection with SCNN1A knockout or knockdown.

Several approaches are detailed in the following, including targetpositions and mutations amenable to approach. In the description below,approaches 1, 2 and 3 (e.g., 3A and 3B) correspond to methods to alterCFTR. In the description below, approach 4 and 6 correspond to methodsto alter SCNN1A. One or more of the approaches can be used alone or incombination. For example, approaches 1, 2, and 3 can be used alone orapproach 1 can be combined with approach 4, or approach 2 can becombined with approach 4 or approach 3 (e.g., 3A or 3B) can be combinedwith approach 4.

Methods to Alter CFTR

In one aspect, methods and compositions discussed herein, provide forthe correction of the underlying cause of CF or CF-like disease, e.g.,the correction of a mutation at a target position in the CFTR gene.

As disclosed herein, the CFTR gene can be altered by gene editing, e.g.,using CRISPR-Cas9 mediated methods as described herein. Methods andcompositions discussed herein, provide for altering a CF target positionin the CFTR gene. A CF target position can be altered by gene editing,e.g., using CRISPR-Cas9 mediated methods to alter the CFTR gene.

In an embodiment, while some of the disclosure herein is presented inthe context of the mutation in the CFTR gene that gives rise to an F508mutant protein (e.g., F508del mutant protein) or a G551 mutant protein(e.g., G551D mutant protein), or a G542 mutant protein (e.g., G542Xmutant protein), or a mutant protein (e.g., mutant protein), or a N1303mutant protein (e.g., N1303K mutant protein), or a R117 mutant protein(e.g., R117H mutant protein), or a W1282 mutant protein (e.g., W1282Xmutant protein), or a R553 mutant protein (e.g., R553X mutant protein),or a c.3717+12191 mutant protein (e.g., c.3717+12191C>T mutant protein),or a c.2657+5 mutant protein (e.g., c.2657+5G>A mutant protein), or ac.3140-26 mutant protein (e.g., c.3140-26A>G mutant protein), themethods and compositions herein are broadly applicable to any mutation,e.g., a point mutation or a deletion, in the CFTR gene that gives riseto CF or CF-like disease.

The alteration of the CFTR gene can be mediated by any mechanism.Exemplary mechanisms that can be associated with the alteration of theCFTR gene include, but are not limited to, non-homologous end joining(e.g., classical or alternative), microhomology-mediated end joining(MMEJ), homology-directed repair (e.g., endogenous donor templatemediated), SDSA (synthesis dependent strand annealing) or single strandannealing or single strand invasion, all with or without the addition ofan endogenous-promoter driven cDNA encoding the CFTR gene.

Approach 1:

In an embodiment, one approach to treat or prevent CF or CF-like diseaseis to repair (i.e., correct) one or more mutations in the CFTR gene,e.g., by HDR. While not wishing to be bound by theory, it is believedthat correction of the mutation(s) (e.g., mediated by HDR) restore themutant CFTR gene to its wild type state. In an embodiment, singlestranded oligonucleotides (ssODNs) are used as a donor template. Inanother embodiment, double stranded DNA donor is used as a donortemplate. Donor templates contain DNA sequence which, uponincorporation, result in the expression of a functional version of theCFTR protein. In an embodiment, one CFTR allele is repaired in thesubject. In another embodiment, both CFTR alleles are repaired in thesubject. In one aspect, methods and compositions discussed herein,provide for the correction of the underlying genetic cause of CF orCF-like disease, e.g., the correction of a mutation at a target positionin the CFTR gene, e.g., correction of a mutation (e.g., delF508,G551DG542X, N1303K, R117H, W1282X, or R553X) in the CFTR gene.

Mutations in the CFTR gene amenable to the approach described hereininclude, but are not limited to any of the following mutations, e.g.,F508del, G551D, G542X, N1303K, R117H, W1282X, or R553X.

In an embodiment, the homology-directed repair of genomic sequenceincluding the mutation at the CF target position (e.g., F508del, G551D,G542X, N1303K, R117H, W1282X, or R553X) gives rise to alteration of theCFTR gene. This approach leads to the cessation of production of mutantCFTR channel and results in the production of wild-type CFTR channel.This approach will prevent the development or progression of lung,gastrointestinal and/or reproductive disease in subjects with CFTRmutations.

In an embodiment, the method provides for the correction of a mutationat a target position in the CFTR gene, e.g., correction of a mutation,e.g., an F508del, G551D, G542X, N1303K, R117H, W1282X, or R553Xsubstitution in the CFTR gene. As described herein, in an embodiment,the method comprises the introduction of one or more breaks (e.g.,single strand breaks or double strand breaks) sufficiently close to(e.g., either 5′ or 3′ to) the target position in the CFTR gene, e.g.,F508del, G551D, G542X, N1303K, R117H, W1282X, or R553X.

In an embodiment, the targeting domain of the gRNA molecule isconfigured to provide a cleavage event, e.g., a double strand break or asingle strand break, sufficiently close to (e.g., either 5′ or 3′ to)the target position in the CFTR gene, e.g., F508del, G551D, G542X,N1303K, R117H, W1282X, or R553X to allow correction, e.g., an alterationin the CFTR gene, e.g., an alternation associated with HDR. In anembodiment, the targeting domain is configured such that a cleavageevent, e.g., a double strand or single strand break, is positionedwithin 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80,90, 100, 150, 200, 250, 300, 350, 400, 450 or 500 nucleotides of thetarget position in the CFTR gene, e.g., F508del, G551D, G542X, N1303K,R117H, W1282X, or R553X. The break, e.g., a double strand or singlestrand break, can be positioned upstream or downstream of the targetposition in the CFTR gene, e.g., F508del, G551D, G542X, N1303K, R117H,W1282X, or R553X.

In an embodiment, a second, third and/or fourth gRNA molecule isconfigured to provide a cleavage event, e.g., a double strand break or asingle strand break, sufficiently close to (e.g., either 5′ or 3′ to)the target position in the CFTR gene, e.g., F508del, G551D, G542X,N1303K, R117H, W1282X, or R553X to allow correction, e.g., an alterationassociated with HDR in the CFTR gene. In an embodiment, the targetingdomain is configured such that a cleavage event, e.g., a double strandor single strand break, is positioned within 1, 2, 3, 4, 5, 10, 15, 20,25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100, 150, 200, 250, 300, 350,400, 450 or 500 nucleotides of the target position in the CFTR gene,e.g., F508del, G551D, G542X, N1303K, R117H, W1282X, or R553X. The break,e.g., a double strand or single strand break, can be positioned upstreamor downstream of the target position in the CFTR gene, e.g., F508del,G551D, G542X, N1303K, R117H, W1282X, or R553X.

In an embodiment, a single strand break is accompanied by an additionalsingle strand break, positioned by a second, third and/or fourth gRNAmolecule, as discussed below. For example, The targeting domains bindconfigured such that a cleavage event, e.g., the two single strandbreaks, are positioned within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40,45, 50, 60, 70, 80, 90, 100, 150, 200, 250, 300, 350, 400, 450 or 500nucleotides of the target position in the CFTR gene, e.g., F508del,G551D, G542X, N1303K, R117H, W1282X, or R553X. In an embodiment, thefirst and second gRNA molecules are configured such, that when guiding aCas9 nickase, a single strand break will be accompanied by an additionalsingle strand break, positioned by a second gRNA, sufficiently close toone another to result in an alteration of the target position in theCFTR gene, e.g., F508del, G551D, G542X, N1303K, R117H, W1282X, or R553X.In an embodiment, the first and second gRNA molecules are configuredsuch that a single strand break positioned by said second gRNA is within10, 20, 30, 40, or 50 nucleotides of the break positioned by said firstgRNA molecule, e.g., when the Cas9 is a nickase. In an embodiment, thetwo gRNA molecules are configured to position cuts at the same position,or within a few nucleotides of one another, on different strands, e.g.,essentially mimicking a double strand break.

In an embodiment, a double strand break can be accompanied by anadditional double strand break, positioned by a second, third and/orfourth gRNA molecule, as is discussed below. For example, the targetingdomain of a first gRNA molecule is configured such that a double strandbreak is positioned upstream of the target position in the CFTR gene,e.g., F508del, G551D, G542X, N1303K, R117H, W1282X, or R553X, e.g.,within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80,90, 100, 150, 200, 250, 300, 350, 400, 450 or 500 nucleotides of thetarget position; and the targeting domain of a second gRNA molecule isconfigured such that a double strand break is positioned downstream thetarget position in the CFTR gene, e.g., F508del, G551D, G542X, N1303K,R117H, W1282X, or R553X, e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30,35, 40, 45, 50, 60, 70, 80, 90, 100, 150, 200, 250, 300, 350, 400, 450or 500 nucleotides of the target position.

In an embodiment, a double strand break can be accompanied by twoadditional single strand breaks, positioned by a second gRNA moleculeand a third gRNA molecule. For example, the targeting domain of a firstgRNA molecule is configured such that a double strand break ispositioned upstream of the target position in the CFTR gene, e.g.,F508del, G551D, G542X, N1303K, R117H, W1282X, or R553X, e.g., within 1,2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100,150, 200, 250, 300, 350, 400, 450 or 500 nucleotides of the targetposition; and the targeting domains of a second and third gRNA moleculeare configured such that two single strand breaks are positioneddownstream of the target position in the CFTR gene, e.g., F508del,G551D, G542X, N1303K, R117H, W1282X, or R553X, e.g., within 1, 2, 3, 4,5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100, 150, 200,250, 300, 350, 400, 450 or 500 nucleotides of the target position. In anembodiment, the targeting domain of the first, second and third gRNAmolecules are configured such that a cleavage event, e.g., a doublestrand or single strand break, is positioned, independently for each ofthe gRNA molecules.

In an embodiment, a first and second single strand breaks can beaccompanied by two additional single strand breaks positioned by a thirdgRNA molecule and a fourth gRNA molecule. For example, the targetingdomain of a first and second gRNA molecule are configured such that twosingle strand breaks are positioned upstream of the target position inthe CFTR gene, e.g., F508del, G551D, G542X, N1303K, R117H, W1282X, orR553X, e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50,60, 70, 80, 90, 100, 150, 200, 250, 300, 350, 400, 450 or 500nucleotides of the target position in the CFTR gene, e.g., F508del,G551D, G542X, N1303K, R117H, W1282X, or R553X; and the targeting domainsof a third and fourth gRNA molecule are configured such that two singlestrand breaks are positioned downstream of the target position in theCFTR gene, e.g., F508del, G551D, G542X, N1303K, R117H, W1282X, or R553X,e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70,80, 90, 100, 150, 200, 250, 300, 350, 400, 450 or 500 nucleotides of thetarget position in the CFTR gene, e.g., F508del, G551D, G542X, N1303K,R117H, W1282X, or R553X.

In an embodiment, a single strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nickase) is used to create a single strand break at or in closeproximity to the CF target position, e.g., the gRNA is configured suchthat the single strand break is positioned either upstream (e.g., within200 bp upstream) or downstream (e.g., within 200 bp downstream) of theCF target position. In an embodiment, the break is positioned to avoidunwanted target chromosome elements, such as repeat elements, e.g., anAlu repeat.

In an embodiment, a double strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nuclease other than a Cas9 nickase) is used to create a doublestrand break at or in close proximity to the CF target position, e.g.,the gRNA molecule is configured such that the double strand break ispositioned either upstream (e.g., within 200 bp upstream) or downstreamof (e.g., within 200 bp downstream) of a CF target position. In anembodiment, the break is positioned to avoid unwanted target chromosomeelements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, two single strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nickcases) are used to create two singlestrand breaks at or in close proximity to the CF target position, e.g.,the gRNAs molecules are configured such that both of the single strandbreaks are positioned upstream (e.g., within 200 bp upstream) ordownstream (e.g., within 200 bp downstream) of the CF target position.In another embodiment, two gRNA molecules (e.g., with two Cas9nickcases) are used to create two single strand breaks at or in closeproximity to the CF target position, e.g., the gRNAs molecules areconfigured such that one single strand break is positioned upstream(e.g., within 200 bp upstream) and a second single strand break ispositioned downstream (e.g., within 200 bp downstream) of the CF targetposition. In an embodiment, the breaks are positioned to avoid unwantedtarget chromosome elements, such as repeat elements, e.g., an Alurepeat.

In an embodiment, two double strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nucleases that are not Cas9 nickases) areused to create two double strand breaks to flank a CF target position,e.g., the gRNA molecules are configured such that one double strandbreak is positioned upstream (e.g., within 200 bp upstream) and a seconddouble strand break is positioned downstream (e.g., within 200 bpdownstream) of the CF target position. In an embodiment, the breaks arepositioned to avoid unwanted target chromosome elements, such as repeatelements, e.g., an Alu repeat.

In an embodiment, one double strand break and two single strand breaksare introduced (e.g., positioned by three gRNA molecules) at or in closeproximity to a CF target position in the CFTR gene. In an embodiment,three gRNA molecules (e.g., with a Cas9 nuclease other than a Cas9nickase and one or two Cas9 nickases) to create one double strand breakand two single strand breaks to flank an CF target position, e.g., thegRNA molecules are configured such that the double strand break ispositioned upstream or downstream of (e.g., within 200 bp upstream ordownstream) of the CF target position, and the two single strand breaksare positioned at the opposite site, e.g., downstream or upstream(within 200 bp downstream or upstream), of the CF target position. In anembodiment, the breaks are positioned to avoid unwanted targetchromosome elements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, four single strand breaks are introduced (e.g.,positioned by four gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, four gRNA molecule(e.g., with one or more Cas9 nickases are used to create four singlestrand breaks to flank an CF target position in the CFTR gene, e.g., thegRNA molecules are configured such that a first and second single strandbreaks are positioned upstream (e.g., within 200 bp upstream) of the CFtarget position, and a third and a fourth single stranded breaks arepositioned downstream (e.g., within 200 bp downstream) of the CF targetposition. In an embodiment, the breaks are positioned to avoid unwantedtarget chromosome elements, such as repeat elements, e.g., an Alurepeat.

In an embodiment, two or more (e.g., three or four) gRNA molecules areused with one Cas9 molecule. In another embodiment, when two or more(e.g., three or four) gRNAs are used with two or more Cas9 molecules, atleast one Cas9 molecule is from a different species than the other Cas9molecule(s). For example, when two gRNA molecules are used with two Cas9molecules, one Cas9 molecule can be from one species and the other Cas9molecule can be from a different species. Both Cas9 species are used togenerate a single or double-strand break, as desired.

Approach 2:

HDR-mediated knockin of cDNA to alter the CFTR gene. In an embodiment, aCF target knockin position is altered. Altering the CF target knockinposition refers to homology-directed knockin of genomic sequence,including the delivery of cDNA template of contiguous exons (X+1)through exon 27 of CFTR gene, wherein exon X is any exon between exon 1and exon 27. Targeted knockin of CFTR cDNA leads to the cessation ofproduction of mutant or truncated CFTR protein and results in theproduction of functional CFTR protein. In an embodiment, a donortemplate is provided to mediate HDR-mediated knockin. In an embodiment,said donor template comprise homology arms, splice acceptor, contiguouscoding sequence of exons (X+1) through exon 27 of CFTR gene andpolyadenylation signal. While not wishing to be bound by theory, it isbelieved that correction of the mutation(s) (e.g., mediated by HDR)restore the mutant CFTR gene to its wild type state. In anotherembodiment, double stranded DNA donor is used as a donor template. Donortemplates contain DNA sequence which, upon incorporation, would resultin the expression of a functional version of the CFTR protein. In anembodiment, one CFTR allele is repaired in the subject. In anotherembodiment, both CFTR alleles are repaired in the subject. In oneaspect, methods and compositions discussed herein, provide for thecorrection of the underlying genetic cause of CF or CF-like disease,e.g., the correction of a mutation at a CF target position in the CFTRgene, e.g., correction of a mutation. This approach leads to thecessation of production of mutant or truncated CFTR protein and resultsin the production of functional CFTR protein. This approach prevents thedevelopment or progression of lung, gastrointestinal and/or reproductivedisease in a subject due to the cessation of production of mutant CFTRprotein and restoration of functional CFTR protein production. Thisapproach cures and/or prevents the progression of lung, gastrointestinaland/or reproductive disease in any subject with CF or CF-like diseasedeficiency who has a mutation in exon (X+1) through exon 27 of the CFTRgene, or in any subject who has a mutation in an intronic or exonicregion of the CFTR gene that is after exon X.

In an embodiment, homology-directed repair of the CFTR gene in anysubjects with CF mutations in exons 3 through 27 and introns 2 through26 by targeting intronic region between exons 2 and 3 and with deliveryof a homology-directed repair template including homology arms, spliceacceptor, coding sequence of contiguous exons 3-27 of CFTR gene andpolyadenylation signal.

In an embodiment, the CF target position is the intronic region betweenexons 2 and 3. Altering the CF target position refers tohomology-directed repair of genomic sequence including the delivery ofcDNA template of exons 3-27 of CFTR gene. This approach cures and/orprevents the progression of lung, gastrointestinal and/or reproductivedisease in any subject with CF or CF-like disease deficiency who has amutation in exons 3-27 of the CFTR gene, or in any subject who has amutation in an intronic or exonic region of the CFTR gene that is on orafter the second intron, including but not limited to the followingmutations: e.g., F508del, G551D, G542X, N1303K, R117H, W1282X, R553X,c.3717+12191C>T, 2657+5G>A, or c.3140-26A>G.

In an embodiment, the CF target position is the intronic region betweenexons 10 and 11. Altering the CF target position refers tohomology-directed repair of genomic sequence including the delivery ofcDNA template of exons 11-27 of CFTR gene. This approach cures and/orprevents the progression of lung, gastrointestinal and/or reproductivedisease in any subject with CF or CF-like disease deficiency who has amutation in exons 11-27 of the CFTR gene, or in any subject who has amutation in an intronic or exonic region of the CFTR gene that is on orafter the second intron, including but not limited to the followingmutations: e.g., F508del.

In an embodiment, the method provides for the correction of a mutationat a target position in the CFTR gene, e.g., F508del, G551D, G542X,N1303K, R117H, W1282X, R553X, c.3717+12191C>T, 2657+5G>A, orc.3140-26A>G. As described herein, in one embodiment, the methodcomprises the introduction of one or more breaks (e.g., single strandbreaks or double strand breaks) sufficiently close to (e.g., either 5′or 3′ to) the target position in the CFTR gene, e.g., intron 2 or intron10.

In an embodiment, the targeting domain of the gRNA molecule isconfigured to provide a cleavage event, e.g., a double strand break or asingle strand break, sufficiently close to (e.g., either 5′ or 3′ to)the target position e.g., intron 2 or intron 10 allow correction, e.g.,an alteration in the CFTR gene, e.g., an alternation associated withHDR. In an embodiment, the targeting domain is configured such that acleavage event, e.g., a double strand or single strand break, ispositioned within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60,70, 80, 90, 100, 150, or 200 nucleotides of the target position in theCFTR gene, e.g., intron 2 or intron 10. The break, e.g., a double strandor single strand break, can be positioned upstream or downstream of thetarget position in the CFTR gene, e.g., intron 2 or intron 10.

In an embodiment, a second, third and/or fourth gRNA molecule isconfigured to provide a cleavage event, e.g., a double strand break or asingle strand break, sufficiently close to (e.g., either 5′ or 3′ to)the target position e.g., intron 2 or intron 10 to allow correction,e.g., an alteration associated with HDR in the CFTR gene. In anembodiment, the targeting domain is configured such that a cleavageevent, e.g., a double strand or single strand break, is positionedwithin 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80,90, 100, 150, or 200 nucleotides of the target position in the CFTRgene, e.g., intron 2 or intron 10. The break, e.g., a double strand orsingle strand break, can be positioned upstream or downstream of thetarget position in the CFTR gene, e.g., intron 2 or intron 10.

In an embodiment, a single strand break is accompanied by an additionalsingle strand break, positioned by a second, third and/or fourth gRNAmolecule, as discussed below. For example, The targeting domains bindconfigured such that a cleavage event, e.g., the two single strandbreaks, are positioned within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40,45, 50, 60, 70, 80, 90, 100, 150, or 200 nucleotides of the targetposition in the CFTR gene, e.g., intron 2 or intron 10. In anembodiment, the first and second gRNA molecules are configured such,that when guiding a Cas9 nickase, a single strand break will beaccompanied by an additional single strand break, positioned by a secondgRNA, sufficiently close to one another to result in an alteration ofthe target position in the CFTR gene, e.g., intron 2 or intron 10. In anembodiment, the first and second gRNA molecules are configured such thata single strand break positioned by said second gRNA is within 10, 20,30, 40, or 50 nucleotides of the break positioned by said first gRNAmolecule, e.g., when the Cas9 is a nickase. In an embodiment, the twogRNA molecules are configured to position cuts at the same position, orwithin a few nucleotides of one another, on different strands, e.g.,essentially mimicking a double strand break.

In an embodiment, a double strand break can be accompanied by anadditional double strand break, positioned by a second, third and/orfourth gRNA molecule, as is discussed below. For example, the targetingdomain of a first gRNA molecule is configured such that a double strandbreak is positioned upstream of the target position in the CFTR gene,e.g., intron 2 or intron 10, e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25,30, 35, 40, 45, 50, 60, 70, 80, 90, 100, 150, or 200 nucleotides of thetarget position; and the targeting domain of a second gRNA molecule isconfigured such that a double strand break is positioned downstream thetarget position in the CFTR gene, e.g., intron 2 or intron 10, e.g.,within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80,90, 100, 150, or 200 nucleotides of the target position.

In an embodiment, a double strand break can be accompanied by twoadditional single strand breaks, positioned by a second gRNA moleculeand a third gRNA molecule. For example, the targeting domain of a firstgRNA molecule is configured such that a double strand break ispositioned upstream of the target position in the CFTR gene, e.g.,intron 2 or intron 10 e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30,35, 40, 45, 50, 60, 70, 80, 90, 100, 150, or 200 nucleotides of thetarget position; and the targeting domains of a second and third gRNAmolecule are configured such that two single strand breaks arepositioned downstream of the target position in the CFTR gene, e.g.,intron 2 or intron 10, e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30,35, 40, 45, 50, 60, 70, 80, 90, 100, 150, or 200 nucleotides of thetarget position. In an embodiment, the targeting domain of the first,second and third gRNA molecules are configured such that a cleavageevent, e.g., a double strand or single strand break, is positioned,independently for each of the gRNA molecules.

In an embodiment, a first and second single strand breaks can beaccompanied by two additional single strand breaks positioned by a thirdgRNA molecule and a fourth gRNA molecule. For example, the targetingdomain of a first and second gRNA molecule are configured such that twosingle strand breaks are positioned upstream of the target position inthe CFTR gene, e.g., intron 2 or intron 10, e.g., within 1, 2, 3, 4, 5,10, 15, 20, 25, 30, 35, 40, 45, 50, 60, 70, 80, 90, 100, 150, or 200nucleotides of the target position in the CFTR gene, e.g., intron 2 orintron 10; and the targeting domains of a third and fourth gRNA moleculeare configured such that two single strand breaks are positioneddownstream of the target position in the CFTR gene, e.g., intron 2 orintron 10, e.g., within 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, 40, 45,50, 60, 70, 80, 90, 100, 150, or 200 nucleotides of the target positionin the CFTR gene, e.g., intron 2 or intron 10.

In an embodiment, a single strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nickase) is used to create a single strand break at or in closeproximity to the CF target position, e.g., the gRNA is configured suchthat the single strand break is positioned either upstream (e.g., within200 bp upstream) or downstream (e.g., within 200 bp downstream) of theCF target position. In an embodiment, the break is positioned to avoidunwanted target chromosome elements, such as repeat elements, e.g., anAlu repeat.

In an embodiment, a double strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nuclease other than a Cas9 nickase) is used to create a doublestrand break at or in close proximity to the CF target position, e.g.,the gRNA molecule is configured such that the double strand break ispositioned either upstream (e.g., within 200 bp upstream) or downstreamof (e.g., within 200 bp downstream) of a CF target position. In anembodiment, the break is positioned to avoid unwanted target chromosomeelements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, two single strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nickcases) are used to create two singlestrand breaks at or in close proximity to the CF target position, e.g.,the gRNAs molecules are configured such that both of the single strandbreaks are positioned upstream (e.g., within 200 bp upstream) ordownstream (e.g., within 200 bp downstream) of the CF target position.In another embodiment, two gRNA molecules (e.g., with two Cas9nickcases) are used to create two single strand breaks at or in closeproximity to the CF target position, e.g., the gRNAs molecules areconfigured such that one single strand break is positioned upstream(e.g., within 200 bp upstream) and a second single strand break ispositioned downstream (e.g., within 200 bp downstream) of the CF targetposition. In an embodiment, the breaks are positioned to avoid unwantedtarget chromosome elements, such as repeat elements, e.g., an Alurepeat.

In an embodiment, two double strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nucleases that are not Cas9 nickases) areused to create two double strand breaks to flank a CF target position,e.g., the gRNA molecules are configured such that one double strandbreak is positioned upstream (e.g., within 200 bp upstream) and a seconddouble strand break is positioned downstream (e.g., within 200 bpdownstream) of the CF target position. In an embodiment, the breaks arepositioned to avoid unwanted target chromosome elements, such as repeatelements, e.g., an Alu repeat.

In an embodiment, one double strand break and two single strand breaksare introduced (e.g., positioned by three gRNA molecules) at or in closeproximity to a CF target position in the CFTR gene. In an embodiment,three gRNA molecules (e.g., with a Cas9 nuclease other than a Cas9nickase and one or two Cas9 nickases) to create one double strand breakand two single strand breaks to flank an CF target position, e.g., thegRNA molecules are configured such that the double strand break ispositioned upstream or downstream of (e.g., within 200 bp upstream ordownstream) of the CF target position, and the two single strand breaksare positioned at the opposite site, e.g., downstream or upstream(within 200 bp downstream or upstream), of the CF target position. In anembodiment, the breaks are positioned to avoid unwanted targetchromosome elements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, four single strand breaks are introduced (e.g.,positioned by four gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, four gRNA molecule(e.g., with one or more Cas9 nickases are used to create four singlestrand breaks to flank an CF target position in the CFTR gene, e.g., thegRNA molecules are configured such that a first and second single strandbreaks are positioned upstream (e.g., within 200 bp upstream) of the CFtarget position, and a third and a fourth single stranded breaks arepositioned downstream (e.g., within 200 bp downstream) of the CF targetposition. In an embodiment, the breaks are positioned to avoid unwantedtarget chromosome elements, such as repeat elements, e.g., an Alurepeat.

In an embodiment, two or more (e.g., three or four) gRNA molecules areused with one Cas9 molecule. In another embodiment, when two or more(e.g., three or four) gRNAs are used with two or more Cas9 molecules, atleast one Cas9 molecule is from a different species than the other Cas9molecule(s). For example, when two gRNA molecules are used with two Cas9molecules, one Cas9 molecule can be from one species and the other Cas9molecule can be from a different species. Both Cas9 species are used togenerate a single or double-strand break, as desired.

Approach 3A:

In an embodiment, Cas9-mediated removal and/or disruption of an intronicsegment of DNA, within a CFTR intron, to restore post-transcriptionalprocessing accuracy, e.g., without the use of homology-directed repair.CFTR mutations (e.g., c.3717+12191C>T, e.g., 2657+5G>A, e.g.,c.3140-26A>G) can cause abbarent post-transcriptional processing, suchas missplicing by the creation of novel splice sites which can lead tothe early truncation of non-functional CFTR protein resulting inaberrant CFTR channel formation. In one aspect, methods and compositionsdiscussed herein, provide for altering the CF target position in theCFTR gene. The CF target position (e.g. c.3717+12191, also known asc.3849+10kb, e.g., c.2657+5, also known as c.2789+5, e.g., c.3140-26A,also known as c.3272-26) can be altered, e.g., by non-homologousend-joining mediated removal and/or disruption of a splice sitemutation. In the case of a subject with a 3717+12191C>T mutation, the CFtarget position is 500 bp upstream and/or downstream of c.3717+12191within intron 22. In the case of a subject with a c.2657+5G>A mutation,the CF target position is 200 bp upstream within exon 16, and intron 16and intron 15 and/or downstream of c.2657+5 within intron 16. In thecase of a subject with a c.3140-26A>G mutation, the CF target positionis 200 bp upstream and/or downstream of c.3140-26 within intron 19 andexon 20. The removal, disruption and/or repair of a splice site mutationwill restore accurate splicing and cease production of aberranttruncation of CFTR protein. This approach will lead to the cessation ofproduction of truncated non-functional CFTR channel and will lead to theproduction of wild-type CFTR channel. This approach will prevent thedevelopment or progression of lung, gastrointestinal and/or reproductivedisease in subjects with CFTR mutations.

In an embodiment, methods and compositions discussed herein, provide foraltering the CF target position in the CFTR gene. The alteration can beachieved by (1) break-induced introduction of an indel (also referred toherein as NHEJ-mediated introduction of an indel) in close proximity toor including a CF target position (e.g., c.3717+12191C>T, 2657+5G>A, orc.3140-26A>G), or (2) break-induced deletion (also referred to herein asNHEJ-mediated deletion) of genomic sequence including the mutation at aCF target position (e.g., c.3717+12191C>T, 2657+5G>A, or c.3140-26A>G).Both approaches give rise to the loss or destruction of the abbarentpost-transcriptional processing.

In an embodiment, the method comprises introducing a break-induced indelin close proximity to or including the CF target position (e.g.,c.3717+12191C>T, 2657+5G>A, or c.3140-26A>G). As described herein, inone embodiment, the method comprises the introduction of a double strandbreak sufficiently close to (e.g., either 5′ or 3′ to) the CF targetposition (e.g., c.3717+12191C>T, 2657+5G>A, or c.3140-26A>G), such thatthe break-induced indel could be reasonably expected to span themutation. A single gRNAs, e.g., unimolecular (or chimeric) or modulargRNA molecules, is configured to position a double strand breaksufficiently close to the CF target position in the CFTR gene. Thedouble strand break may be positioned within 500 nucleotides (e.g.,within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100,200, 300, 400 or 500 nucleotides) upstream of the CF target position, orwithin 500 nucleotides (e.g., within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18,19, 20, 25, 30, 35, 40, 100, 200, 300, 400 or 500 nucleotides)downstream of the CF target position. While not wishing to be bound bytheory, in an embodiment, it is believed that NHEJ-mediated repair ofthe double strand break allows for the NHEJ-mediated introduction of anindel in close proximity to or including the CF target position.

In another embodiment, the method comprises the introduction of a pairof single strand breaks sufficiently close to (either 5′ or 3′ to,respectively) the mutation at the CF target position (e.g.,c.3717+12191C>T, 2657+5G>A, or c.3140-26A>G), such that thebreak-induced indel could be reasonably expected to span the mutation.Two gRNAs, e.g., unimolecular (or chimeric) or modular gRNA molecules,are configured to position the two single strand breaks sufficientlyclose to the CF target position in the CFTR gene. In an embodiment, thepair of single strand breaks is positioned within 500 nucleotides (e.g.,within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100,200, 300, 400 or 500 nucleotides) upstream of the CF target position, orwithin 500 nucleotides (e.g., within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18,19, 20, 25, 30, 35, 40, 100, 200, 300, 400 or 500 nucleotides)downstream of the CF target position. While not wishing to be bound bytheory, in an embodiment, it is believed that NHEJ mediated repair ofthe pair of single strand breaks allows for the NHEJ-mediatedintroduction of an indel in close proximity to or including the CFtarget position. In an embodiment, the pair of single strand breaks maybe accompanied by an additional double strand break, positioned by athird gRNA molecule, as is discussed below. In another embodiment, thepair of single strand breaks may be accompanied by two additional singlestrand breaks positioned by a third gRNA molecule and a fourth gRNAmolecule, as is discussed below.

In another embodiment, the method comprises the introduction of two setsof breaks (e.g., a pair of double strand breaks targeted by two gRNAs)sufficiently close to (either 5′ or 3′ to, respectively) the mutation atthe CF target position (e.g., c.3717+12191C>T, 2657+5G>A, orc.3140-26A>G). such that the break-induced indel could be reasonablyexpected to span the mutation. Two gRNAs, e.g., unimolecular (orchimeric) or modular gRNA molecules, are configured to position the twosets of breaks (e.g., a pair of double strand breaks) sufficiently closeto the CF target position in the CFTR gene. In an embodiment, the pairof single strand breaks is positioned within 500 nucleotides (e.g.,within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100,200, 300, 400 or 500 nucleotides) upstream of the CF target position, orwithin 500 nucleotides (e.g., within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18,19, 20, 25, 30, 35, 40, 100, 200, 300, 400 or 500 nucleotides)downstream of the CF target position. While not wishing to be bound bytheory, in an embodiment, it is believed that NHEJ mediated repair oftwo sets of breaks (e.g., a pair of double strand breaks) allows for theNHEJ-mediated introduction of an indel in close proximity to orincluding the CF target position.

In another embodiment, the method comprises the introduction of two setsof breaks (e.g., one double strand break and a pair of single strandbreaks targeted by three gRNAs) sufficiently close to (either 5′ or 3′to, respectively) the mutation at the CF target position (e.g.,c.3717+12191C>T, 2657+5G>A, or c.3140-26A>G). such that thebreak-induced indel could be reasonably expected to span the mutation.Two gRNAs, e.g., unimolecular (or chimeric) or modular gRNA molecules,are configured to position the two sets of breaks (e.g., one doublestrand break and a pair of single strand breaks) sufficiently close tothe CF target position in the CFTR gene. In an embodiment, the pair ofsingle strand breaks is positioned within 500 nucleotides (e.g., within1, 2, 3, 4, 5, 10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100, 200,300, 400 or 500 nucleotides) upstream of the CF target position, orwithin 500 nucleotides (e.g., within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18,19, 20, 25, 30, 35, 40, 100, 200, 300, 400 or 500 nucleotides)downstream of the CF target position. While not wishing to be bound bytheory, in an embodiment, it is believed that NHEJ mediated repair oftwo sets of breaks (e.g., one double strand break and a pair of singlestrand breaks) allows for the NHEJ-mediated introduction of an indel inclose proximity to or including the CF target position.

In another embodiment, the method comprises the introduction of two setsof breaks (e.g., two pairs of single strand breaks targeted by fourgRNAs) sufficiently close to (either 5′ or 3′ to, respectively) themutation at the CF target position (e.g., c.3717+12191C>T, 2657+5G>A, orc.3140-26A>G). such that the break-induced indel could be reasonablyexpected to span the mutation. Two gRNAs, e.g., unimolecular (orchimeric) or modular gRNA molecules, are configured to position the twosets of breaks (e.g., two pairs of single strand breaks s) sufficientlyclose to the CF target position in the CFTR gene. In an embodiment, thepair of single strand breaks is positioned within 500 nucleotides (e.g.,within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100,200, 300, 400 or 500 nucleotides) upstream of the CF target position, orwithin 500 nucleotides (e.g., within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18,19, 20, 25, 30, 35, 40, 100, 200, 300, 400 or 500 nucleotides)downstream of the CF target position. While not wishing to be bound bytheory, in an embodiment, it is believed that NHEJ mediated repair oftwo sets of breaks (e.g., two pairs of single strand breaks) allows forthe NHEJ-mediated introduction of an indel in close proximity to orincluding the CF target position.

In an embodiment, a single strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nickase) is used to create a single strand break at or in closeproximity to the CF target position, e.g., the gRNA is configured suchthat the single strand break is positioned either upstream (e.g., within500 bp, e.g., within 200 bp upstream) or downstream (e.g., within 500bp, e.g., within 200 bp downstream) of the CF target position. In anembodiment, the break is positioned to avoid unwanted target chromosomeelements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, a double strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nuclease other than a Cas9 nickase) is used to create a doublestrand break at or in close proximity to the CF target position, e.g.,the gRNA molecule is configured such that the double strand break ispositioned either upstream (e.g., within 500 bp, e.g., within 200 bpupstream) or downstream of (e.g., within 500 bp, e.g., within 200 bpdownstream) of a CF target position. In an embodiment, the break ispositioned to avoid unwanted target chromosome elements, such as repeatelements, e.g., an Alu repeat.

In an embodiment, two single strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nickcases) are used to create two singlestrand breaks at or in close proximity to the CF target position, e.g.,the gRNAs molecules are configured such that both of the single strandbreaks are positioned upstream (e.g., within 500 bp, e.g., within 200 bpupstream) or downstream (e.g., within 500 bp, e.g., within 200 bpdownstream) of the CF target position. In another embodiment, two gRNAmolecules (e.g., with two Cas9 nickcases) are used to create two singlestrand breaks at or in close proximity to the CF target position, e.g.,the gRNAs molecules are configured such that one single strand break ispositioned upstream (e.g., within 500 bp, e.g., within 200 bp upstream)and a second single strand break is positioned downstream (e.g., within500 bp, e.g., within 200 bp downstream) of the CF target position. In anembodiment, the breaks are positioned to avoid unwanted targetchromosome elements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, two double strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nucleases that are not Cas9 nickases) areused to create two double strand breaks to flank a CF target position,e.g., the gRNA molecules are configured such that one double strandbreak is positioned upstream (e.g., within 500 bp, e.g., within 200 bpupstream) and a second double strand break is positioned downstream(e.g., within 500 bp, e.g., within 200 bp downstream) of the CF targetposition. In an embodiment, the breaks are positioned to avoid unwantedtarget chromosome elements, such as repeat elements, e.g., an Alurepeat.

In an embodiment, one double strand break and two single strand breaksare introduced (e.g., positioned by three gRNA molecules) at or in closeproximity to a CF target position in the CFTR gene. In an embodiment,three gRNA molecules (e.g., with a Cas9 nuclease other than a Cas9nickase and one or two Cas9 nickases) to create one double strand breakand two single strand breaks to flank an CF target position, e.g., thegRNA molecules are configured such that the double strand break ispositioned upstream or downstream of (e.g., within 500 bp, e.g., within200 bp upstream or downstream) of the CF target position, and the twosingle strand breaks are positioned at the opposite site, e.g.,downstream or upstream (within 200 bp downstream or upstream), of the CFtarget position. In an embodiment, the breaks are positioned to avoidunwanted target chromosome elements, such as repeat elements, e.g., anAlu repeat.

In an embodiment, four single strand breaks are introduced (e.g.,positioned by four gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, four gRNA molecule(e.g., with one or more Cas9 nickases are used to create four singlestrand breaks to flank an CF target position in the CFTR gene, e.g., thegRNA molecules are configured such that a first and second single strandbreaks are positioned upstream (e.g., within 500 bp, e.g., within 200 bpupstream) of the CF target position, and a third and a fourth singlestranded breaks are positioned downstream (e.g., within 500 bp, e.g.,within 200 bp downstream) of the CF target position. In an embodiment,the breaks are positioned to avoid unwanted target chromosome elements,such as repeat elements, e.g., an Alu repeat.

In an embodiment, two or more (e.g., three or four) gRNA molecules areused with one Cas9 molecule. In another embodiment, when two or more(e.g., three or four) gRNAs are used with two or more Cas9 molecules, atleast one Cas9 molecule is from a different species than the other Cas9molecule(s). For example, when two gRNA molecules are used with two Cas9molecules, one Cas9 molecule can be from one species and the other Cas9molecule can be from a different species. Both Cas9 species are used togenerate a single or double-strand break, as desired.

In an embodiment, a single strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nickase) is used to create a single strand break at or in closeproximity to the CF target position, e.g., the gRNA is configured suchthat the single strand break is positioned either upstream (e.g., within500 bp upstream) or downstream (e.g., within 500 bp downstream) of theCF target position. In an embodiment, the break is positioned to avoidunwanted target chromosome elements, such as repeat elements, e.g., anAlu repeat.

In an embodiment, a double strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nuclease other than a Cas9 nickase) is used to create a doublestrand break at or in close proximity to the CF target position, e.g.,the gRNA molecule is configured such that the double strand break ispositioned either upstream (e.g., within 500 bp upstream) or downstreamof (e.g., within 500 bp downstream) of a CF target position. In anembodiment, the break is positioned to avoid unwanted target chromosomeelements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, two single strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nickcases) are used to create two singlestrand breaks at or in close proximity to the CF target position, e.g.,the gRNAs molecules are configured such that both of the single strandbreaks are positioned upstream (e.g., within 500 bp upstream) ordownstream (e.g., within 500 bp downstream) of the CF target position.In another embodiment, two gRNA molecules (e.g., with two Cas9nickcases) are used to create two single strand breaks at or in closeproximity to the CF target position, e.g., the gRNAs molecules areconfigured such that one single strand break is positioned upstream(e.g., within 500 bp upstream) and a second single strand break ispositioned downstream (e.g., within 500 bp downstream) of the CF targetposition. In an embodiment, the breaks are positioned to avoid unwantedtarget chromosome elements, such as repeat elements, e.g., an Alurepeat.

In an embodiment, two double strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nucleases that are not Cas9 nickases) areused to create two double strand breaks to flank a CF target position,e.g., the gRNA molecules are configured such that one double strandbreak is positioned upstream (e.g., within 500 bp upstream) and a seconddouble strand break is positioned downstream (e.g., within 500 bpdownstream) of the CF target position. In an embodiment, the breaks arepositioned to avoid unwanted target chromosome elements, such as repeatelements, e.g., an Alu repeat.

In an embodiment, one double strand break and two single strand breaksare introduced (e.g., positioned by three gRNA molecules) at or in closeproximity to a CF target position in the CFTR gene. In an embodiment,three gRNA molecules (e.g., with a Cas9 nuclease other than a Cas9nickase and one or two Cas9 nickases) to create one double strand breakand two single strand breaks to flank an CF target position, e.g., thegRNA molecules are configured such that the double strand break ispositioned upstream or downstream of (e.g., within 500 bp upstream ordownstream) of the CF target position, and the two single strand breaksare positioned at the opposite site, e.g., downstream or upstream(within 500 bp downstream or upstream), of the CF target position. In anembodiment, the breaks are positioned to avoid unwanted targetchromosome elements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, four single strand breaks are introduced (e.g.,positioned by four gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, four gRNA molecule(e.g., with one or more Cas9 nickases are used to create four singlestrand breaks to flank an CF target position in the CFTR gene, e.g., thegRNA molecules are configured such that a first and second single strandbreaks are positioned upstream (e.g., within 500 bp upstream) of the CFtarget position, and a third and a fourth single stranded breaks arepositioned downstream (e.g., within 500 bp downstream) of the CF targetposition. In an embodiment, the breaks are positioned to avoid unwantedtarget chromosome elements, such as repeat elements, e.g., an Alurepeat.

In an embodiment, two or more (e.g., three or four) gRNA molecules areused with one Cas9 molecule. In another embodiment, when two or more(e.g., three or four) gRNAs are used with two or more Cas9 molecules, atleast one Cas9 molecule is from a different species than the other Cas9molecule(s). For example, when two gRNA molecules are used with two Cas9molecules, one Cas9 molecule can be from one species and the other Cas9molecule can be from a different species. Both Cas9 species are used togenerate a single or double-strand break, as desired.

Approach 3B:

In an embodiment, Cas9-mediated removal and/or disruption of an intronicsegment of DNA, within a CFTR intron, to restore post-transcriptionalprocessing accuracy, e.g., with the use of homology-directed repair.CFTR mutations e.g., c.2657+5 (also known as c.2789+5), or c.3140-26A(also known as c.3272-26) can cause abbarent post-transcriptionalprocessing, such as missplicing by the creation of novel splice siteswhich can lead to production of non-functional CFTR protein resulting inaberrant CFTR channel formation. In one aspect, methods and compositionsdiscussed herein, provide for altering the CF target position in theCFTR gene. The CF target position (e.g., c.2657+5, e.g., c.3140-26A) canbe altered by non-homologous end-joining mediated removal of a splicesite mutation. In the case of a subject with a c.2657+5G>A mutation, theCF target position is 200 bp upstream and/or downstream of c.2657+5within within exon 16, and intron 16 and intron 15. In the case of asubject with a c.3140-26A>G mutation, the CF target position is 200 bpupstream and/or downstream of c.3140-26 within exon 20 and intron 19. Inan embodiment, in a subject with a target mutation in close proximity toan exon (including, but not limited to the mutations, e.g., 2789+5G>A,e.g., 3272-26A>G), approach may include Cas-9 mediated removal and/ordisruption of an intronic segment at or near the target site withhomology-directed repair with delivery of Cas9 nuclease (or nickase, ordead-Cas9), CRISPR-gRNAs, and homology-directed repair donor templates.In an embodiment, the donor template will be comprised of asingle-strand oligonucleotide donor of 50 NT to 200 NT (or more as thetechnology becomes available). In an embodiment, the donor template willbe comprised of a double-strand DNA donor with homology arms of length700 bps to 1200 bps. The repair of a splice site mutation will restoreaccurate splicing and cease aberrant truncation of CFTR transcript. Thisapproach will lead to the cessation of production of truncated CFTRchannel and will lead to the production of wild-type CFTR channel. Thisapproach will prevent the development or progression of lung,gastrointestinal and/or reproductive disease in subjects with CFTRmutations.

In an embodiment, the method comprises the introduction of a doublestrand break sufficiently close to (e.g., either 5′ or 3′ to) the CFtarget position (e.g., c2657+5G>A, or c.3140-26A>G), such that thebreak-induced indel could be reasonably expected to span the mutation. Asingle gRNAs, e.g., unimolecular (or chimeric) or modular gRNAmolecules, is configured to position a double strand break sufficientlyclose to the CF target position in the CFTR gene (e.g., 2657+5G>A, orc.3140-26A>G). The double strand break may be positioned within 200nucleotides (e.g., within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18, 19, 20, 25,30, 35, 40, 100, or 200 nucleotides) upstream of the CF target position,or within 500 nucleotides (e.g., within 1, 2, 3, 4, 5, 10, 15, 16, 17,18, 19, 20, 25, 30, 35, 40, 100, or 200 nucleotides) downstream of theCF target position. While not wishing to be bound by theory, in anembodiment, it is believed that HDR mediated repair of the break(s)restores the functional CFTR protein.

In another embodiment, the method comprises the introduction of a pairof single strand breaks sufficiently close to (either 5′ or 3′ to,respectively) the mutation at the CF target position (e.g., c2657+5G>A,or c.3140-26A>G), such that the break-induced indel could be reasonablyexpected to span the mutation. Two gRNAs, e.g., unimolecular (orchimeric) or modular gRNA molecules, are configured to position the twosingle strand breaks sufficiently close to the CF target position in theCFTR gene. In an embodiment, the pair of single strand breaks ispositioned within 500 nucleotides (e.g., within 1, 2, 3, 4, 5, 10, 15,16, 17, 18, 19, 20, 25, 30, 35, 40, 100, or 200 nucleotides) upstream ofthe CF target position, or within 500 nucleotides (e.g., within 1, 2, 3,4, 5, 10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100, or 200nucleotides) downstream of the CF target position. While not wishing tobe bound by theory, in an embodiment, it is believed that HDR mediatedrepair of the break(s) restores the functional CFTR protein. In anembodiment, the pair of single strand breaks may be accompanied by anadditional double strand break, positioned by a third gRNA molecule, asis discussed below. In another embodiment, the pair of single strandbreaks may be accompanied by two additional single strand breakspositioned by a third gRNA molecule and a fourth gRNA molecule, as isdiscussed below.

In another embodiment, the method comprises the introduction of two setsof breaks (e.g., a pair of double strand breaks targeted by two gRNAs)sufficiently close to (either 5′ or 3′ to, respectively) the mutation atthe CF target position (e.g., c2657+5G>A, or c.3140-26A>G), such thatthe break-induced indel could be reasonably expected to span themutation. Two gRNAs, e.g., unimolecular (or chimeric) or modular gRNAmolecules, are configured to position the two sets of breaks (e.g., apair of double strand breaks) sufficiently close to the CF targetposition in the CFTR gene. In an embodiment, the pair of single strandbreaks is positioned within 500 nucleotides (e.g., within 1, 2, 3, 4, 5,10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100, or 200 nucleotides)upstream of the CF target position, or within 500 nucleotides (e.g.,within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100,or 200 nucleotides) downstream of the CF target position. While notwishing to be bound by theory, in an embodiment, it is believed that HDRmediated repair of the break(s) restores the functional CFTR protein.

In another embodiment, the method comprises the introduction of two setsof breaks (e.g., one double strand break and a pair of single strandbreaks targeted by three gRNAs) sufficiently close to (either 5′ or 3′to, respectively) the mutation at the CF target position (e.g.,c2657+5G>A, or c.3140-26A>G), such that the break-induced indel could bereasonably expected to span the mutation. Two gRNAs, e.g., unimolecular(or chimeric) or modular gRNA molecules, are configured to position thetwo sets of breaks (e.g., one double strand break and a pair of singlestrand breaks) sufficiently close to the CF target position in the CFTRgene. In an embodiment, the pair of single strand breaks is positionedwithin 500 nucleotides (e.g., within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18,19, 20, 25, 30, 35, 40, 100, or 200 nucleotides) upstream of the CFtarget position, or within 500 nucleotides (e.g., within 1, 2, 3, 4, 5,10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100, or 200 nucleotides)downstream of the CF target position. While not wishing to be bound bytheory, in an embodiment, it is believed that HDR mediated repair of thebreak(s) restores the functional CFTR protein.

In another embodiment, the method comprises the introduction of two setsof breaks (e.g., two pairs of single strand breaks targeted by fourgRNAs) sufficiently close to (either 5′ or 3′ to, respectively) themutation at the CF target position (e.g., c2657+5G>A, or c.3140-26A>G),such that the break-induced indel could be reasonably expected to spanthe mutation. Two gRNAs, e.g., unimolecular (or chimeric) or modulargRNA molecules, are configured to position the two sets of breaks (e.g.,two pairs of single strand breaks s) sufficiently close to the CF targetposition in the CFTR gene. In an embodiment, the pair of single strandbreaks is positioned within 500 nucleotides (e.g., within 1, 2, 3, 4, 5,10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100, or 200 nucleotides)upstream of the CF target position, or within 500 nucleotides (e.g.,within 1, 2, 3, 4, 5, 10, 15, 16, 17, 18, 19, 20, 25, 30, 35, 40, 100,or 200 nucleotides) downstream of the CF target position. While notwishing to be bound by theory, in an embodiment, it is believed that HDRmediated repair of the break(s) restores the functional CFTR protein.

In an embodiment, a single strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nickase) is used to create a single strand break at or in closeproximity to the CF target position, e.g., the gRNA is configured suchthat the single strand break is positioned either upstream (e.g., within200 bp upstream) or downstream (e.g., within 200 bp downstream) of theCF target position. In an embodiment, the break is positioned to avoidunwanted target chromosome elements, such as repeat elements, e.g., anAlu repeat.

In an embodiment, a double strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the CFTR gene. In an embodiment, a single gRNA molecule (e.g., with aCas9 nuclease other than a Cas9 nickase) is used to create a doublestrand break at or in close proximity to the CF target position, e.g.,the gRNA molecule is configured such that the double strand break ispositioned either upstream (e.g., within 200 bp upstream) or downstreamof (e.g., within 200 bp downstream) of a CF target position. In anembodiment, the break is positioned to avoid unwanted target chromosomeelements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, two single strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nickcases) are used to create two singlestrand breaks at or in close proximity to the CF target position, e.g.,the gRNAs molecules are configured such that both of the single strandbreaks are positioned upstream (e.g., within 200 bp upstream) ordownstream (e.g., within 200 bp downstream) of the CF target position.In another embodiment, two gRNA molecules (e.g., with two Cas9nickcases) are used to create two single strand breaks at or in closeproximity to the CF target position, e.g., the gRNAs molecules areconfigured such that one single strand break is positioned upstream(e.g., within 200 bp upstream) and a second single strand break ispositioned downstream (e.g., within 200 bp downstream) of the CF targetposition. In an embodiment, the breaks are positioned to avoid unwantedtarget chromosome elements, such as repeat elements, e.g., an Alurepeat.

In an embodiment, two double strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nucleases that are not Cas9 nickases) areused to create two double strand breaks to flank a CF target position,e.g., the gRNA molecules are configured such that one double strandbreak is positioned upstream (e.g., within 200 bp upstream) and a seconddouble strand break is positioned downstream (e.g., within 200 bpdownstream) of the CF target position. In an embodiment, the breaks arepositioned to avoid unwanted target chromosome elements, such as repeatelements, e.g., an Alu repeat.

In an embodiment, one double strand break and two single strand breaksare introduced (e.g., positioned by three gRNA molecules) at or in closeproximity to a CF target position in the CFTR gene. In an embodiment,three gRNA molecules (e.g., with a Cas9 nuclease other than a Cas9nickase and one or two Cas9 nickases) to create one double strand breakand two single strand breaks to flank an CF target position, e.g., thegRNA molecules are configured such that the double strand break ispositioned upstream or downstream of (e.g., within 200 bp upstream ordownstream) of the CF target position, and the two single strand breaksare positioned at the opposite site, e.g., downstream or upstream(within 200 bp downstream or upstream), of the CF target position. In anembodiment, the breaks are positioned to avoid unwanted targetchromosome elements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, four single strand breaks are introduced (e.g.,positioned by four gRNA molecules) at or in close proximity to a CFtarget position in the CFTR gene. In an embodiment, four gRNA molecule(e.g., with one or more Cas9 nickases are used to create four singlestrand breaks to flank an CF target position in the CFTR gene, e.g., thegRNA molecules are configured such that a first and second single strandbreaks are positioned upstream (e.g., within 200 bp upstream) of the CFtarget position, and a third and a fourth single stranded breaks arepositioned downstream (e.g., within 200 bp downstream) of the CF targetposition. In an embodiment, the breaks are positioned to avoid unwantedtarget chromosome elements, such as repeat elements, e.g., an Alurepeat.

In an embodiment, two or more (e.g., three or four) gRNA molecules areused with one Cas9 molecule. In another embodiment, when two or more(e.g., three or four) gRNAs are used with two or more Cas9 molecules, atleast one Cas9 molecule is from a different species than the other Cas9molecule(s). For example, when two gRNA molecules are used with two Cas9molecules, one Cas9 molecule can be from one species and the other Cas9molecule can be from a different species. Both Cas9 species are used togenerate a single or double-strand break, as desired.

When two or more gRNAs are used to position two or more cleavage events,e.g., double strand or single strand breaks, in a target nucleic acid,it is contemplated that the two or more cleavage events may be made bythe same or different Cas9 proteins. For example, when two gRNAs areused to position two double strand breaks, a single Cas9 nuclease may beused to create both double strand breaks. When two or more gRNAs areused to position two or more single stranded breaks (single strandbreaks), a single Cas9 nickase may be used to create the two or moresingle strand breaks. When two or more gRNAs are used to position atleast one double strand break and at least one single strand break, twoCas9 proteins may be used, e.g., one Cas9 nuclease and one Cas9 nickase.It is contemplated that when two or more Cas9 proteins are used that thetwo or more Cas9 proteins may be delivered sequentially to controlspecificity of a double strand versus a single strand break at thedesired position in the target nucleic acid.

In some embodiments, the targeting domain of the first gRNA molecule andthe targeting domain of the second gRNA molecule hybridize to the targetdomain through complementary base pairing to opposite strands of thetarget nucleic acid molecule. In some embodiments, the gRNA molecule andthe second gRNA molecule are configured such that the PAMs are orientedoutward.

In an embodiment, the targeting domain of a gRNA molecule is configuredto avoid unwanted target chromosome elements, such as repeat elements,e.g., an Alu repeat, or the endogenous CFTR splice sites, in the targetdomain. The gRNA molecule may be a first, second, third and/or fourthgRNA molecule.

In an embodiment, the targeting domain of a gRNA molecule is configuredto position a cleavage event sufficiently far from a preselectednucleotide, e.g., the nucleotide of a coding region, such that thenucleotide is not altered. In an embodiment, the targeting domain of agRNA molecule is configured to position an intronic cleavage eventsufficiently far from an intron/exon border, or naturally occurringsplice signal, to avoid alteration of the exonic sequence or unwantedsplicing events. The gRNA molecule may be a first, second, third and/orfourth gRNA molecule, as described herein.

In an embodiment, the targeting domain of said gRNA molecule isconfigured to position a cleavage event sufficiently far from apreselected nucleotide, e.g., the nucleotide of a coding region, suchthat the nucleotide is not be altered. In an embodiment, the targetingdomain of said gRNA molecule is configured to position an introniccleavage event sufficiently far from an intron/exon border, or naturallyoccurring splice signal, to avoid alteration of the exonic sequence orunwanted splicing events.

Methods to Alter SCNN1A

As disclosed herein, the SCNN1A gene can be altered by gene editing,e.g., using CRISPR-Cas9 mediated methods as described herein. A CF orCF-like target position can be altered by gene editing, e.g., usingCRISPR-Cas9 mediated methods to alter the SCNN1A gene. The alteration ofthe SCNN1A gene can be mediated by any mechanism. In an embodiment,CRISPR-Cas9 mediated methods to knockdown or knockout the SCNN1A genemay be applied to any subject with any CF mutation, including but notlimited to, e.g., F508del, e.g., G551D, e.g., G542X, e.g., N1303K, e.g.,R117H, e.g., W1282X, e.g., R553X, e.g., c.3717+12191, e.g., c.2657+5,e.g., c.3140-26A and/or any subject with any CF-like mutation, includingbut not limited to a SCNN1A mutation, e.g., V114I. Exemplary mechanismsthat can be associated with the alteration of the SCNNA1 gene include,but are not limited to, non-homologous end joining (e.g., classical oralternative), microhomology-mediated end joining (MMEJ), SDSA (synthesisdependent strand annealing) or single strand annealing or single strandinvasion, all with or without the alteration of the CFTR gene, includingbut not limited to the addition of an endogenous-promoter driven cDNAencoding the CFTR gene, or homology-directed repair mediated correctionof mutations within the CFTR gene or CRISPR-cas9 mediated repair ofsplice mutations within the CFTR gene.

As disclosed herein, the SCNN1A gene can be targeted (e.g., altered) bygene editing, e.g., using CRISPR-Cas9 mediated methods as describedherein.

Methods and compositions discussed herein, provide for targeting (e.g.,altering) a CF target position in the SCNN1A gene. A CF target positioncan be targeted (e.g., altered) by gene editing, e.g., using CRISPR-Cas9mediated methods to target (e.g. alter) the SCNN1A gene.

Disclosed herein are methods for targeting (e.g., altering) a SCNN1Atarget position in the SCNN1A gene. Targeting (e.g., altering) the CFtarget position is achieved, e.g., by:

-   -   (1) knocking out the SCNN1A gene by insertion or deletion (e.g.,        NHEJ-mediated insertion or deletion) of one or more nucleotides        in close proximity to or within the early coding region of the        SCNN1A gene, or    -   (2) knocking down the SCNN1A gene mediated by enzymatically        inactive Cas9 (eiCas9) molecule or an eiCas9-fusion protein by        targeting non-coding region, e.g., a promoter region, of the        gene.

All approaches give rise to targeting (e.g., alteration) of the SCNN1Agene.

In an embodiment, methods described herein introduce one or more breaksnear the early coding region in at least one allele of the SCNN1A gene.In another embodiment, methods described herein introduce two or morebreaks to flank at least a portion of the SCNN1A gene. The two or morebreaks remove (e.g., delete) a genomic sequence including at least aportion of the SCNN1A gene. In another embodiment, methods describedherein comprise knocking down the SCNN1A gene mediated by enzymaticallyinactive Cas9 (eiCas9) molecule or an eiCas9-fusion protein by targetingthe promoter region of SCNN1A target knockdown position. All methodsdescribed herein result in targeting (e.g., alteration) of the SCNN1Agene.

The targeting (e.g., alteration) of the SCNN1A gene can be mediated byany mechanism. Exemplary mechanisms that can be associated with thealteration of the SCNN1A gene include, but are not limited to,non-homologous end joining (e.g., classical or alternative),microhomology-mediated end joining (MMEJ), homology-directed repair(e.g., endogenous donor template mediated), SDSA (synthesis dependentstrand annealing), single strand annealing or single strand invasion.

Approach 4: Knocking Out SCNN1A by Introducing an Indel or a Deletion inthe SCNN1A Gene

In an embodiment, the method comprises introducing an insertion ordeletion of one more nucleotides in close proximity to the SCNN1A targetknockout position (e.g., the early coding region) of the SCNN1A gene. Asdescribed herein, in one embodiment, the method comprises theintroduction of one or more breaks (e.g., single strand breaks or doublestrand breaks) sufficiently close to (e.g., either 5′ or 3′ to) theearly coding region of the CF target knockout position, such that thebreak-induced indel could be reasonably expected to span the CF targetknockout position (e.g., the early coding region in the SCNN1A gene).While not wishing to be bound by theory, it is believed thatNHEJ-mediated repair of the break(s) allows for the NHEJ-mediatedintroduction of an indel in close proximity to within the early codingregion of the CF target knockout position.

In an embodiment, the method comprises introducing a deletion of agenomic sequence comprising at least a portion of the SCNN1A gene. Asdescribed herein, in an embodiment, the method comprises theintroduction of two double stand breaks—one 5′ and the other 3′ to(i.e., flanking) the CF target position. In an embodiment, two gRNAs,e.g., unimolecular (or chimeric) or modular gRNA molecules, areconfigured to position the two double strand breaks on opposite sides ofthe CF target knockout position in the SCNN1A gene.

In an embodiment, a single strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the SCNN1A gene. In an embodiment, a single gRNA molecule (e.g., witha Cas9 nickase) is used to create a single strand break at or in closeproximity to the CF target position, e.g., the gRNA is configured suchthat the single strand break is positioned either upstream (e.g., within500 bp upstream, e.g., within 200 bp upstream) or downstream (e.g.,within 500 bp downstream, e.g., within 200 bp downstream) of the CFtarget position. In an embodiment, the break is positioned to avoidunwanted target chromosome elements, such as repeat elements, e.g., anAlu repeat.

In an embodiment, a double strand break is introduced (e.g., positionedby one gRNA molecule) at or in close proximity to a CF target positionin the SCNN1A gene. In an embodiment, a single gRNA molecule (e.g., witha Cas9 nuclease other than a Cas9 nickase) is used to create a doublestrand break at or in close proximity to the CF target position, e.g.,the gRNA molecule is configured such that the double strand break ispositioned either upstream (e.g., within 500 bp upstream, upstream) ordownstream of (e.g., within 500 bp downstream) of a CF target position.In an embodiment, the break is positioned to avoid unwanted targetchromosome elements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, two single strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the SCNN1A gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nickcases) are used to create two singlestrand breaks at or in close proximity to the CF target position, e.g.,the gRNAs molecules are configured such that both of the single strandbreaks are positioned e.g., within 500 bp upstream, upstream) ordownstream (e.g., within 500 bp downstream downstream) of the CF targetposition. In another embodiment, two gRNA molecules (e.g., with two Cas9nickcases) are used to create two single strand breaks at or in closeproximity to the SCNN1A target position, e.g., the gRNAs molecules areconfigured such that one single strand break is positioned upstream(e.g., within 500 bp upstream) and a second single strand break ispositioned downstream (e.g., within 500 bp downstream) of the SCNN1Atarget position. In an embodiment, the breaks are positioned to avoidunwanted target chromosome elements, such as repeat elements, e.g., anAlu repeat.

In an embodiment, two double strand breaks are introduced (e.g.,positioned by two gRNA molecules) at or in close proximity to a CFtarget position in the SCNN1A gene. In an embodiment, two gRNA molecules(e.g., with one or two Cas9 nucleases that are not Cas9 nickases) areused to create two double strand breaks to flank a CF target position,e.g., the gRNA molecules are configured such that one double strandbreak is positioned upstream (e.g., within 500 bp upstream) and a seconddouble strand break is positioned downstream (e.g., within 500 bpdownstream) of the SCNN1A target position. In an embodiment, the breaksare positioned to avoid unwanted target chromosome elements, such asrepeat elements, e.g., an Alu repeat.

In an embodiment, one double strand break and two single strand breaksare introduced (e.g., positioned by three gRNA molecules) at or in closeproximity to a CF target position in the SCNN1A gene. In an embodiment,three gRNA molecules (e.g., with a Cas9 nuclease other than a Cas9nickase and one or two Cas9 nickases) to create one double strand breakand two single strand breaks to flank a CF target position, e.g., thegRNA molecules are configured such that the double strand break ispositioned upstream or downstream of (e.g., within 500 bp upstream ordownstream) of the SCNN1A target position, and the two single strandbreaks are positioned at the opposite site, e.g., downstream or upstream(e.g., within 500 bp downstream or upstream), of the CF target position.In an embodiment, the breaks are positioned to avoid unwanted targetchromosome elements, such as repeat elements, e.g., an Alu repeat.

In an embodiment, four single strand breaks are introduced (e.g.,positioned by four gRNA molecules) at or in close proximity to a CFtarget position in the SCNN1A gene. In an embodiment, four gRNA molecule(e.g., with one or more Cas9 nickases are used to create four singlestrand breaks to flank a CF target position in the SCNN1A gene, e.g.,the gRNA molecules are configured such that a first and second singlestrand breaks are positioned upstream (e.g., within 500 bp upstream) ofthe CF target position, and a third and a fourth single stranded breaksare positioned downstream (e.g., within 500 bp downstream) of the CFtarget position. In an embodiment, the breaks are positioned to avoidunwanted target chromosome elements, such as repeat elements, e.g., anAlu repeat.

In an embodiment, two or more (e.g., three or four) gRNA molecules areused with one Cas9 molecule. In another embodiment, when two ore more(e.g., three or four) gRNAs are used with two or more Cas9 molecules, atleast one Cas9 molecule is from a different species than the other Cas9molecule(s). For example, when two gRNA molecules are used with two Cas9molecules, one Cas9 molecule can be from one species and the other Cas9molecule can be from a different species. Both Cas9 species are used togenerate a single or double-strand break, as desired.

Approach 5: Knocking Down SCNN1A Mediated by an Enzymatically InactiveCas9 (eiCas9) Molecule

A targeted knockdown approach reduces or eliminates expression offunctional SCNN1A gene product. As described herein, in an embodiment, atargeted knockdown is mediated by targeting an enzymatically inactiveCas9 (eiCas9) molecule or an eiCas9 fused to a transcription repressordomain or chromatin modifying protein to alter transcription, e.g., toblock, reduce, or decrease transcription, of the SCNN1A gene.

Methods and compositions discussed herein may be used to alter theexpression of the SCNN1A gene to treat or prevent CF or CF-like diseaseby targeting a promoter region of the SCNN1A gene. In an embodiment, thepromoter region is targeted to knock down expression of the SCNN1A gene.A targeted knockdown approach reduces or eliminates expression offunctional SCNN1A gene product. As described herein, in an embodiment, atargeted knockdown is mediated by targeting an enzymatically inactiveCas9 (eiCas9) or an eiCas9 fused to a transcription repressor domain orchromatin modifying protein to alter transcription, e.g., to block,reduce, or decrease transcription, of the SCNN1A gene. In an embodiment,one or more eiCas9 molecules may be used to block binding of one or moreendogenous transcription factors.

In another embodiment, an eiCas9 molecule can be fused to a chromatinmodifying protein. Altering chromatin status can result in decreasedexpression of the target gene. One or more eiCas9 molecules fused to oneor more chromatin modifying proteins may be used to alter chromatinstatus.

An eiCas9 mediated knock down of one of two SCNN1A allele/s by targetingthe transcription start site of SCNN1A gene in exon I of all transcripts(including 500 bp upstream and downstream of transcription start site onall transcripts). This approach is performed in any subject with CF orCF-like disease, with or without a CFTR mutation and a WT or mutantSCNN1A. The CF or CF-like target position is at or near thetranscription start site of the SCNN1A gene. Or, altering the CF orCF-like target position refers to delivering a dCas9 that stericallyhinders transcription of either or both SCNN1A allele/s. This approachgives rise to the loss or destruction of transcription of the SCNN1Agene. This approach will lead to the reduction or cessation ofproduction of ENaC. This approach will prevent the disinhibition of theENaC channel in subjects with CF or CF-like disease. The viscosity oflung, gastrointestinal and reproductive tract mucous in subjects with CFor CF-like disease will not be further increased. This will lead to areduction in viscosity of mucous within the lung, gastrointestinal andreproductive tract mucous in subjects with CF or CF-like disease. Thisapproach will prevent the progression of CF and CF-like disease.

I. gRNA Molecules

A gRNA molecule, as that term is used herein, refers to a nucleic acidthat promotes the specific targeting or homing of a gRNA molecule/Cas9molecule complex to a target nucleic acid. gRNA molecules can beunimolecular (having a single RNA molecule), sometimes referred toherein as “chimeric” gRNAs, or modular (comprising more than one, andtypically two, separate RNA molecules). A gRNA molecule comprises anumber of domains. The gRNA molecule domains are described in moredetail below.

Several exemplary gRNA structures, with domains indicated thereon, areprovided in FIGS. 1A-1G. While not wishing to be bound by theory, in anembodiment, with regard to the three dimensional form, or intra- orinter-strand interactions of an active form of a gRNA, regions of highcomplementarity are sometimes shown as duplexes in FIGS. 1A-1G and otherdepictions provided herein.

In an embodiment, a unimolecular, or chimeric, gRNA comprises,preferably from 5′ to 3′:

-   -   a targeting domain (which is complementary to a target nucleic        acid in the CFTR gene or SCNN1A gene, e.g., a targeting domain        as described herein, e.g., a targeting domain from any of Tables        1A-1E, 2A-2E, 3A-3D, 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B,        10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or        16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D,        23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E,        30A-30B, 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D,        37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D, 43A-43E,        44A-44G, 45A-45E, 46A-46E, 47A-47G, and 48A-48E;    -   a first complementarity domain;    -   a linking domain;    -   a second complementarity domain (which is complementary to the        first complementarity domain);    -   a proximal domain; and    -   optionally, a tail domain.

In an embodiment, a modular gRNA comprises:

-   -   a first strand comprising, preferably from 5′ to 3′;        -   a targeting domain (which is complementary to a target            nucleic acid in the CFTR gene or SCNN1A gene, e.g., a            targeting domain as described herein, e.g., a targeting            domain from any of Tables 1A-1E, 2A-2E, 3A-3D, 4A-4D, 5A-5E,            6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C,            13A-13D, 14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C,            19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D,            25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E, 30A-30B,            31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D,            37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D,            43A-43E, 44A-44G, 45A-45E, 46A-46E, 47A-47G, or 48A-48E);            and        -   a first complementarity domain; and    -   a second strand, comprising, preferably from 5′ to 3′:        -   optionally, a 5′ extension domain;        -   a second complementarity domain;        -   a proximal domain; and        -   optionally, a tail domain.

The domains are discussed briefly below.

The Targeting Domain

FIGS. 1A-1G provide examples of the placement of targeting domains.

The targeting domain comprises a nucleotide sequence that iscomplementary, e.g., at least 80, 85, 90, or 95% complementary, e.g.,fully complementary, to the target sequence on the target nucleic acid.The targeting domain is part of an RNA molecule and will thereforecomprise the base uracil (U), while any DNA encoding the gRNA moleculewill comprise the base thymine (T). While not wishing to be bound bytheory, in an embodiment, it is believed that the complementarity of thetargeting domain with the target sequence contributes to specificity ofthe interaction of the gRNA molecule/Cas9 molecule complex with a targetnucleic acid. It is understood that in a targeting domain and targetsequence pair, the uracil bases in the targeting domain will pair withthe adenine bases in the target sequence. In an embodiment, the targetdomain itself comprises in the 5′ to 3′ direction, an optional secondarydomain, and a core domain. In an embodiment, the core domain is fullycomplementary with the target sequence. In an embodiment, the targetingdomain is 5 to 50 nucleotides in length. The strand of the targetnucleic acid with which the targeting domain is complementary isreferred to herein as the complementary strand. Some or all of thenucleotides of the domain can have a modification, e.g., a modificationfound in Section VIII herein.

In an embodiment, the targeting domain is 16 nucleotides in length.

In an embodiment, the targeting domain is 17 nucleotides in length.

In an embodiment, the targeting domain is 18 nucleotides in length.

In an embodiment, the targeting domain is 19 nucleotides in length.

In an embodiment, the targeting domain is 20 nucleotides in length.

In an embodiment, the targeting domain is 21 nucleotides in length.

In an embodiment, the targeting domain is 22 nucleotides in length.

In an embodiment, the targeting domain is 23 nucleotides in length.

In an embodiment, the targeting domain is 24 nucleotides in length.

In an embodiment, the targeting domain is 25 nucleotides in length.

In an embodiment, the targeting domain is 26 nucleotides in length.

In an embodiment, the targeting domain comprises 16 nucleotides.

In an embodiment, the targeting domain comprises 17 nucleotides.

In an embodiment, the targeting domain comprises 18 nucleotides.

In an embodiment, the targeting domain comprises 19 nucleotides.

In an embodiment, the targeting domain comprises 20 nucleotides.

In an embodiment, the targeting domain comprises 21 nucleotides.

In an embodiment, the targeting domain comprises 22 nucleotides.

In an embodiment, the targeting domain comprises 23 nucleotides.

In an embodiment, the targeting domain comprises 24 nucleotides.

In an embodiment, the targeting domain comprises 25 nucleotides.

In an embodiment, the targeting domain comprises 26 nucleotides.

Targeting domains are discussed in more detail below.

The First Complementarity Domain

FIGS. 1A-1G provide examples of first complementarity domains.

The first complementarity domain is complementary with the secondcomplementarity domain, and in an embodiment, has sufficientcomplementarity to the second complementarity domain to form a duplexedregion under at least some physiological conditions. In an embodiment,the first complementarity domain is 5 to 30 nucleotides in length. In anembodiment, the first complementarity domain is 5 to 25 nucleotides inlength. In an embodiment, the first complementary domain is 7 to 25nucleotides in length. In an embodiment, the first complementary domainis 7 to 22 nucleotides in length. In an embodiment, the firstcomplementary domain is 7 to 18 nucleotides in length. In an embodiment,the first complementary domain is 7 to 15 nucleotides in length. In anembodiment, the first complementary domain is 5, 6, 7, 8, 9, 10, 11, 12,13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, or 25 nucleotides inlength.

In an embodiment, the first complementarity domain comprises 3subdomains, which, in the 5′ to 3′ direction are: a 5′ subdomain, acentral subdomain, and a 3′ subdomain. In an embodiment, the 5′subdomain is 4 to 9, e.g., 4, 5, 6, 7, 8 or 9 nucleotides in length. Inan embodiment, the central subdomain is 1, 2, or 3, e.g., 1, nucleotidein length. In an embodiment, the 3′ subdomain is 3 to 25, e.g., 4 to 22,4 to 18, or 4 to 10, or 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16,17, 18, 19, 20, 21, 22, 23, 24, or 25 nucleotides in length.

The first complementarity domain can share homology with, or be derivedfrom, a naturally occurring first complementarity domain. In anembodiment, it has at least 50% homology with a first complementaritydomain disclosed herein, e.g., an S. pyogenes, S. aureus or S.thermophilus, first complementarity domain.

Some or all of the nucleotides of the domain can have a modification,e.g., a modification found in Section VIII herein.

First complementarity domains are discussed in more detail below.

The Linking Domain

FIGS. 1A-1G provide examples of linking domains.

A linking domain serves to link the first complementarity domain withthe second complementarity domain of a unimolecular gRNA. The linkingdomain can link the first and second complementarity domains covalentlyor non-covalently. In an embodiment, the linkage is covalent. In anembodiment, the linking domain covalently couples the first and secondcomplementarity domains, see, e.g., FIGS. 1B-1E. In an embodiment, thelinking domain is, or comprises, a covalent bond interposed between thefirst complementarity domain and the second complementarity domain.Typically the linking domain comprises one or more, e.g., 2, 3, 4, 5, 6,7, 8, 9, or 10 nucleotides.

In modular gRNA molecules the two molecules are associated by virtue ofthe hybridization of the complementarity domains see e.g., FIG. 1A.

A wide variety of linking domains are suitable for use in unimoleculargRNA molecules. Linking domains can consist of a covalent bond, or be asshort as one or a few nucleotides, e.g., 1, 2, 3, 4, or 5 nucleotides inlength. In an embodiment, a linking domain is 2, 3, 4, 5, 6, 7, 8, 9,10, 15, 20, or 25 or more nucleotides in length. In an embodiment, alinking domain is 2 to 50, 2 to 40, 2 to 30, 2 to 20, 2 to 10, or 2 to 5nucleotides in length. In an embodiment, a linking domain shareshomology with, or is derived from, a naturally occurring sequence, e.g.,the sequence of a tracrRNA that is 5′ to the second complementaritydomain. In an embodiment, the linking domain has at least 50% homologywith a linking domain disclosed herein.

Some or all of the nucleotides of the domain can have a modification,e.g., a modification found in Section VIII herein.

Linking domains are discussed in more detail below.

The 5′ Extension Domain

In an embodiment, a modular gRNA can comprise additional sequence, 5′ tothe second complementarity domain, referred to herein as the 5′extension domain, see, e.g., FIG. 1A. In an embodiment, the 5′ extensiondomain is, 2 to 10, 2 to 9, 2 to 8, 2 to 7, 2 to 6, 2 to 5, 2 to 4nucleotides in length. In an embodiment, the 5′ extension domain is 2,3, 4, 5, 6, 7, 8, 9, or 10 or more nucleotides in length.

The Second Complementarity Domain

FIGS. 1A-1G provide examples of second complementarity domains.

The second complementarity domain is complementary with the firstcomplementarity domain, and in an embodiment, has sufficientcomplementarity to the second complementarity domain to form a duplexedregion under at least some physiological conditions. In an embodiment,e.g., as shown in FIGS. 1A-1B, the second complementarity domain caninclude sequence that lacks complementarity with the firstcomplementarity domain, e.g., sequence that loops out from the duplexedregion.

In an embodiment, the second complementarity domain is 5 to 27nucleotides in length. In an embodiment, it is longer than the firstcomplementarity region. In an embodiment the second complementary domainis 7 to 27 nucleotides in length. In an embodiment, the secondcomplementary domain is 7 to 25 nucleotides in length. In an embodiment,the second complementary domain is 7 to 20 nucleotides in length. In anembodiment, the second complementary domain is 7 to 17 nucleotides inlength. In an embodiment, the complementary domain is 5, 6, 7, 8, 9, 10,11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24 or 25 nucleotidesin length.

In an embodiment, the second complementarity domain comprises 3subdomains, which, in the 5′ to 3′ direction are: a 5′ subdomain, acentral subdomain, and a 3′ subdomain. In an embodiment, the 5′subdomain is 3 to 25, e.g., 4 to 22, 4 to 18, or 4 to 10, or 3, 4, 5, 6,7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, or25 nucleotides in length. In an embodiment, the central subdomain is 1,2, 3, 4 or 5, e.g., 3, nucleotides in length. In an embodiment, the 3′subdomain is 4 to 9, e.g., 4, 5, 6, 7, 8 or 9 nucleotides in length.

In an embodiment, the 5′ subdomain and the 3′ subdomain of the firstcomplementarity domain, are respectively, complementary, e.g., fullycomplementary, with the 3′ subdomain and the 5′ subdomain of the secondcomplementarity domain.

The second complementarity domain can share homology with or be derivedfrom a naturally occurring second complementarity domain. In anembodiment, it has at least 50% homology with a second complementaritydomain disclosed herein, e.g., an S. pyogenes, S. aureus or S.thermophilus, first complementarity domain.

Some or all of the nucleotides of the domain can have a modification,e.g., a modification found in Section VIII herein.

A Proximal Domain

FIGS. 1A-1G provide examples of proximal domains.

In an embodiment, the proximal domain is 5 to 20 nucleotides in length.In an embodiment, the proximal domain can share homology with or bederived from a naturally occurring proximal domain. In an embodiment, ithas at least 50% homology with a proximal domain disclosed herein, e.g.,an S. pyogenes, S. aureus or S. thermophilus, proximal domain.

Some or all of the nucleotides of the domain can have a modification,e.g., a modification found in Section VIII herein.

A Tail Domain

FIGS. 1A-1G provide examples of tail domains.

As can be seen by inspection of the tail domains in FIGS. 1A-1E, a broadspectrum of tail domains are suitable for use in gRNA molecules. In anembodiment, the tail domain is 0 (absent), 1, 2, 3, 4, 5, 6, 7, 8, 9, or10 nucleotides in length. In embodiment, the tail domain nucleotides arefrom or share homology with sequence from the 5′ end of a naturallyoccurring tail domain, see e.g., FIG. 1D or FIG. 1E. In an embodiment,the tail domain includes sequences that are complementary to each otherand which, under at least some physiological conditions, form a duplexedregion.

In an embodiment, the tail domain is absent or is 1 to 50 nucleotides inlength. In an embodiment, the tail domain can share homology with or bederived from a naturally occurring proximal tail domain. In anembodiment, it has at least 50% homology with a tail domain disclosedherein, e.g., an S. pyogenes, S. aureus or S. thermophilus, tail domain.

In an embodiment, the tail domain includes nucleotides at the 3′ endthat are related to the method of in vitro or in vivo transcription.When a T7 promoter is used for in vitro transcription of the gRNA, thesenucleotides may be any nucleotides present before the 3′ end of the DNAtemplate. When a U6 promoter is used for in vivo transcription, thesenucleotides may be the sequence UUUUUU. When alternate pol-III promotersare used, these nucleotides may be various numbers or uracil bases ormay include alternate bases.

The domains of gRNA molecules are described in more detail below.

The Targeting Domain

The “targeting domain” of the gRNA is complementary to the “targetdomain” on the target nucleic acid. The strand of the target nucleicacid comprising the nucleotide sequence complementary to the core domainof the gRNA is referred to herein as the “complementary strand” of thetarget nucleic acid. Guidance on the selection of targeting domains canbe found, e.g., in Fu Y et al., Nat Biotechnol 2014 (doi:10.1038/nbt.2808) and Sternberg S H et al., Nature 2014 (doi:10.1038/nature13011).

In an embodiment, the targeting domain is 16, 17, 18, 19, 20, 21, 22,23, 24, 25 or 26 nucleotides in length.

In an embodiment, the targeting domain is 16 nucleotides in length.

In an embodiment, the targeting domain is 17 nucleotides in length.

In an embodiment, the targeting domain is 18 nucleotides in length.

In an embodiment, the targeting domain is 19 nucleotides in length.

In an embodiment, the targeting domain is 20 nucleotides in length.

In an embodiment, the targeting domain is 21 nucleotides in length.

In an embodiment, the targeting domain is 22 nucleotides in length.

In an embodiment, the targeting domain is 23 nucleotides in length.

In an embodiment, the targeting domain is 24 nucleotides in length.

In an embodiment, the targeting domain is 25 nucleotides in length.

In an embodiment, the targeting domain is 26 nucleotides in length.

In an embodiment, the targeting domain comprises 16 nucleotides.

In an embodiment, the targeting domain comprises 17 nucleotides.

In an embodiment, the targeting domain comprises 18 nucleotides.

In an embodiment, the targeting domain comprises 19 nucleotides.

In an embodiment, the targeting domain comprises 20 nucleotides.

In an embodiment, the targeting domain comprises 21 nucleotides.

In an embodiment, the targeting domain comprises 22 nucleotides.

In an embodiment, the targeting domain comprises 23 nucleotides.

In an embodiment, the targeting domain comprises 24 nucleotides.

In an embodiment, the targeting domain comprises 25 nucleotides.

In an embodiment, the targeting domain comprises 26 nucleotides.

In an embodiment, the targeting domain is 10+/−5, 20+/−5, 30+/−5,40+/−5, 50+/−5, 60+/−5, 70+/−5, 80+/−5, 90+/−5, or 100+/−5 nucleotides,in length.

In an embodiment, the targeting domain is 20+/−5 nucleotides in length.

In an embodiment, the targeting domain is 20+/−10, 30+/−10, 40+/−10,50+/−10, 60+/−10, 70+/−10, 80+/−10, 90+/−10, or 100+/−10 nucleotides, inlength.

In an embodiment, the targeting domain is 30+/−10 nucleotides in length.

In an embodiment, the targeting domain is 10 to 100, 10 to 90, 10 to 80,10 to 70, 10 to 60, 10 to 50, 10 to 40, 10 to 30, 10 to 20 or 10 to 15nucleotides in length. In another embodiment, the targeting domain is 20to 100, 20 to 90, 20 to 80, 20 to 70, 20 to 60, 20 to 50, 20 to 40, 20to 30, or 20 to 25 nucleotides in length.

Typically the targeting domain has full complementarity with the targetsequence. In an embodiment the targeting domain has or includes 1, 2, 3,4, 5, 6, 7 or 8 nucleotides that are not complementary with thecorresponding nucleotide of the targeting domain.

In an embodiment, the target domain includes 1, 2, 3, 4 or 5 nucleotidesthat are complementary with the corresponding nucleotide of thetargeting domain within 5 nucleotides of its 5′ end. In an embodiment,the target domain includes 1, 2, 3, 4 or 5 nucleotides that arecomplementary with the corresponding nucleotide of the targeting domainwithin 5 nucleotides of its 3′ end.

In an embodiment, the target domain includes 1, 2, 3, or 4 nucleotidesthat are not complementary with the corresponding nucleotide of thetargeting domain within 5 nucleotides of its 5′ end. In an embodiment,the target domain includes 1, 2, 3, or 4 nucleotides that are notcomplementary with the corresponding nucleotide of the targeting domainwithin 5 nucleotides of its 3′ end.

In an embodiment, the degree of complementarity, together with otherproperties of the gRNA, is sufficient to allow targeting of a Cas9molecule to the target nucleic acid.

In an embodiment, the targeting domain comprises two consecutivenucleotides that are not complementary to the target domain(“non-complementary nucleotides”), e.g., two consecutivenoncomplementary nucleotides that are within 5 nucleotides of the 5′ endof the targeting domain, within 5 nucleotides of the 3′ end of thetargeting domain, or more than 5 nucleotides away from one or both endsof the targeting domain.

In an embodiment, no two consecutive nucleotides within 5 nucleotides ofthe 5′ end of the targeting domain, within 5 nucleotides of the 3′ endof the targeting domain, or within a region that is more than 5nucleotides away from one or both ends of the targeting domain, are notcomplementary to the targeting domain.

In an embodiment, there are no noncomplementary nucleotides within 5nucleotides of the 5′ end of the targeting domain, within 5 nucleotidesof the 3′ end of the targeting domain, or within a region that is morethan 5 nucleotides away from one or both ends of the targeting domain.

In an embodiment, the targeting domain nucleotides do not comprisemodifications, e.g., modifications of the type provided in Section VIII.However, in an embodiment, the targeting domain comprises one or moremodifications, e.g., modifications that it render it less susceptible todegradation or more bio-compatible, e.g., less immunogenic. By way ofexample, the backbone of the targeting domain can be modified with aphosphorothioate, or other modification(s) from Section VIII. In anembodiment, a nucleotide of the targeting domain can comprise a 2′modification, e.g., a 2-acetylation, e.g., a 2′ methylation, or othermodification(s) from Section VIII.

In an embodiment, the targeting domain includes 1, 2, 3, 4, 5, 6, 7 or 8or more modifications. In an embodiment, the targeting domain includes1, 2, 3, or 4 modifications within 5 nucleotides of its 5′ end. In anembodiment, the targeting domain comprises as many as 1, 2, 3, or 4modifications within 5 nucleotides of its 3′ end.

In an embodiment, the targeting domain comprises modifications at twoconsecutive nucleotides, e.g., two consecutive nucleotides that arewithin 5 nucleotides of the 5′ end of the targeting domain, within 5nucleotides of the 3′ end of the targeting domain, or more than 5nucleotides away from one or both ends of the targeting domain.

In an embodiment, no two consecutive nucleotides are modified within 5nucleotides of the 5′ end of the targeting domain, within 5 nucleotidesof the 3′ end of the targeting domain, or within a region that is morethan 5 nucleotides away from one or both ends of the targeting domain.In an embodiment, no nucleotide is modified within 5 nucleotides of the5′ end of the targeting domain, within 5 nucleotides of the 3′ end ofthe targeting domain, or within a region that is more than 5 nucleotidesaway from one or both ends of the targeting domain.

Modifications in the targeting domain can be selected so as to notinterfere with targeting efficacy, which can be evaluated by testing acandidate modification in the system described in Section IV. gRNAshaving a candidate targeting domain having a selected length, sequence,degree of complementarity, or degree of modification, can be evaluatedin a system in Section IV. The candidate targeting domain can be placed,either alone, or with one or more other candidate changes in a gRNAmolecule/Cas9 molecule system known to be functional with a selectedtarget and evaluated.

In an embodiment, all of the modified nucleotides are complementary toand capable of hybridizing to corresponding nucleotides present in thetarget domain. In another embodiment, 1, 2, 3, 4, 5, 6, 7 or 8 or moremodified nucleotides are not complementary to or capable of hybridizingto corresponding nucleotides present in the target domain.

In an embodiment, the targeting domain comprises, preferably in the5′→3′ direction: a secondary domain and a core domain. These domains arediscussed in more detail below.

The Core Domain and Secondary Domain of the Targeting Domain

The “core domain” of the targeting domain is complementary to the “coredomain target” on the target nucleic acid. In an embodiment, the coredomain comprises about 8 to about 13 nucleotides from the 3′ end of thetargeting domain (e.g., the most 3′ 8 to 13 nucleotides of the targetingdomain).

In an embodiment, the core domain and targeting domain, areindependently, 6+/−2, 7+/−2, 8+/−2, 9+/−2, 10+/−2, 11+/−2, 12+/−2,13+/−2, 14+/−2, 15+/−2, or 16+−2, nucleotides in length.

In an embodiment, the core domain and targeting domain, areindependently, 10+/−2 nucleotides in length.

In an embodiment, the core domain and targeting domain, areindependently, 10+/−4 nucleotides in length.

In an embodiment, the core domain and targeting domain are independently6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, or 18 nucleotides in length.

In an embodiment, the core domain and targeting domain are independently3 to 20, 4 to 20, 5 to 20, 6 to 20, 7 to 20, 8 to 20, 9 to 20 10 to 20or 15 to 20 nucleotides in length.

In an embodiment, the core domain and targeting domain are independently3 to 15, e.g., 6 to 15, 7 to 14, 7 to 13, 6 to 12, 7 to 12, 7 to 11, 7to 10, 8 to 14, 8 to 13, 8 to 12, 8 to 11, 8 to 10 or 8 to 9 nucleotidesin length.

The core domain is complementary with the core domain target. Typicallythe core domain has exact complementarity with the core domain target.In some embodiments, the core domain can have 1, 2, 3, 4 or 5nucleotides that are not complementary with the corresponding nucleotideof the core domain. In an embodiment, the degree of complementarity,together with other properties of the gRNA, is sufficient to allowtargeting of a Cas9 molecule to the target nucleic acid.

The “secondary domain” of the targeting domain of the gRNA iscomplementary to the “secondary domain target” of the target nucleicacid.

In an embodiment, the secondary domain is positioned 5′ to the coredomain.

In an embodiment, the secondary domain is absent or optional.

In an embodiment, if the targeting domain is 26 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 12 to 17nucleotides in length.

In an embodiment, if the targeting domain is 25 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 12 to 17nucleotides in length.

In an embodiment, if the targeting domain is 24 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 11 to 16nucleotides in length.

In an embodiment, if the targeting domain is 23 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 10 to 15nucleotides in length.

In an embodiment, if the targeting domain is 22 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 9 to 14nucleotides in length.

In an embodiment, if the targeting domain is 21 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 8 to 13nucleotides in length.

In an embodiment, if the targeting domain is 20 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 7 to 12nucleotides in length.

In an embodiment, if the targeting domain is 19 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 6 to 11nucleotides in length.

In an embodiment, if the targeting domain is 18 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 5 to 10nucleotides in length.

In an embodiment, if the targeting domain is 17 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 4 to 9nucleotides in length.

In an embodiment, if the targeting domain is 16 nucleotides in lengthand the core domain (counted from the 3′ end of the targeting domain) is8 to 13 nucleotides in length, the secondary domain is 3 to 8nucleotides in length.

In an embodiment, the secondary domain is 0, 1, 2, 3, 4, 5, 6, 7, 8, 9,10, 11, 12, 13, 14 or 15 nucleotides in length.

The secondary domain is complementary with the secondary domain target.Typically the secondary domain has exact complementarity with thesecondary domain target. In an embodiment, the secondary domain can have1, 2, 3, 4 or 5 nucleotides that are not complementary with thecorresponding nucleotide of the secondary domain. In an embodiment, thedegree of complementarity, together with other properties of the gRNA,is sufficient to allow targeting of a Cas9 molecule to the targetnucleic acid.

In an embodiment, the core domain nucleotides do not comprisemodifications, e.g., modifications of the type provided in Section VIII.However, in an embodiment, the core domain comprises one or moremodifications, e.g., modifications that it render it less susceptible todegradation or more bio-compatible, e.g., less immunogenic. By way ofexample, the backbone of the core domain can be modified with aphosphorothioate, or other modification(s) from Section VIII. In anembodiment a nucleotide of the core domain can comprise a 2′modification, e.g., a 2-acetylation, e.g., a 2′ methylation, or othermodification(s) from Section VIII. Typically, a core domain will containno more than 1, 2, or 3 modifications.

Modifications in the core domain can be selected so as to not interferewith targeting efficacy, which can be evaluated by testing a candidatemodification in the system described in Section IV. gRNAs having acandidate core domain having a selected length, sequence, degree ofcomplementarity, or degree of modification, can be evaluated in thesystem described at Section IV. The candidate core domain can be placed,either alone, or with one or more other candidate changes in a gRNAmolecule/Cas9 molecule system known to be functional with a selectedtarget and evaluated.

In an embodiment, the secondary domain nucleotides do not comprisemodifications, e.g., modifications of the type provided in Section VIII.However, in an embodiment, the secondary domain comprises one or moremodifications, e.g., modifications that render it less susceptible todegradation or more bio-compatible, e.g., less immunogenic. By way ofexample, the backbone of the secondary domain can be modified with aphosphorothioate, or other modification(s) from Section VIII. In anembodiment a nucleotide of the secondary domain can comprise a 2′modification, e.g., a 2-acetylation, e.g., a 2′ methylation, or othermodification(s) from Section VIII. Typically, a secondary domain willcontain no more than 1, 2, or 3 modifications.

Modifications in the secondary domain can be selected so as to notinterfere with targeting efficacy, which can be evaluated by testing acandidate modification in the system described in Section IV. gRNAshaving a candidate secondary domain having a selected length, sequence,degree of complementarity, or degree of modification, can be evaluatedin the system described at Section IV. The candidate secondary domaincan be placed, either alone, or with one or more other candidate changesin a gRNA molecule/Cas9 molecule system known to be functional with aselected target and evaluated.

In an embodiment, (1) the degree of complementarity between the coredomain and its target, and (2) the degree of complementarity between thesecondary domain and its target, may differ. In an embodiment, (1) maybe greater than (2). In an embodiment, (1) may be less than (2). In anembodiment, (1) and (2) are the same, e.g., each may be completelycomplementary with its target.

In an embodiment, (1) the number of modifications (e.g., modificationsfrom Section VIII) of the nucleotides of the core domain and (2) thenumber of modifications (e.g., modifications from Section VIII) of thenucleotides of the secondary domain may differ. In an embodiment, (1)may be less than (2). In an embodiment, (1) may be greater than (2). Inan embodiment, (1) and (2) may be the same, e.g., each may be free ofmodifications.

The First and Second Complementarity Domains

The first complementarity domain is complementary with the secondcomplementarity domain.

Typically the first domain does not have exact complementarity with thesecond complementarity domain target. In some embodiments, the firstcomplementarity domain can have 1, 2, 3, 4 or 5 nucleotides that are notcomplementary with the corresponding nucleotide of the secondcomplementarity domain. In an embodiment, 1, 2, 3, 4, 5 or 6, e.g., 3nucleotides, will not pair in the duplex, and, e.g., form a non-duplexedor looped-out region. In an embodiment, an unpaired, or loop-out,region, e.g., a loop-out of 3 nucleotides, is present on the secondcomplementarity domain. In an embodiment, the unpaired region begins 1,2, 3, 4, 5, or 6, e.g., 4, nucleotides from the 5′ end of the secondcomplementarity domain.

In an embodiment, the degree of complementarity, together with otherproperties of the gRNA, is sufficient to allow targeting of a Cas9molecule to the target nucleic acid.

In an embodiment, the first and second complementarity domains are:

-   -   independently, 6+/−2, 7+/−2, 8+/−2, 9+/−2, 10+/−2, 11+/−2,        12+/−2, 13+/−2, 14+/−2, 15+/−2, 16+/−2, 17+/−2, 18+/−2, 19+/−2,        or 20+/−2, 21+/−2, 22+/−2, 23+/−2, or 24+/−2 nucleotides in        length;    -   independently, 6, 7, 8, 9, 10, 11, 12, 13, 14, 14, 16, 17, 18,        19, 20, 21, 22, 23, 24, 25, or 26, nucleotides in length; or    -   independently, 5 to 24, 5 to 23, 5 to 22, 5 to 21, 5 to 20, 7 to        18, 9 to 16, or 10 to 14 nucleotides in length.

In an embodiment, the second complementarity domain is longer than thefirst complementarity domain, e.g., 2, 3, 4, 5, or 6, e.g., 6,nucleotides longer.

In an embodiment, the first and second complementary domains,independently, do not comprise modifications, e.g., modifications of thetype provided in Section VIII.

In an embodiment, the first and second complementary domains,independently, comprise one or more modifications, e.g., modificationsthat the render the domain less susceptible to degradation or morebio-compatible, e.g., less immunogenic. By way of example, the backboneof the domain can be modified with a phosphorothioate, or othermodification(s) from Section VIII. In an embodiment a nucleotide of thedomain can comprise a 2′ modification, e.g., a 2-acetylation, e.g., a 2′methylation, or other modification(s) from Section VIII.

In an embodiment, the first and second complementary domains,independently, include 1, 2, 3, 4, 5, 6, 7 or 8 or more modifications.In an embodiment, the first and second complementary domains,independently, include 1, 2, 3, or 4 modifications within 5 nucleotidesof its 5′ end. In an embodiment, the first and second complementarydomains, independently, include as many as 1, 2, 3, or 4 modificationswithin 5 nucleotides of its 3′ end.

In an embodiment, the first and second complementary domains,independently, include modifications at two consecutive nucleotides,e.g., two consecutive nucleotides that are within 5 nucleotides of the5′ end of the domain, within 5 nucleotides of the 3′ end of the domain,or more than 5 nucleotides away from one or both ends of the domain. Inan embodiment, the first and second complementary domains,independently, include no two consecutive nucleotides that are modified,within 5 nucleotides of the 5′ end of the domain, within 5 nucleotidesof the 3′ end of the domain, or within a region that is more than 5nucleotides away from one or both ends of the domain. In an embodiment,the first and second complementary domains, independently, include nonucleotide that is modified within 5 nucleotides of the 5′ end of thedomain, within 5 nucleotides of the 3′ end of the domain, or within aregion that is more than 5 nucleotides away from one or both ends of thedomain.

Modifications in a complementarity domain can be selected so as to notinterfere with targeting efficacy, which can be evaluated by testing acandidate modification in the system described in Section IV. gRNAshaving a candidate complementarity domain having a selected length,sequence, degree of complementarity, or degree of modification, can beevaluated in the system described in Section IV. The candidatecomplementarity domain can be placed, either alone, or with one or moreother candidate changes in a gRNA molecule/Cas9 molecule system known tobe functional with a selected target and evaluated.

In an embodiment, the first complementarity domain has at least 60, 70,80, 85%, 90% or 95% homology with, or differs by no more than 1, 2, 3,4, 5, or 6 nucleotides from, a reference first complementarity domain,e.g., a naturally occurring, e.g., an S. pyogenes, S. aureus or S.thermophilus, first complementarity domain, or a first complementaritydomain described herein, e.g., from FIGS. 1A-1G.

In an embodiment, the second complementarity domain has at least 60, 70,80, 85%, 90%, or 95% homology with, or differs by no more than 1, 2, 3,4, 5, or 6 nucleotides from, a reference second complementarity domain,e.g., a naturally occurring, e.g., an S. pyogenes, S. aureus or S.thermophilus, second complementarity domain, or a second complementaritydomain described herein, e.g., from FIGS. 1A-1G.

The duplexed region formed by first and second complementarity domainsis typically 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21or 22 base pairs in length (excluding any looped out or unpairednucleotides).

In some embodiments, the first and second complementarity domains, whenduplexed, comprise 11 paired nucleotides, for example, in the gRNAsequence (one paired strand underlined, one bolded):

(SEQ ID NO: 5) NNNNNNNNNNNNNNNNNNNNGUUUUAGAGCUAGAAAUAGCAAGUUAAAAUAAGGCUAGUCCGUUAUCAACUUGAAAAAGUGGCACCGAGUCGGUGC.

In some embodiments, the first and second complementarity domains, whenduplexed, comprise 15 paired nucleotides, for example in the gRNAsequence (one paired strand underlined, one bolded):

(SEQ ID NO: 27) NNNNNNNNNNNNNNNNNNNNGUUUUAGAGCUAUGCUGAAAAGCAUAGCAAGUUAAAAUAAGGCUAGUCCGUUAUCAACUUGAAAAAGUGGCACC GAGUCGGUGC.

In some embodiments the first and second complementarity domains, whenduplexed, comprise 16 paired nucleotides, for example in the gRNAsequence (one paired strand underlined, one bolded):

(SEQ ID NO: 28) NNNNNNNNNNNNNNNNNNNNGUUUUAGAGCUAUGCUGGAAACAGCAUAGCAAGUUAAAAUAAGGCUAGUCCGUUAUCAACUUGAAAAAGUGGCA CCGAGUCGGUGC.In some embodiments the first and second complementarity domains, whenduplexed, comprise 21 paired nucleotides, for example in the gRNAsequence (one paired strand underlined, one bolded):

(SEQ ID NO: 29) NNNNNNNNNNNNNNNNNNNNGUUUUAGAGCUAUGCUGUUUUGGAAACAAAACAGCAUAGCAAGUUAAAAUAAGGCUAGUCCGUUAUCAACUU GAAAAAGUGGCACCGAGUCGGUGC.

In some embodiments, nucleotides are exchanged to remove poly-U tracts,for example in the gRNA sequences (exchanged nucleotides underlined):

(SEQ ID NO: 30) NNNNNNNNNNNNNNNNNNNNGUAUUAGAGCUAGAAAUAGCAAGUUAAUAUAAGGCUAGUCCGUUAUCAACUUGAAAAAGUGGCACCGAGUCGGUGC; (SEQ ID NO: 31) NNNNNNNNNNNNNNNNNNNNGUUUAAGAGCUAGAAAUAGCAAGUUUAAAUAAGGCUAGUCCGUUAUCAACUUGAAAAAGUGGCACCGAGUCGGUGC;  or (SEQ ID NO: 32)NNNNNNNNNNNNNNNNNNNNGUAUUAGAGCUAUGCUGUAUUGGAAACAAUACAGCAUAGCAAGUUAAUAUAAGGCUAGUCCGUUAUCAACUUGAAAAA GUGGCACCGAGUCGGUGC.

The 5′ Extension Domain

In an embodiment, a modular gRNA can comprise additional sequence, 5′ tothe second complementarity domain. In an embodiment, the 5′ extensiondomain is 2 to 10, 2 to 9, 2 to 8, 2 to 7, 2 to 6, 2 to 5, or 2 to 4nucleotides in length. In an embodiment, the 5′ extension domain is 2,3, 4, 5, 6, 7, 8, 9, or 10 or more nucleotides in length.

In an embodiment, the 5′ extension domain nucleotides do not comprisemodifications, e.g., modifications of the type provided in Section VIII.However, in an embodiment, the 5′ extension domain comprises one or moremodifications, e.g., modifications that it render it less susceptible todegradation or more bio-compatible, e.g., less immunogenic. By way ofexample, the backbone of the 5′ extension domain can be modified with aphosphorothioate, or other modification(s) from Section VIII. In anembodiment, a nucleotide of the 5′ extension domain can comprise a 2′modification, e.g., a 2-acetylation, e.g., a 2′ methylation, or othermodification(s) from Section VIII.

In an embodiment, the 5′ extension domain can comprise as many as 1, 2,3, 4, 5, 6, 7 or 8 modifications. In an embodiment, the 5′ extensiondomain comprises as many as 1, 2, 3, or 4 modifications within 5nucleotides of its 5′ end, e.g., in a modular gRNA molecule. In anembodiment, the 5′ extension domain comprises as many as 1, 2, 3, or 4modifications within 5 nucleotides of its 3′ end, e.g., in a modulargRNA molecule.

In an embodiment, the 5′ extension domain comprises modifications at twoconsecutive nucleotides, e.g., two consecutive nucleotides that arewithin 5 nucleotides of the 5′ end of the 5′ extension domain, within 5nucleotides of the 3′ end of the 5′ extension domain, or more than 5nucleotides away from one or both ends of the 5′ extension domain. In anembodiment, no two consecutive nucleotides are modified within 5nucleotides of the 5′ end of the 5′ extension domain, within 5nucleotides of the 3′ end of the 5′ extension domain, or within a regionthat is more than 5 nucleotides away from one or both ends of the 5′extension domain. In an embodiment, no nucleotide is modified within 5nucleotides of the 5′ end of the 5′ extension domain, within 5nucleotides of the 3′ end of the 5′ extension domain, or within a regionthat is more than 5 nucleotides away from one or both ends of the 5′extension domain.

Modifications in the 5′ extension domain can be selected so as to notinterfere with gRNA molecule efficacy, which can be evaluated by testinga candidate modification in the system described in Section IV. gRNAshaving a candidate 5′ extension domain having a selected length,sequence, degree of complementarity, or degree of modification, can beevaluated in the system described at Section IV. The candidate 5′extension domain can be placed, either alone, or with one or more othercandidate changes in a gRNA molecule/Cas9 molecule system known to befunctional with a selected target and evaluated.

In an embodiment, the 5′ extension domain has at least 60, 70, 80, 85,90 or 95% homology with, or differs by no more than 1, 2, 3, 4, 5, or 6nucleotides from, a reference 5′ extension domain, e.g., a naturallyoccurring, e.g., an S. pyogenes, or S. aureus S. thermophilus, 5′extension domain, or a 5′ extension domain described herein, e.g., fromFIGS. 1A-1G.

The Linking Domain

In a unimolecular gRNA molecule the linking domain is disposed betweenthe first and second complementarity domains. In a modular gRNAmolecule, the two molecules are associated with one another by thecomplementarity domains.

In an embodiment, the linking domain is 10+/−5, 20+/−5, 30+/−5, 40+/−5,50+/−5, 60+/−5, 70+/−5, 80+/−5, 90+/−5, or 100+/−5 nucleotides, inlength.

In an embodiment, the linking domain is 20+/−10, 30+/−10, 40+/−10,50+/−10, 60+/−10, 70+/−10, 80+/−10, 90+/−10, or 100+/−10 nucleotides, inlength.

In an embodiment, the linking domain is 10 to 100, 10 to 90, 10 to 80,10 to 70, 10 to 60, 10 to 50, 10 to 40, 10 to 30, 10 to 20 or 10 to 15nucleotides in length. In other embodiments, the linking domain is 20 to100, 20 to 90, 20 to 80, 20 to 70, 20 to 60, 20 to 50, 20 to 40, 20 to30, or 20 to 25 nucleotides in length.

In an embodiment, the linking domain is 1, 2, 3, 4, 5, 6, 7, 8, 9, 10,11, 12, 13, 14, 15, 16 17, 18, 19, or 20 nucleotides in length.

In an embodiment, the linking domain is a covalent bond.

In an embodiment, the linking domain comprises a duplexed region,typically adjacent to or within 1, 2, or 3 nucleotides of the 3′ end ofthe first complementarity domain and/or the 5-end of the secondcomplementarity domain. In an embodiment, the duplexed region can be20+/−10 base pairs in length. In an embodiment, the duplexed region canbe 10+/−5, 15+/−5, 20+/−5, or 30+/−5 base pairs in length. In anembodiment, the duplexed region can be 1, 2, 3, 4, 5, 6, 7, 8, 9, 10,11, 12, 13, 14, or 15 base pairs in length.

Typically the sequences forming the duplexed region have exactcomplementarity with one another, though in some embodiments as many as1, 2, 3, 4, 5, 6, 7 or 8 nucleotides are not complementary with thecorresponding nucleotides.

In an embodiment, the linking domain nucleotides do not comprisemodifications, e.g., modifications of the type provided in Section VIII.However, in an embodiment, the linking domain comprises one or moremodifications, e.g., modifications that it render it less susceptible todegradation or more bio-compatible, e.g., less immunogenic. By way ofexample, the backbone of the linking domain can be modified with aphosphorothioate, or other modification(s) from Section VIII. In anembodiment a nucleotide of the linking domain can comprise a 2′modification, e.g., a 2-acetylation, e.g., a 2′ methylation, or othermodification(s) from Section VIII. In some embodiments, the linkingdomain can comprise as many as 1, 2, 3, 4, 5, 6, 7 or 8 modifications.

Modifications in a linking domain can be selected so as to not interferewith targeting efficacy, which can be evaluated by testing a candidatemodification in the system described in Section IV. gRNAs having acandidate linking domain having a selected length, sequence, degree ofcomplementarity, or degree of modification, can be evaluated a systemdescribed in Section IV. A candidate linking domain can be placed,either alone, or with one or more other candidate changes in a gRNAmolecule/Cas9 molecule system known to be functional with a selectedtarget and evaluated.

In an embodiment, the linking domain has at least 60, 70, 80, 85, 90 or95% homology with, or differs by no more than 1, 2, 3, 4, 5, or 6nucleotides from, a reference linking domain, e.g., a linking domaindescribed herein, e.g., from FIGS. 1A-1G.

The Proximal Domain

In an embodiment, the proximal domain is 6+/−2, 7+/−2, 8+/−2, 9+/−2,10+/−2, 11+/−2, 12+/−2, 13+/−2, 14+/−2, 14+/−2, 16+/−2, 17+/−2, 18+/−2,19+/−2, or 20+/−2 nucleotides in length.

In an embodiment, the proximal domain is 6, 7, 8, 9, 10, 11, 12, 13, 14,15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, the proximal domain is 5 to 20, 7, to 18, 9 to 16, or10 to 14 nucleotides in length.

In an embodiment, the proximal domain nucleotides do not comprisemodifications, e.g., modifications of the type provided in Section VIII.However, in an embodiment, the proximal domain comprises one or moremodifications, e.g., modifications that it render it less susceptible todegradation or more bio-compatible, e.g., less immunogenic. By way ofexample, the backbone of the proximal domain can be modified with aphosphorothioate, or other modification(s) from Section VIII. In anembodiment a nucleotide of the proximal domain can comprise a 2′modification, e.g., a 2-acetylation, e.g., a 2′ methylation, or othermodification(s) from Section VIII.

In an embodiment, the proximal domain can comprise as many as 1, 2, 3,4, 5, 6, 7 or 8 modifications. In an embodiment, the proximal domaincomprises as many as 1, 2, 3, or 4 modifications within 5 nucleotides ofits 5′ end, e.g., in a modular gRNA molecule. In an embodiment, thetarget domain comprises as many as 1, 2, 3, or 4 modifications within 5nucleotides of its 3′ end, e.g., in a modular gRNA molecule.

In an embodiment, the proximal domain comprises modifications at twoconsecutive nucleotides, e.g., two consecutive nucleotides that arewithin 5 nucleotides of the 5′ end of the proximal domain, within 5nucleotides of the 3′ end of the proximal domain, or more than 5nucleotides away from one or both ends of the proximal domain. In anembodiment, no two consecutive nucleotides are modified within 5nucleotides of the 5′ end of the proximal domain, within 5 nucleotidesof the 3′ end of the proximal domain, or within a region that is morethan 5 nucleotides away from one or both ends of the proximal domain. Inan embodiment, no nucleotide is modified within 5 nucleotides of the 5′end of the proximal domain, within 5 nucleotides of the 3′ end of theproximal domain, or within a region that is more than 5 nucleotides awayfrom one or both ends of the proximal domain.

Modifications in the proximal domain can be selected so as to notinterfere with gRNA molecule efficacy, which can be evaluated by testinga candidate modification in the system described in Section IV. gRNAshaving a candidate proximal domain having a selected length, sequence,degree of complementarity, or degree of modification, can be evaluatedin the system described at Section IV. The candidate proximal domain canbe placed, either alone, or with one or more other candidate changes ina gRNA molecule/Cas9 molecule system known to be functional with aselected target and evaluated.

In an embodiment, the proximal domain has at least 60, 70, 80, 85 90 or95% homology with, or differs by no more than 1, 2, 3, 4, 5, or 6nucleotides from, a reference proximal domain, e.g., a naturallyoccurring, e.g., an S. pyogenes, S. aureus or S. thermophilus, proximaldomain, or a proximal domain described herein, e.g., from FIGS. 1A-1G.

The Tail Domain

In an embodiment, the tail domain is 10+/−5, 20+/−5, 30+/−5, 40+/−5,50+/−5, 60+/−5, 70+/−5, 80+/−5, 90+/−5, or 100+/−5 nucleotides, inlength.

In an embodiment, the tail domain is 20+/−5 nucleotides in length.

In an embodiment, the tail domain is 20+/−10, 30+/−10, 40+/−10, 50+/−10,60+/−10, 70+/−10, 80+/−10, 90+/−10, or 100+/−10 nucleotides, in length.

In an embodiment, the tail domain is 25+/−10 nucleotides in length.

In an embodiment, the tail domain is 10 to 100, 10 to 90, 10 to 80, 10to 70, 10 to 60, 10 to 50, 10 to 40, 10 to 30, 10 to 20 or 10 to 15nucleotides in length.

In other embodiments, the tail domain is 20 to 100, 20 to 90, 20 to 80,20 to 70, 20 to 60, 20 to 50, 20 to 40, 20 to 30, or 20 to 25nucleotides in length.

In an embodiment, the tail domain is 1 to 20, 1 to 15, 1 to 10, or 1 to5 nucleotides in length.

In an embodiment, the tail domain nucleotides do not comprisemodifications, e.g., modifications of the type provided in Section VIII.However, in an embodiment, the tail domain comprises one or moremodifications, e.g., modifications that it render it less susceptible todegradation or more bio-compatible, e.g., less immunogenic. By way ofexample, the backbone of the tail domain can be modified with aphosphorothioate, or other modification(s) from Section VIII. In anembodiment a nucleotide of the tail domain can comprise a 2′modification, e.g., a 2-acetylation, e.g., a 2′ methylation, or othermodification(s) from Section VIII.

In some embodiments, the tail domain can have as many as 1, 2, 3, 4, 5,6, 7 or 8 modifications. In an embodiment, the target domain comprisesas many as 1, 2, 3, or 4 modifications within 5 nucleotides of its 5′end. In an embodiment, the target domain comprises as many as 1, 2, 3,or 4 modifications within 5 nucleotides of its 3′ end.

In an embodiment, the tail domain comprises a tail duplex domain, whichcan form a tail duplexed region. In an embodiment, the tail duplexedregion can be 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12 base pairs in length.In an embodiment, a further single stranded domain, exists 3′ to thetail duplexed domain. In an embodiment, this domain is 3, 4, 5, 6, 7, 8,9, or 10 nucleotides in length. In an embodiment it is 4 to 6nucleotides in length.

In an embodiment, the tail domain has at least 60, 70, 80, or 90%homology with, or differs by no more than 1, 2, 3, 4, 5, or 6nucleotides from, a reference tail domain, e.g., a naturally occurring,e.g., an S. pyogenes, S. aureus or S. thermophilus, tail domain, or atail domain described herein, e.g., from FIGS. 1A-1G.

In an embodiment, the proximal and tail domain, taken together, comprisethe following sequences:

(SEQ ID NO: 33) AAGGCUAGUCCGUUAUCAACUUGAAAAAGUGGCACCGAGUCGGUGCU,  or(SEQ ID NO: 34) AAGGCUAGUCCGUUAUCAACUUGAAAAAGUGGCACCGAGUCGGUGGU GC, or(SEQ ID NO: 35)  AAGGCUAGUCCGUUAUCAACUUGAAAAAGUGGCACCGAGUCGGUGCG  GAUC,or (SEQ ID NO: 36)  AAGGCUAGUCCGUUAUCAACUUGAAAAAGUG,  or (SEQ ID NO: 37)AAGGCUAGUCCGUUAUCA,  or (SEQ ID NO: 38) AAGGCUAGUCCG.

In an embodiment, the tail domain comprises the 3′ sequence UUUUUU,e.g., if a U6 promoter is used for transcription.

In an embodiment, the tail domain comprises the 3′ sequence UUUU, e.g.,if an H1 promoter is used for transcription.

In an embodiment, tail domain comprises variable numbers of 3′ Usdepending, e.g., on the termination signal of the pol-III promoter used.

In an embodiment, the tail domain comprises variable 3′ sequence derivedfrom the DNA template if a T7 promoter is used.

In an embodiment, the tail domain comprises variable 3′ sequence derivedfrom the DNA template, e.g., if in vitro transcription is used togenerate the RNA molecule.

In an embodiment, the tail domain comprises variable 3′ sequence derivedfrom the DNA template, e., if a pol-II promoter is used to drivetranscription.

Modifications in the tail domain can be selected so as to not interferewith targeting efficacy, which can be evaluated by testing a candidatemodification in the system described in Section IV. gRNAs having acandidate tail domain having a selected length, sequence, degree ofcomplementarity, or degree of modification, can be evaluated in thesystem described in Section IV. The candidate tail domain can be placed,either alone, or with one or more other candidate changes in a gRNAmolecule/Cas9 molecule system known to be functional with a selectedtarget and evaluated.

In an embodiment, the tail domain comprises modifications at twoconsecutive nucleotides, e.g., two consecutive nucleotides that arewithin 5 nucleotides of the 5′ end of the tail domain, within 5nucleotides of the 3′ end of the tail domain, or more than 5 nucleotidesaway from one or both ends of the tail domain. In an embodiment, no twoconsecutive nucleotides are modified within 5 nucleotides of the 5′ endof the tail domain, within 5 nucleotides of the 3′ end of the taildomain, or within a region that is more than 5 nucleotides away from oneor both ends of the tail domain. In an embodiment, no nucleotide ismodified within 5 nucleotides of the 5′ end of the tail domain, within 5nucleotides of the 3′ end of the tail domain, or within a region that ismore than 5 nucleotides away from one or both ends of the tail domain.

In an embodiment a gRNA has the following structure:

-   -   5′ [targeting domain]-[first complementarity domain]-[linking        domain]-[second complementarity domain]-[proximal domain]-[tail        domain]-3′    -   wherein, the targeting domain comprises a core domain and        optionally a secondary domain, and is 10 to 50 nucleotides in        length;    -   the first complementarity domain is 5 to 25 nucleotides in        length and, In an embodiment has at least 50, 60, 70, 80, 85, 90        or 95% homology with a reference first complementarity domain        disclosed herein;    -   the linking domain is 1 to 5 nucleotides in length;    -   the second complementarity domain is 5 to 27 nucleotides in        length and, in an embodiment has at least 50, 60, 70, 80, 85, 90        or 95% homology with a reference second complementarity domain        disclosed herein;    -   the proximal domain is 5 to 20 nucleotides in length and, in an        embodiment has at least 50, 60, 70, 80, 85, 90 or 95% homology        with a reference proximal domain disclosed herein; and    -   the tail domain is absent or a nucleotide sequence is 1 to 50        nucleotides in length and, in an embodiment has at least 50, 60,        70, 80, 85, 90 or 95% homology with a reference tail domain        disclosed herein.

Exemplary Chimeric gRNAs

In an embodiment, a unimolecular, or chimeric, gRNA comprises,preferably from 5′ to 3′:

-   -   a targeting domain (which is complementary to a target nucleic        acid);    -   a first complementarity domain, e.g., comprising 15, 16, 17, 18,        19, 20, 21, 22, 23, 24, 25, or 26 nucleotides;    -   a linking domain;    -   a second complementarity domain (which is complementary to the        first complementarity domain);    -   a proximal domain; and    -   a tail domain,    -   wherein,    -   (a) the proximal and tail domain, when taken together, comprise        at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53        nucleotides;    -   (b) there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,        50, or 53 nucleotides 3′ to the last nucleotide of the second        complementarity domain; or    -   (c) there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,        51, or 54 nucleotides 3′ to the last nucleotide of the second        complementarity domain that is complementary to its        corresponding nucleotide of the first complementarity domain.

In an embodiment, the sequence from (a), (b), or (c), has at least 60,75, 80, 85, 90, 95, or 99% homology with the corresponding sequence of anaturally occurring gRNA, or with a gRNA described herein.

In an embodiment, the proximal and tail domain, when taken together,comprise at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53nucleotides.

In an embodiment, there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45,49, 50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46,50, 51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides (e.g., 16, 17,18, 19, 20, 21, 22, 23, 24, 25 or 26 consecutive nucleotides) havingcomplementarity with the target domain, e.g., the targeting domain is16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, the targeting domain comprises, has, or consists of,16 nucleotides (e.g., 16 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 16 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,17 nucleotides (e.g., 17 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 17 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,18 nucleotides (e.g., 18 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 18 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,19 nucleotides (e.g., 19 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 19 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,20 nucleotides (e.g., 20 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 20 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,21 nucleotides (e.g., 21 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 21 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,22 nucleotides (e.g., 22 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 22 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,23 nucleotides (e.g., 23 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 23 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,24 nucleotides (e.g., 24 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 24 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,25 nucleotides (e.g., 25 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 25 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,26 nucleotides (e.g., 26 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 26 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,16 nucleotides (e.g., 16 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 16 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,16 nucleotides (e.g., 16 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 16 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,16 nucleotides (e.g., 16 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 16 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,17 nucleotides (e.g., 17 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 17 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,17 nucleotides (e.g., 17 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 17 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,17 nucleotides (e.g., 17 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 17 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,18 nucleotides (e.g., 18 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 18 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,18 nucleotides (e.g., 18 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 18 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,18 nucleotides (e.g., 18 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 18 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,19 nucleotides (e.g., 19 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 19 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,19 nucleotides (e.g., 19 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 19 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,19 nucleotides (e.g., 19 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 19 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,20 nucleotides (e.g., 20 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 20 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,20 nucleotides (e.g., 20 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 20 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,20 nucleotides (e.g., 20 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 20 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,21 nucleotides (e.g., 21 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 21 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,21 nucleotides (e.g., 21 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 21 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,21 nucleotides (e.g., 21 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 21 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,22 nucleotides (e.g., 22 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 22 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,22 nucleotides (e.g., 22 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 22 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,22 nucleotides (e.g., 22 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 22 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,23 nucleotides (e.g., 23 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 23 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,23 nucleotides (e.g., 23 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 23 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,23 nucleotides (e.g., 23 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 23 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,24 nucleotides (e.g., 24 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 24 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,24 nucleotides (e.g., 24 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 24 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,24 nucleotides (e.g., 24 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 24 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,25 nucleotides (e.g., 25 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 25 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,25 nucleotides (e.g., 25 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 25 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,25 nucleotides (e.g., 25 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 25 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,26 nucleotides (e.g., 26 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 26 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,26 nucleotides (e.g., 26 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 26 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,26 nucleotides (e.g., 26 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 26 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the unimolecular, or chimeric, gRNA molecule(comprising a targeting domain, a first complementary domain, a linkingdomain, a second complementary domain, a proximal domain and,optionally, a tail domain) comprises the following sequence in which thetargeting domain is depicted as 20 Ns but could be any sequence andrange in length from 16 to 26 nucleotides and in which the gRNA sequenceis followed by 6 Us, which serve as a termination signal for the U6promoter, but which could be either absent or fewer in number:NNNNNNNNNNNNNNNNNNNNGUUUUAGAGCUAGAAAUAGCAAGUUAAAAUAAGGCUAGUCCGUUAUCAACUUGAAAAAGUGGCACCGAGUCGGUGCUUUUUU (SEQ ID NO: 45). In anembodiment, the unimolecular, or chimeric, gRNA molecule is a S.pyogenes gRNA molecule.

In some embodiments, the unimolecular, or chimeric, gRNA molecule(comprising a targeting domain, a first complementary domain, a linkingdomain, a second complementary domain, a proximal domain and,optionally, a tail domain) comprises the following sequence in which thetargeting domain is depicted as 20 Ns but could be any sequence andrange in length from 16 to 26 nucleotides and in which the gRNA sequenceis followed by 6 Us, which serve as a termination signal for the U6promoter, but which could be either absent or fewer in number:NNNNNNNNNNNNNNNNNNNNGUUUUAGUACUCUGGAAACAGAAUCUACUAAAACAAGGCAAAAUGCCGUGUUUAUCUCGUCAACUUGUUGGCGAGAUUUUUU (SEQ ID NO: 40). In anembodiment, the unimolecular, or chimeric, gRNA molecule is a S. aureusgRNA molecule.

Exemplary Modular gRNAs

In an embodiment, a modular gRNA comprises:

-   -   a first strand comprising, preferably from 5′ to 3′;        -   a targeting domain, e.g., comprising 15, 16, 17, 18, 19, 20,            21, 22, 23, 24, 25, or 26 nucleotides;        -   a first complementarity domain; and        -   a second strand, comprising, preferably from 5′ to 3′:        -   optionally a 5′ extension domain;        -   a second complementarity domain;        -   a proximal domain; and        -   a tail domain,    -   wherein:    -   (a) the proximal and tail domain, when taken together, comprise        at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53        nucleotides;    -   (b) there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,        50, or 53 nucleotides 3′ to the last nucleotide of the second        complementarity domain; or    -   (c) there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,        51, or 54 nucleotides 3′ to the last nucleotide of the second        complementarity domain that is complementary to its        corresponding nucleotide of the first complementarity domain.

In an embodiment, the sequence from (a), (b), or (c), has at least 60,75, 80, 85, 90, 95, or 99% homology with the corresponding sequence of anaturally occurring gRNA, or with a gRNA described herein.

In an embodiment, the proximal and tail domain, when taken together,comprise at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53nucleotides.

In an embodiment, there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45,49, 50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46,50, 51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides (e.g., 16, 17,18, 19, 20, 21, 22, 23, 24, 25 or 26 consecutive nucleotides) havingcomplementarity with the target domain, e.g., the targeting domain is16, 17, 18, 19, 20, 21, 22, 23, 24, 25 or 26 nucleotides in length.

In an embodiment, the targeting domain comprises, has, or consists of,16 nucleotides (e.g., 16 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 16 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,17 nucleotides (e.g., 17 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 17 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,18 nucleotides (e.g., 18 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 18 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,19 nucleotides (e.g., 19 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 19 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,20 nucleotides (e.g., 20 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 20 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,21 nucleotides (e.g., 21 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 21 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,22 nucleotides (e.g., 22 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 22 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,23 nucleotides (e.g., 23 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 23 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,24 nucleotides (e.g., 24 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 24 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,25 nucleotides (e.g., 25 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 25 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,26 nucleotides (e.g., 26 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 26 nucleotides inlength.

In an embodiment, the targeting domain comprises, has, or consists of,16 nucleotides (e.g., 16 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 16 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,16 nucleotides (e.g., 16 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 16 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,16 nucleotides (e.g., 16 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 16 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,17 nucleotides (e.g., 17 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 17 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,17 nucleotides (e.g., 17 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 17 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,17 nucleotides (e.g., 17 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 17 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,18 nucleotides (e.g., 18 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 18 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,18 nucleotides (e.g., 18 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 18 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,18 nucleotides (e.g., 18 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 18 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,19 nucleotides (e.g., 19 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 19 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,19 nucleotides (e.g., 19 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 19 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,19 nucleotides (e.g., 19 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 19 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,20 nucleotides (e.g., 20 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 20 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,20 nucleotides (e.g., 20 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 20 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,20 nucleotides (e.g., 20 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 20 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,21 nucleotides (e.g., 21 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 21 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,21 nucleotides (e.g., 21 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 21 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,21 nucleotides (e.g., 21 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 21 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,22 nucleotides (e.g., 22 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 22 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,22 nucleotides (e.g., 22 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 22 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,22 nucleotides (e.g., 22 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 22 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,23 nucleotides (e.g., 23 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 23 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,23 nucleotides (e.g., 23 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 23 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,23 nucleotides (e.g., 23 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 23 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,24 nucleotides (e.g., 24 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 24 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,24 nucleotides (e.g., 24 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 24 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,24 nucleotides (e.g., 24 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 24 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,25 nucleotides (e.g., 25 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 25 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,25 nucleotides (e.g., 25 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 25 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,25 nucleotides (e.g., 25 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 25 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,26 nucleotides (e.g., 26 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 26 nucleotides inlength; and the proximal and tail domain, when taken together, compriseat least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides.

In an embodiment, the targeting domain comprises, has, or consists of,26 nucleotides (e.g., 26 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 26 nucleotides inlength; and there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,50, or 53 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain.

In an embodiment, the targeting domain comprises, has, or consists of,26 nucleotides (e.g., 26 consecutive nucleotides) having complementaritywith the target domain, e.g., the targeting domain is 26 nucleotides inlength; and there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46, 50,51, or 54 nucleotides 3′ to the last nucleotide of the secondcomplementarity domain that is complementary to its correspondingnucleotide of the first complementarity domain.

II. Methods for Designing gRNAs

Methods for designing gRNAs are described herein, including methods forselecting, designing and validating target domains. Exemplary targetingdomains are also provided herein. Targeting Domains discussed herein canbe incorporated into the gRNAs described herein.

Methods for selection and validation of target sequences as well asoff-target analyses are described, e.g., in Mali et al., 2013 SCIENCE339(6121): 823-826; Hsu et al. NAT BIOTECHNOL, 31(9): 827-32; Fu et al.,2014 NAT BIOTECHNOL, doi: 10.1038/nbt.2808. PubMed PMID: 24463574;Heigwer et al., 2014 NAT METHODS 11(2):122-3. doi: 10.1038/nmeth.2812.PubMed PMID: 24481216; Bae et al., 2014 BIOINFORMATICS PubMed PMID:24463181; Xiao A et al., 2014 BIOINFORMATICS PubMed PMID: 24389662.

For example, a software tool can be used to optimize the choice of gRNAwithin a user's target sequence, e.g., to minimize total off-targetactivity across the genome. Off target activity may be other thancleavage. For each possible gRNA choice using S. pyogenes Cas9, the toolcan identify all off-target sequences (preceding either NAG or NGG PAMs)across the genome that contain up to certain number (e.g., 1, 2, 3, 4,5, 6, 7, 8, 9, or 10) of mismatched base-pairs. The cleavage efficiencyat each off-target sequence can be predicted, e.g., using anexperimentally-derived weighting scheme. Each possible gRNA is thenranked according to its total predicted off-target cleavage; thetop-ranked gRNAs represent those that are likely to have the greateston-target and the least off-target cleavage. Other functions, e.g.,automated reagent design for CRISPR construction, primer design for theon-target Surveyor assay, and primer design for high-throughputdetection and quantification of off-target cleavage via next-gensequencing, can also be included in the tool. Candidate gRNA moleculescan be evaluated by art-known methods or as described in Section IVherein.

The Targeting Domains discussed herein can be incorporated into thegRNAs described herein.

Strategies to Identify gRNAs for S. pyogenes, S. aureus, and N.meningitidis to Knock Out the SCNN1A Gene

As an example, three strategies were utilized to identify gRNAs for usewith S. pyogenes, S. aureus and N. meningitidis Cas9 enzymes.

In the first strategy, guide RNAs (gRNAs) for use with the S. pyogenesCas9 (Tables 3A-3C) were identified using the publically availableweb-based ZiFiT server (Fu et al., Improving CRISPR-Cas nucleasespecificity using truncated guide RNAs. Nat Biotechnol. 2014 Jan. 26.doi: 10.1038/nbt.2808. PubMed PMID: 24463574, for the originalreferences see Sander et al., 2007, NAR 35:W599-605; Sander et al.,2010, NAR 38: W462-8). In addition to identifying potential gRNA sitesadjacent to PAM sequences, the software also identifies all PAM adjacentsequences that differ by 1, 2, 3 or more nucleotides from the selectedgRNA sites. Genomic DNA sequence for each gene was obtained from theUCSC Genome browser and sequences were screened for repeat elementsusing the publically available Repeat-Masker program. RepeatMmaskersearches input DNA sequences for repeated elements and regions of lowcomplexity. The output is a detailed annotation of the repeats presentin a given query sequence. Following identification, gRNAs for use witha S. pyogenes Cas9 were ranked into 3 or 4 tiers, as described below.

The gRNAs in tier 1 were selected based on their distance to the targetsite and their orthogonality in the genome (based on the ZiFiTidentification of close matches in the human genome containing an NGGPAM). As an example, for all targets, both 17-mer and 20-mer gRNAs weredesigned. gRNAs were also selected both for single-gRNA nuclease cuttingand for the dual gRNA nickase strategy. Criteria for selecting gRNAs andthe determination for which gRNAs can be used for which strategy isbased on several considerations:

-   -   1. For the dual nickase strategy, gRNA pairs should be oriented        on the DNA such that PAMs are facing out and cutting with the        D10A Cas9 nickase will result in 5′ overhangs.    -   2. An assumption that cleaving with dual nickase pairs will        result in deletion of the entire intervening sequence at a        reasonable frequency. However, it will also often result in        indel mutations at the site of only one of the gRNAs. Candidate        pair members can be tested for how efficiently they remove the        entire sequence versus just causing indel mutations at the site        of one gRNA.

While it can be desirable to have gRNAs start with a 5′ G, thisrequirement was relaxed for some gRNAs in tier 1 in order to identifyguides in the correct orientation, within a reasonable distance to themutation and with a high level of orthogonality. In order to find a pairfor the dual-nickase strategy it was necessary to either extend thedistance from the mutation or remove the requirement for the 5′G. Forselection of tier 2 gRNAs, the distance restriction was relaxed in somecases such that a longer sequence was scanned, but the 5′G was requiredfor all gRNAs. Whether or not the distance requirement was relaxeddepended on how many sites were found within the original search window.Tier 3 uses the same distance restriction as tier 2, but removes therequirement for a 5′G. Note that tiers are non-inclusive (each gRNA islisted only once).

As discussed above, gRNAs were identified for single-gRNA nucleasecleavage as well as for a dual-gRNA paired “nickase” strategy, asindicated.

gRNAs for use with the S. aureus (Tables 3D) Cas9s were identifiedmanually by scanning genomic DNA sequence for the presence of PAMsequences. These gRNAs were not separated into tiers, but are providedin single lists for each species.

In a second strategy, Guide RNAs (gRNAs) for use with S. pyogenes, S.aureus and N. meningitidis Cas9s were identified using a DNA sequencesearching algorithm. Guide RNA design was carried out using a customguide RNA design software based on the public tool cas-offinder(reference:Cas-OFFinder: a fast and versatile algorithm that searchesfor potential off-target sites of Cas9 RNA-guided endonucleases,Bioinformatics. 2014 Feb. 17. Bae S, Park J, Kim J S. PMID:24463181).Said custom guide RNA design software scores guides after calculatingtheir genomewide off-target propensity. Typically matches ranging fromperfect matches to 7 mismatches are considered for guides ranging inlength from 17 to 24. Once the off-target sites are computationallydetermined, an aggregate score is calculated for each guide andsummarized in a tabular output using a web-interface. In addition toidentifying potential gRNA sites adjacent to PAM sequences, the softwarealso identifies all PAM adjacent sequences that differ by 1, 2, 3 ormore nucleotides from the selected gRNA sites. Genomic DNA sequence foreach gene was obtained from the UCSC Genome browser and sequences werescreened for repeat elements using the publically available RepeatMaskerprogram. RepeatMasker searches input DNA sequences for repeated elementsand regions of low complexity. The output is a detailed annotation ofthe repeats present in a given query sequence.

Following identification, gRNAs were ranked into tiers based on theirdistance to the target site, their orthogonality and presence of a 5′ G(based on identification of close matches in the human genome containinga relevant PAM (e.g., in the case of S. pyogenes, a NGG PAM, in the caseof S. aureus, a NNGRRT or NNGRRV PAM, and in the case of N.meningitidis, a NNNNGATT or NNNNGCTT PAM). Orthogonality refers to thenumber of sequences in the human genome that contain a minimum number ofmismatches to the target sequence. A “high level of orthogonality” or“good orthogonality” may, for example, refer to 20-mer gRNAs that haveno identical sequences in the human genome besides the intended target,nor any sequences that contain one or two mismatches in the targetsequence. Targeting domains with good orthogonality are selected tominimize off-target DNA cleavage.

As an example, for S. pyogenes and N. meningitidis targets, 17-mer, or20-mer gRNAs were designed. As another example, for S. aureus targets,18-mer, 19-mer, 20-mer, 21-mer, 22-mer, 23-mer and 24-mer gRNAs weredesigned. Targeting domains, disclosed herein, may comprise the 17-merdescribed in Tables 43A-43E, 44A-44G or 45A-45E, e.g., the targetingdomains of 18 or more nucleotides may comprise the 17-mer gRNAsdescribed in Tables 43A-43E, 44A-44G or 45A-45E. Targeting domains,disclosed herein, may comprises the 18-mer described in Tables 43A-43E,44A-44G or 45A-45E, e.g., the targeting domains of 19 or morenucleotides may comprise the 18-mer gRNAs described in Tables 43A-43E,44A-44G or 45A-45E. Targeting domains, disclosed herein, may comprisesthe 19-mer described in Tables 43A-43E, 44A-44G or 45A-45E, e.g., thetargeting domains of 20 or more nucleotides may comprise the 19-mergRNAs described in Tables 43A-43E, 44A-44G or 45A-45E. Targetingdomains, disclosed herein, may comprises the 20-mer gRNAs described inTables 43A-43E, 44A-44G or 45A-45E, e.g., the targeting domains of 21 ormore nucleotides may comprise the 20-mer gRNAs described in Tables43A-43E, 44A-44G or 45A-45E. Targeting domains, disclosed herein, maycomprises the 21-mer described in Tables 43A-43E, 44A-44G or 45A-45E,e.g., the targeting domains of 22 or more nucleotides may comprise the21-mer gRNAs described in Tables 43A-43E, 44A-44G or 45A-45E. Targetingdomains, disclosed herein, may comprises the 22-mer described in Tables43A-43E, 44A-44G or 45A-45E, e.g., the targeting domains of 23 or morenucleotides may comprise the 22-mer gRNAs described in Tables 43A-43E,44A-44G or 45A-45E. Targeting domains, disclosed herein, may comprisesthe 23-mer described in Tables 43A-43E, 44A-44G or 45A-45E, e.g., thetargeting domains of 24 or more nucleotides may comprise the 23-mergRNAs described in Tables 43A-43E, 44A-44G or 45A-45E. Targetingdomains, disclosed herein, may comprises the 24-mer described in Tables43A-43E, 44A-44G or 45A-45E, e.g., the targeting domains of 25 or morenucleotides may comprise the 24-mer gRNAs described in Tables 43A-43E,44A-44G or 45A-45E. gRNAs were identified for both single-gRNA nucleasecleavage and for a dual-gRNA paired “nickase” strategy. Criteria forselecting gRNAs and the determination for which gRNAs can be used forthe dual-gRNA paired “nickase” strategy is based on two considerations:

-   -   1. gRNA pairs should be oriented on the DNA such that PAMs are        facing out and cutting with the D10A Cas9 nickase will result in        5′ overhangs.    -   2. An assumption that cleaving with dual nickase pairs will        result in deletion of the entire intervening sequence at a        reasonable frequency. However, cleaving with dual nickase pairs        can also result in indel mutations at the site of only one of        the gRNAs. Candidate pair members can be tested for how        efficiently they remove the entire sequence versus causing indel        mutations at the site of one gRNA.        The targeting domains discussed herein can be incorporated into        the gRNAs described herein.

gRNAs were identified and ranked into 5 tiers for S. pyogenes (Tables43A-43E), and N. meningitidis (Tables 45A-45E); and 7 tiers for S.aureus (Tables 44A-44G). For S. pyogenes, and N. meningitidis, thetargeting domain for tier 1 gRNA molecules were selected based on (1)distance to a target site (e.g., start codon), e.g., within 500 bp(e.g., downstream) of the target site (e.g., start codon), (2) a highlevel of orthogonality and (3) the presence of 5′G. The targeting domainfor tier 2 gRNA molecules were selected based on (1) distance to atarget site (e.g., start codon), e.g., within 500 bp (e.g., downstream)of the target site (e.g., start codon) and (2) a high level oforthogonality. The targeting domain for tier 3 gRNA molecules wereselected based on (1) distance to a target site (e.g., start codon),e.g., within 500 bp (e.g., downstream) of the target site (e.g., startcodon) and (2) the presence of 5′G. The targeting domain for tier 4 gRNAmolecules were selected based on distance to a target site (e.g., startcodon), e.g., within 500 bp (e.g., downstream) of the target site (e.g.,start codon). The targeting domain for tier 5 gRNA molecules wereselected based on distance to the target site (e.g., start codon), e.g.,within reminder of the coding sequence, e.g., downstream of the first500 bp of coding sequence (e.g., anywhere from +500 (relative to thestart codon) to the stop codon). For S. aureus, the targeting domain fortier 1 gRNA molecules were selected based on (1) distance to a targetsite (e.g., start codon), e.g., within 500 bp (e.g., downstream) of thetarget site (e.g., start codon), (2) a high level of orthogonality, (3)the presence of 5′G and (4) PAM is NNGRRT. The targeting domain for tier2 gRNA molecules were selected based on (1) distance to a target site(e.g., start codon), e.g., within 500 bp (e.g., downstream) of thetarget site (e.g., start codon), (2) a high level of orthogonality, and(3) PAM is NNGRRT. The targeting domain for tier 3 gRNA molecules wereselected based on (1) distance to a target site (e.g., start codon),e.g., within 500 bp (e.g., downstream) of the target site (e.g., startcodon) and (2) PAM is NNGRRT. The targeting domain for tier 4 gRNAmolecules were selected based on (1) distance to a target site (e.g.,start codon), e.g., within 500 bp (e.g., downstream) of the target site(e.g., start codon) and (2) PAM is NNGRRV. The targeting domain for tier5 gRNA molecules were selected based on (1) distance to the target site(e.g., start codon), e.g., within reminder of the coding sequence, e.g.,downstream of the first 500 bp of coding sequence (e.g., anywhere from+500 (relative to the start codon) to the stop codon), (2) the presenceof 5′G and (3) PAM is NNGRRT. The targeting domain for tier 6 gRNAmolecules were selected based on (1) distance to the target site (e.g.,start codon), e.g., within reminder of the coding sequence, e.g.,downstream of the first 500 bp of coding sequence (e.g., anywhere from+500 (relative to the start codon) to the stop codon) and (2) PAM isNNGRRT. The targeting domain for tier 7 gRNA molecules were selectedbased on (1) distance to the target site (e.g., start codon), e.g.,within reminder of the coding sequence, e.g., downstream of the first500 bp of coding sequence (e.g., anywhere from +500 (relative to thestart codon) to the stop codon) and (2) PAM is NNGRRV. Note that tiersare non-inclusive (each gRNA is listed only once for the strategy). Incertain instances, no gRNA was identified based on the criteria of theparticular tier.

Strategies to Identify gRNAs for S. pyogenes, S. aureus, and N.meningitidis to Knock Down the SCNN1A Gene

As an example, three strategies were utilized to identify gRNAs for usewith S. pyogenes, S. aureus and N. meningitidis Cas9 enzymes.

Guide RNAs (gRNAs) for use with S. pyogenes, S. aureus and N.meningitidis Cas9s were identified using a DNA sequence searchingalgorithm. Guide RNA design was carried out using a custom guide RNAdesign software based on the public tool cas-offinder(reference:Cas-OFFinder: a fast and versatile algorithm that searchesfor potential off-target sites of Cas9 RNA-guided endonucleases,Bioinformatics. 2014 Feb. 17. Bae S, Park J, Kim J S. PMID:24463181).Said custom guide RNA design software scores guides after calculatingtheir genomewide off-target propensity. Typically matches ranging fromperfect matches to 7 mismatches are considered for guides ranging inlength from 17 to 24. Once the off-target sites are computationallydetermined, an aggregate score is calculated for each guide andsummarized in a tabular output using a web-interface. In addition toidentifying potential gRNA sites adjacent to PAM sequences, the softwarealso identifies all PAM adjacent sequences that differ by 1, 2, 3 ormore nucleotides from the selected gRNA sites. Genomic DNA sequence foreach gene was obtained from the UCSC Genome browser and sequences werescreened for repeat elements using the publically available RepeatMaskerprogram. RepeatMasker searches input DNA sequences for repeated elementsand regions of low complexity. The output is a detailed annotation ofthe repeats present in a given query sequence.

Following identification, gRNAs were ranked into tiers based on theirdistance to the target site, their orthogonality and presence of a 5′ G(based on identification of close matches in the human genome containinga relevant PAM (e.g., in the case of S. pyogenes, a NGG PAM, in the caseof S. aureus, a NNGRRT or NNGRRV PAM, and in the case of N.meningitidis, a NNNNGATT or NNNNGCTT PAM). Orthogonality refers to thenumber of sequences in the human genome that contain a minimum number ofmismatches to the target sequence. A “high level of orthogonality” or“good orthogonality” may, for example, refer to 20-mer gRNAs that haveno identical sequences in the human genome besides the intended target,nor any sequences that contain one or two mismatches in the targetsequence. Targeting domains with good orthogonality are selected tominimize off-target DNA cleavage.

As an example, for S. pyogenes and N. meningitidis targets, 17-mer, or20-mer gRNAs were designed. As another example, for S. aureus targets,18-mer, 19-mer, 20-mer, 21-mer, 22-mer, 23-mer and 24-mer gRNAs weredesigned. Targeting domains, disclosed herein, may comprise the 17-merdescribed in Tables 46A-46E, 47A-47G or 48A-48E, e.g., the targetingdomains of 18 or more nucleotides may comprise the 17-mer gRNAsdescribed in Tables 46A-46E, 47A-47G or 48A-48E. Targeting domains,disclosed herein, may comprises the 18-mer described in Tables 46A-46E,47A-47G or 48A-48E, e.g., the targeting domains of 19 or morenucleotides may comprise the 18-mer gRNAs described in Tables 46A-46E,47A-47G or 48A-48E. Targeting domains, disclosed herein, may comprisesthe 19-mer described in Tables 46A-46E, 47A-47G or 48A-48E, e.g., thetargeting domains of 20 or more nucleotides may comprise the 19-mergRNAs described in Tables 46A-46E, 47A-47G or 48A-48E. Targetingdomains, disclosed herein, may comprises the 20-mer gRNAs described inTables 46A-46E, 47A-47G or 48A-48E, e.g., the targeting domains of 21 ormore nucleotides may comprise the 20-mer gRNAs described in Tables46A-46E, 47A-47G or 48A-48E. Targeting domains, disclosed herein, maycomprises the 21-mer described in Tables 46A-46E, 47A-47G or 48A-48E,e.g., the targeting domains of 22 or more nucleotides may comprise the21-mer gRNAs described in Tables 46A-46E, 47A-47G or 48A-48E. Targetingdomains, disclosed herein, may comprises the 22-mer described in Tables46A-46E, 47A-47G or 48A-48E, e.g., the targeting domains of 23 or morenucleotides may comprise the 22-mer gRNAs described in Tables 46A-46E,47A-47G or 48A-48E. Targeting domains, disclosed herein, may comprisesthe 23-mer described in Tables 46A-46E, 47A-47G or 48A-48E, e.g., thetargeting domains of 24 or more nucleotides may comprise the 23-mergRNAs described in Tables 46A-46E, 47A-47G or 48A-48E. Targetingdomains, disclosed herein, may comprises the 24-mer described in Tables46A-46E, 47A-47G or 48A-48E, e.g., the targeting domains of 25 or morenucleotides may comprise the 24-mer gRNAs described in Tables 46A-46E,47A-47G or 48A-48E.

The targeting domains discussed herein can be incorporated into thegRNAs described herein.

gRNAs were identified and ranked into 5 tiers for S. pyogenes (Tables46A-46E), and N. meningitidis (Tables 48A-48E); and 7 tiers for S.aureus (Tables 47A-47G). For S. pyogenes, and N. meningitidis, thetargeting domain for tier 1 gRNA molecules were selected based on (1)distance to a target site, e.g., within 500 bp (e.g., upstream ordownstream) of a transcription start site (TSS), (2) a high level oforthogonality and (3) the presence of 5′G. The targeting domain for tier2 gRNA molecules were selected based on (1) distance to a target site,e.g., within 500 bp (e.g., upstream or downstream) of a transcriptionstart site (TSS) and (2) a high level of orthogonality. The targetingdomain for tier 3 gRNA molecules were selected based on (1) distance toa target site, e.g., within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS) and (2) the presence of 5′G. Thetargeting domain for tier 4 gRNA molecules were selected based ondistance to a target site, e.g., within 500 bp (e.g., upstream ordownstream) of a transcription start site (TSS). The targeting domainfor tier 5 gRNA molecules were selected based on distance to the targetsite, e.g., within the additional 500 bp (e.g., upstream or downstream)of a transcription start site (TSS), e.g., extending to 1 kb upstreamand downstream of a TSS. For S. aureus, the targeting domain for tier 1gRNA molecules were selected based on (1) distance to a target site,e.g., within 500 bp (e.g., upstream or downstream) of a transcriptionstart site (TSS), (2) a high level of orthogonality, (3) the presence of5′G and (4) PAM is NNGRRT. The targeting domain for tier 2 gRNAmolecules were selected based on (1) distance to a target site, e.g.,within 500 bp (e.g., upstream or downstream) of a transcription startsite (TSS), (2) a high level of orthogonality, and (3) PAM is NNGRRT.The targeting domain for tier 3 gRNA molecules were selected based on(1) distance to a target site, e.g., within 500 bp (e.g., upstream ordownstream) of a transcription start site (TSS) and (2) PAM is NNGRRT.The targeting domain for tier 4 gRNA molecules were selected based on(1) distance to a target site, e.g., within 500 bp (e.g., upstream ordownstream) of a transcription start site (TSS) and (2) PAM is NNGRRV.The targeting domain for tier 5 gRNA molecules were selected based on(1) distance to the target site, e.g., within the additional 500 bp(e.g., upstream or downstream) of a transcription start site (TSS),e.g., extending to 1 kb upstream and downstream of a TSS, (2) thepresence of 5′G and (3) PAM is NNGRRT. The targeting domain for tier 6gRNA molecules were selected based on (1) distance to the target site,e.g., within the additional 500 bp (e.g., upstream or downstream) of atranscription start site (TSS), e.g., extending to 1 kb upstream anddownstream of a TSS and (2) PAM is NNGRRT. The targeting domain for tier7 gRNA molecules were selected based on (1) distance to the target site,e.g., within the additional 500 bp (e.g., upstream or downstream) of atranscription start site (TSS), e.g., extending to 1 kb upstream anddownstream of a TSS and (2) PAM is NNGRRV. Note that tiers arenon-inclusive (each gRNA is listed only once for the strategy). Incertain instances, no gRNA was identified based on the criteria of theparticular tier.

Strategies to Identify gRNAs for S. pyogenes, S. aureus, and N. ForCorrecting a Mutation (e.g., delF508, G551D, G542X, N1303K, R117H,W1282X, R553X, 2789+5G->A, or 3272-26A->G) in the CFTR Gene

As an example, three strategies were utilized to identify gRNAs for usewith S. pyogenes, S. aureus and N. meningitidis Cas9 enzymes.

In the first strategy, guide RNAs (gRNAs) for use with the S. pyogenesCas9 (Tables 1A-1C or 2A-2C) were identified using the publicallyavailable web-based ZiFiT server (Fu et al., Improving CRISPR-Casnuclease specificity using truncated guide RNAs. Nat Biotechnol. 2014Jan. 26. doi: 10.1038/nbt.2808. PubMed PMID: 24463574, for the originalreferences see Sander et al., 2007, NAR 35:W599-605; Sander et al.,2010, NAR 38: W462-8). In addition to identifying potential gRNA sitesadjacent to PAM sequences, the software also identifies all PAM adjacentsequences that differ by 1, 2, 3 or more nucleotides from the selectedgRNA sites. Genomic DNA sequence for each gene was obtained from theUCSC Genome browser and sequences were screened for repeat elementsusing the publically available Repeat-Masker program. RepeatMaskersearches input DNA sequences for repeated elements and regions of lowcomplexity. The output is a detailed annotation of the repeats presentin a given query sequence. Following identification, gRNAs for use witha S. pyogenes Cas9 were ranked into 3 or 4 tiers, as described below.

The gRNAs in tier 1 were selected based on their distance to the targetsite and their orthogonality in the genome (based on the ZiFiTidentification of close matches in the human genome containing an NGGPAM). As an example, for all targets, both 17-mer and 20-mer gRNAs weredesigned. gRNAs were also selected both for single-gRNA nuclease cuttingand for the dual gRNA nickase strategy. Criteria for selecting gRNAs andthe determination for which gRNAs can be used for which strategy isbased on several considerations:

-   -   3. For the dual nickase strategy, gRNA pairs should be oriented        on the DNA such that PAMs are facing out and cutting with the        D10A Cas9 nickase will result in 5′ overhangs.    -   4. An assumption that cleaving with dual nickase pairs will        result in deletion of the entire intervening sequence at a        reasonable frequency. However, it will also often result in        indel mutations at the site of only one of the gRNAs. Candidate        pair members can be tested for how efficiently they remove the        entire sequence versus just causing indel mutations at the site        of one gRNA.

While it can be desirable to have gRNAs start with a 5′ G, thisrequirement was relaxed for some gRNAs in tier 1 in order to identifyguides in the correct orientation, within a reasonable distance to themutation and with a high level of orthogonality. In order to find a pairfor the dual-nickase strategy it was necessary to either extend thedistance from the mutation or remove the requirement for the 5′G. Forselection of tier 2 gRNAs, the distance restriction was relaxed in somecases such that a longer sequence was scanned, but the 5′G was requiredfor all gRNAs. Whether or not the distance requirement was relaxeddepended on how many sites were found within the original search window.Tier 3 uses the same distance restriction as tier 2, but removes therequirement for a 5′G. Note that tiers are non-inclusive (each gRNA islisted only once).

As discussed above, gRNAs were identified for single-gRNA nucleasecleavage as well as for a dual-gRNA paired “nickase” strategy, asindicated.

gRNAs for use with the N. meningitidis (Tables 1E or 2E) and S. aureus(Tables 1D or 2D) Cas9s were identified manually by scanning genomic DNAsequence for the presence of PAM sequences. These gRNAs were notseparated into tiers, but are provided in single lists for each species.

In a second strategy, Guide RNAs (gRNAs) for use with S. pyogenes, S.aureus and N. meningitidis Cas9s were identified using a DNA sequencesearching algorithm. Guide RNA design was carried out using a customguide RNA design software based on the public tool cas-offinder(reference:Cas-OFFinder: a fast and versatile algorithm that searchesfor potential off-target sites of Cas9 RNA-guided endonucleases,Bioinformatics. 2014 Feb. 17. Bae S, Park J, Kim J S. PMID:24463181).Said custom guide RNA design software scores guides after calculatingtheir genomewide off-target propensity. Typically matches ranging fromperfect matches to 7 mismatches are considered for guides ranging inlength from 17 to 24. Once the off-target sites are computationallydetermined, an aggregate score is calculated for each guide andsummarized in a tabular output using a web-interface. In addition toidentifying potential gRNA sites adjacent to PAM sequences, the softwarealso identifies all PAM adjacent sequences that differ by 1, 2, 3 ormore nucleotides from the selected gRNA sites. Genomic DNA sequence foreach gene was obtained from the UCSC Genome browser and sequences werescreened for repeat elements using the publically available RepeatMaskerprogram. RepeatMasker searches input DNA sequences for repeated elementsand regions of low complexity. The output is a detailed annotation ofthe repeats present in a given query sequence.

Following identification, gRNAs were ranked into tiers based on theirdistance to the target site, their orthogonality and presence of a 5′ G(based on identification of close matches in the human genome containinga relevant PAM (e.g., in the case of S. pyogenes, a NGG PAM, in the caseof S. aureus, a NNGRRT or NNGRRV PAM, and in the case of N.meningitidis, a NNNNGATT or NNNNGCTT PAM). Orthogonality refers to thenumber of sequences in the human genome that contain a minimum number ofmismatches to the target sequence. A “high level of orthogonality” or“good orthogonality” may, for example, refer to 20-mer gRNAs that haveno identical sequences in the human genome besides the intended target,nor any sequences that contain one or two mismatches in the targetsequence. Targeting domains with good orthogonality are selected tominimize off-target DNA cleavage.

As an example, for S. pyogenes and N. meningitidis targets, 17-mer, or20-mer gRNAs were designed. As another example, for S. aureus targets,18-mer, 19-mer, 20-mer, 21-mer, 22-mer, 23-mer and 24-mer gRNAs weredesigned. Targeting domains, disclosed herein, may comprise the 17-merdescribed in Tables 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C,11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D, 17A-17E,18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D,26A-26E, 27A-27D, 28A-28D, 29A-29E, or 30A-30B, e.g., the targetingdomains of 18 or more nucleotides may comprise the 17-mer gRNAsdescribed in Tables 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C,11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D, 17A-17E,18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D,26A-26E, 27A-27D, 28A-28D, 29A-29E, or 30A-30B. Targeting domains,disclosed herein, may comprises the 18-mer described in Tables 4A-4D,5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D,14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E,21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D,29A-29E, or 30A-30B, e.g., the targeting domains of 19 or morenucleotides may comprise the 18-mer gRNAs described in Tables 4A-4D,5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D,14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E,21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D,29A-29E, or 30A-30B. Targeting domains, disclosed herein, may comprisesthe 19-mer described in Tables 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B,10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D,17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D,25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E, or 30A-30B, e.g., thetargeting domains of 20 or more nucleotides may comprise the 19-mergRNAs described in Tables 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B,10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D,17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D,25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E, or 30A-30B. Targetingdomains, disclosed herein, may comprises the 20-mer gRNAs described inTables 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E,12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C,19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E,27A-27D, 28A-28D, 29A-29E, or 30A-30B, e.g., the targeting domains of 21or more nucleotides may comprise the 20-mer gRNAs described in Tables4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C,13A-13D, 14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D,20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D,28A-28D, 29A-29E, or 30A-30B. Targeting domains, disclosed herein, maycomprises the 21-mer described in Tables 4A-4D, 5A-5E, 6A-6C, 7A-7D,8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E,24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E, or 30A-30B, e.g.,the targeting domains of 22 or more nucleotides may comprise the 21-mergRNAs described in Tables 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B,10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D,17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D,25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E, or 30A-30B. Targetingdomains, disclosed herein, may comprises the 22-mer described in Tables4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C,13A-13D, 14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D,20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D,28A-28D, 29A-29E, or 30A-30B, e.g., the targeting domains of 23 or morenucleotides may comprise the 22-mer gRNAs described in Tables 4A-4D,5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D,14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E,21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D,29A-29E, or 30A-30B. Targeting domains, disclosed herein, may comprisesthe 23-mer described in Tables 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B,10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D,17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D,25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E, or 30A-30B, e.g., thetargeting domains of 24 or more nucleotides may comprise the 23-mergRNAs described in Tables 4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B,10A-10C, 11A-11E, 12A-12C, 13A-13D, 14A-14E, 15A-15C, or 16A-16D,17A-17E, 18A-18C, 19A-19D, 20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D,25A-25D, 26A-26E, 27A-27D, 28A-28D, 29A-29E, or 30A-30B. Targetingdomains, disclosed herein, may comprises the 24-mer described in Tables4A-4D, 5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C,13A-13D, 14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D,20A-20E, 21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D,28A-28D, 29A-29E, or 30A-30B, e.g., the targeting domains of 25 or morenucleotides may comprise the 24-mer gRNAs described in Tables 4A-4D,5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D,14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E,21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D,29A-29E, or 30A-30B. gRNAs were identified for both single-gRNA nucleasecleavage and for a dual-gRNA paired “nickase” strategy. Criteria forselecting gRNAs and the determination for which gRNAs can be used forthe dual-gRNA paired “nickase” strategy is based on two considerations:

-   -   1. gRNA pairs should be oriented on the DNA such that PAMs are        facing out and cutting with the D10A Cas9 nickase will result in        5′ overhangs.    -   2. An assumption that cleaving with dual nickase pairs will        result in deletion of the entire intervening sequence at a        reasonable frequency. However, cleaving with dual nickase pairs        can also result in indel mutations at the site of only one of        the gRNAs. Candidate pair members can be tested for how        efficiently they remove the entire sequence versus causing indel        mutations at the site of one gRNA.        The targeting domains discussed herein can be incorporated into        the gRNAs described herein.

In an embodiment, gRNAs were identified and ranked into 4 tiers for S.pyogenes (Tables 4A-4D, 7A-7D, 10A-10C, 13A-13D, 16A-16D, 19A-19D,12A-12D, 22A-22D, 25A-25D or 28A-28D), and N. meningitidis (Tables6A-6C, 9A-9B, 12A-12C, 15A-15C, 18A-18C, 21A-21B, 24A-24D, 27A-27D, or30A-30B); and 5 tiers for S. aureus (Tables 5A-5E, 8A-8E, 11A-11E,14A-14E, 17A-17E, 20A-20E, 23A-23E, 26A-26E, or 29A-29E). For S.pyogenes, and N. meningitidis, the targeting domain or tier 1 gRNAmolecules were selected based on (1) distance to a target site, e.g.,within 200 bp from a mutation (e.g., delF508, G551D, G542X, N1303K,R117H, W1282X, R553X, 2789+5G->A, or 3272-26A->G), (2) a high level oforthogonality and (3) the presence of 5′G. The targeting domain for tier2 gRNA molecules were selected based on (1) distance to a target site,e.g., within 200 bp from a mutation (e.g., delF508, G551D, G542X,N1303K, R117H, W1282X, R553X, 2789+5G->A, or 3272-26A->G) and (2) a highlevel of orthogonality. The targeting domain for tier 3 gRNA moleculeswere selected based on (1) distance to a target site, e.g., within 200bp from a mutation (e.g., delF508, G551D, G542X, N1303K, R117H, W1282X,R553X, 2789+5G->A, or 3272-26A->G) and (2) the presence of 5′G. Thetargeting domain for tier 4 gRNA molecules were selected based ondistance to a target site, e.g., within 200 bp from a mutation (e.g.,delF508, G551D, G542X, N1303K, R117H, W1282X, R553X, 2789+5G->A, or3272-26A->G). For S. aureus, the targeting domain for tier 1 gRNAmolecules were selected based on (1) distance to a target site, e.g.,within 200 bp from a mutation (e.g., delF508, G551D, G542X, N1303K,R117H, W1282X, R553X, 2789+5G->A, or 3272-26A->G), (2) a high level oforthogonality, (3) the presence of 5′G and (4) PAM is NNGRRT. Thetargeting domain for tier 2 gRNA molecules were selected based on (1)distance to a target site, e.g., within 200 bp from a mutation (e.g.,delF508, G551D, G542X, N1303K, R117H, W1282X, R553X, 2789+5G->A, or3272-26A->G), (2) a high level of orthogonality, and (3) PAM is NNGRRT.The targeting domain for tier 3 gRNA molecules were selected based on(1) distance to a target site, e.g., within 200 bp from a mutation(e.g., delF508, G551D, G542X, N1303K, R117H, W1282X, R553X, 2789+5G->A,or 3272-26A->G), (2) the presence of a 5′G and (2) PAM is NNGRRT. Thetargeting domain for tier 4 gRNA molecules were selected based on (1)distance to a target site, e.g., within 200 bp from a mutation (e.g.,delF508, G551D, G542X, N1303K, R117H, W1282X, R553X, 2789+5G->A, or3272-26A->G) and (2) PAM is NNGRRT. The targeting domain for tier 5 gRNAmolecules were selected based on (1) (1) distance to a target site,e.g., within 200 bp from a mutation (e.g., delF508, G551D, G542X,N1303K, R117H, W1282X, R553X, 2789+5G->A, or 3272-26A->G) and (2) PAM isNNGRRV. Note that tiers are non-inclusive (each gRNA is listed only oncefor the strategy). In certain instances, no gRNA was identified based onthe criteria of the particular tier.

Strategies to Identify gRNAs for S. pyogenes, S. aureus, and N.meningitidis for Targeting an Intronic Mutation (e.g., 3849+10kbC->T or3272-26A->G) Regions of the CFTR Gene (e.g., Mediated by NHEJ)

As an example, three strategies were utilized to identify gRNAs for usewith S. pyogenes, S. aureus and N. meningitidis Cas9 enzymes.

Guide RNAs (gRNAs) for use with S. pyogenes, S. aureus and N.meningitidis Cas9s were identified using a DNA sequence searchingalgorithm. Guide RNA design was carried out using a custom guide RNAdesign software based on the public tool cas-offinder(reference:Cas-OFFinder: a fast and versatile algorithm that searchesfor potential off-target sites of Cas9 RNA-guided endonucleases,Bioinformatics. 2014 Feb. 17. Bae S, Park J, Kim J S. PMID:24463181).Said custom guide RNA design software scores guides after calculatingtheir genomewide off-target propensity. Typically matches ranging fromperfect matches to 7 mismatches are considered for guides ranging inlength from 17 to 24. Once the off-target sites are computationallydetermined, an aggregate score is calculated for each guide andsummarized in a tabular output using a web-interface. In addition toidentifying potential gRNA sites adjacent to PAM sequences, the softwarealso identifies all PAM adjacent sequences that differ by 1, 2, 3 ormore nucleotides from the selected gRNA sites. Genomic DNA sequence foreach gene was obtained from the UCSC Genome browser and sequences werescreened for repeat elements using the publically available RepeatMaskerprogram. RepeatMasker searches input DNA sequences for repeated elementsand regions of low complexity. The output is a detailed annotation ofthe repeats present in a given query sequence.

Following identification, gRNAs were ranked into tiers based on theirdistance to the target site, their orthogonality and presence of a 5′ G(based on identification of close matches in the human genome containinga relavant PAM (e.g., in the case of S. pyogenes, a NGG PAM, in the caseof S. aureus, a NNGRRT or NNGRRV PAM, and in the case of N.meningitidis, a NNNNGATT or NNNNGCTT PAM). Orthogonality refers to thenumber of sequences in the human genome that contain a minimum number ofmismatches to the target sequence. A “high level of orthogonality” or“good orthogonality” may, for example, refer to 20-mer gRNAs that haveno identical sequences in the human genome besides the intended target,nor any sequences that contain one or two mismatches in the targetsequence. Targeting domains with good orthogonality are selected tominimize off-target DNA cleavage.

As an example, for S. pyogenes and N. meningitidis targets, 17-mer, or20-mer gRNAs were designed. As another example, for S. aureus targets,18-mer, 19-mer, 20-mer, 21-mer, 22-mer, 23-mer and 24-mer gRNAs weredesigned. Targeting domains, disclosed herein, may comprise the 17-merdescribed in Tables 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D,36A-36D, e.g., the targeting domains of 18 or more nucleotides maycomprise the 17-mer gRNAs described in Tables 31A-31D, 32A-32D, 33A-33B,34A-34D, 35A-35D, 36A-36D. Targeting domains, disclosed herein, maycomprises the 18-mer described in Tables 31A-31D, 32A-32D, 33A-33B,34A-34D, 35A-35D, 36A-36D, e.g., the targeting domains of 19 or morenucleotides may comprise the 18-mer gRNAs described in Tables 31A-31D,32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D. Targeting domains,disclosed herein, may comprises the 19-mer described in Tables 31A-31D,32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D, e.g., the targeting domainsof 20 or more nucleotides may comprise the 19-mer gRNAs described inTables 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D. Targetingdomains, disclosed herein, may comprises the 20-mer gRNAs described inTables 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D, e.g., thetargeting domains of 21 or more nucleotides may comprise the 20-mergRNAs described in Tables 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D,36A-36D. Targeting domains, disclosed herein, may comprises the 21-merdescribed in Tables 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D,36A-36D, e.g., the targeting domains of 22 or more nucleotides maycomprise the 21-mer gRNAs described in Tables 31A-31D, 32A-32D, 33A-33B,34A-34D, 35A-35D, 36A-36D. Targeting domains, disclosed herein, maycomprises the 22-mer described in Tables 31A-31D, 32A-32D, 33A-33B,34A-34D, 35A-35D, 36A-36D, e.g., the targeting domains of 23 or morenucleotides may comprise the 22-mer gRNAs described in Tables 31A-31D,32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D. Targeting domains,disclosed herein, may comprises the 23-mer described in Tables 31A-31D,32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D, e.g., the targeting domainsof 24 or more nucleotides may comprise the 23-mer gRNAs described inTables 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D. Targetingdomains, disclosed herein, may comprises the 24-mer described in Tables31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D, e.g., thetargeting domains of 25 or more nucleotides may comprise the 24-mergRNAs described in Tables 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D,36A-36D. gRNAs were identified for both single-gRNA nuclease cleavageand for a dual-gRNA paired “nickase” strategy. Criteria for selectinggRNAs and the determination for which gRNAs can be used for thedual-gRNA paired “nickase” strategy is based on two considerations:

-   -   1. gRNA pairs should be oriented on the DNA such that PAMs are        facing out and cutting with the D10A Cas9 nickase will result in        5′ overhangs.    -   2. An assumption that cleaving with dual nickase pairs will        result in deletion of the entire intervening sequence at a        reasonable frequency. However, cleaving with dual nickase pairs        can also result in indel mutations at the site of only one of        the gRNAs. Candidate pair members can be tested for how        efficiently they remove the entire sequence versus causing indel        mutations at the site of one gRNA.        The targeting domains discussed herein can be incorporated into        the gRNAs described herein.

In an embodiment, gRNAs were identified and ranked into 4 tiers for S.pyogenes (Tables 31A-31D or 34A-34D), and N. meningitidis (Tables33A-33B or 36A-36D); and 4 tiers for S. aureus (Tables 32A-32D or35A-35D). For S. pyogenes, and N. meningitidis, the targeting domain fortier 1 gRNA molecules were selected based on (1) distance to a targetsite, e.g., within 500 bp, e.g., within 200 bp from a mutation (e.g.,3849+10kbC->T or 3272-26A->G), (2) a high level of orthogonality and (3)the presence of 5′G. The targeting domain for tier 2 gRNA molecules wereselected based on (1) distance to a target site, e.g., within 500 bp,e.g., within 200 bp from a mutation (e.g., 3849+10kbC->T or 3272-26A->G)and (2) a high level of orthogonality. The targeting domain for tier 3gRNA molecules were selected based on (1) distance to a target site,e.g., within 500 bp, e.g., within 200 bp from a mutation (e.g.,3849+10kbC->T or 3272-26A->G) and (2) the presence of 5′G. The targetingdomain for tier 4 gRNA molecules were selected based on distance to atarget site, e.g., within 500 bp, e.g., within 200 bp from a mutation(e.g., 3849+10kbC->T or 3272-26A->G). For S. aureus, the targetingdomain for tier 1 gRNA molecules were selected based on (1) distance toa target site, e.g., within 500 bp, e.g., within 200 bp from a mutation(e.g., 3849+10kbC->T or 3272-26A->G), (2) a high level of orthogonality,(3) the presence of 5′G and (4) PAM is NNGRRT. The targeting domain fortier 2 gRNA molecules were selected based on (1) distance to a targetsite, e.g., within 500 bp, e.g., within 200 bp from a mutation (e.g.,3849+10kbC->T or 3272-26A->G), (2) a high level of orthogonality, and(3) PAM is NNGRRT. The targeting domain for tier 3 gRNA molecules wereselected based on (1) distance to a target site, e.g., within 500 bp,e.g., within 200 bp from a mutation (e.g., 3849+10kbC->T or 3272-26A->G)and (2) PAM is NNGRRT. The targeting domain for tier 4 gRNA moleculeswere selected based on (1) (1) distance to a target site, e.g., within500 bp, e.g., within 200 bp from a mutation (e.g., 3849+10kbC->T or3272-26A->G) and (2) PAM is NNGRRV. Note that tiers are non-inclusive(each gRNA is listed only once for the strategy). In certain instances,no gRNA was identified based on the criteria of the particular tier.

Strategies to Identify gRNAs for S. pyogenes, S. aureus, and N. forTargeting an Intronic Region (e.g., Intron 2 or Intron 10) of the CFTRGene (e.g., Mediated by cDNA)

Guide RNAs (gRNAs) for use with S. pyogenes, S. aureus and N.meningitidis Cas9s were identified using a DNA sequence searchingalgorithm. Guide RNA design was carried out using a custom guide RNAdesign software based on the public tool cas-offinder(reference:Cas-OFFinder: a fast and versatile algorithm that searchesfor potential off-target sites of Cas9 RNA-guided endonucleases,Bioinformatics. 2014 Feb. 17. Bae S, Park J, Kim J S. PMID:24463181).Said custom guide RNA design software scores guides after calculatingtheir genomewide off-target propensity. Typically matches ranging fromperfect matches to 7 mismatches are considered for guides ranging inlength from 17 to 24. Once the off-target sites are computationallydetermined, an aggregate score is calculated for each guide andsummarized in a tabular output using a web-interface. In addition toidentifying potential gRNA sites adjacent to PAM sequences, the softwarealso identifies all PAM adjacent sequences that differ by 1, 2, 3 ormore nucleotides from the selected gRNA sites. Genomic DNA sequence foreach gene was obtained from the UCSC Genome browser and sequences werescreened for repeat elements using the publically available RepeatMaskerprogram. RepeatMasker searches input DNA sequences for repeated elementsand regions of low complexity. The output is a detailed annotation ofthe repeats present in a given query sequence.

Following identification, gRNAs were ranked into tiers based on theirdistance to the target site, their orthogonality and presence of a 5′ G(based on identification of close matches in the human genome containinga relavant PAM (e.g., in the case of S. pyogenes, a NGG PAM, in the caseof S. aureus, a NNGRRT or NNGRRV PAM, and in the case of N.meningitidis, a NNNNGATT or NNNNGCTT PAM). Orthogonality refers to thenumber of sequences in the human genome that contain a minimum number ofmismatches to the target sequence. A “high level of orthogonality” or“good orthogonality” may, for example, refer to 20-mer gRNAs that haveno identical sequences in the human genome besides the intended target,nor any sequences that contain one or two mismatches in the targetsequence. Targeting domains with good orthogonality are selected tominimize off-target DNA cleavage.

As an example, for S. pyogenes and N. meningitidis targets, 17-mer, or20-mer gRNAs were designed. As another example, for S. aureus targets,18-mer, 19-mer, 20-mer, 21-mer, 22-mer, 23-mer and 24-mer gRNAs weredesigned. Targeting domains, disclosed herein, may comprise the 17-merdescribed in Tables 37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, or42A-42D, e.g., the targeting domains of 18 or more nucleotides maycomprise the 17-mer gRNAs described in Tables 37A-37D, 38A-38E, 39A-39D,40A-40D, 41A-41E, or 42A-42D. Targeting domains, disclosed herein, maycomprises the 18-mer described in Tables 37A-37D, 38A-38E, 39A-39D,40A-40D, 41A-41E, or 42A-42D, e.g., the targeting domains of 19 or morenucleotides may comprise the 18-mer gRNAs described in Tables 37A-37D,38A-38E, 39A-39D, 40A-40D, 41A-41E, or 42A-42D. Targeting domains,disclosed herein, may comprises the 19-mer described in Tables 37A-37D,38A-38E, 39A-39D, 40A-40D, 41A-41E, or 42A-42D, e.g., the targetingdomains of 20 or more nucleotides may comprise the 19-mer gRNAsdescribed in Tables 37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, or42A-42D. Targeting domains, disclosed herein, may comprises the 20-mergRNAs described in Tables 37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E,or 42A-42D, e.g., the targeting domains of 21 or more nucleotides maycomprise the 20-mer gRNAs described in Tables 37A-37D, 38A-38E, 39A-39D,40A-40D, 41A-41E, or 42A-42D. Targeting domains, disclosed herein, maycomprises the 21-mer described in Tables 37A-37D, 38A-38E, 39A-39D,40A-40D, 41A-41E, or 42A-42D, e.g., the targeting domains of 22 or morenucleotides may comprise the 21-mer gRNAs described in Tables 37A-37D,38A-38E, 39A-39D, 40A-40D, 41A-41E, or 42A-42D. Targeting domains,disclosed herein, may comprises the 22-mer described in Tables 37A-37D,38A-38E, 39A-39D, 40A-40D, 41A-41E, or 42A-42D, e.g., the targetingdomains of 23 or more nucleotides may comprise the 22-mer gRNAsdescribed in Tables 37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, or42A-42D. Targeting domains, disclosed herein, may comprises the 23-merdescribed in Tables 37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, or42A-42D, e.g., the targeting domains of 24 or more nucleotides maycomprise the 23-mer gRNAs described in Tables 37A-37D, 38A-38E, 39A-39D,40A-40D, 41A-41E, or 42A-42D. Targeting domains, disclosed herein, maycomprises the 24-mer described in Tables 37A-37D, 38A-38E, 39A-39D,40A-40D, 41A-41E, or 42A-42D, e.g., the targeting domains of 25 or morenucleotides may comprise the 24-mer gRNAs described in Tables 37A-37D,38A-38E, 39A-39D, 40A-40D, 41A-41E, or 42A-42D. gRNAs were identifiedfor both single-gRNA nuclease cleavage and for a dual-gRNA paired“nickase” strategy. Criteria for selecting gRNAs and the determinationfor which gRNAs can be used for the dual-gRNA paired “nickase” strategyis based on two considerations:

-   -   1. gRNA pairs should be oriented on the DNA such that PAMs are        facing out and cutting with the D10A Cas9 nickase will result in        5′ overhangs.    -   2. An assumption that cleaving with dual nickase pairs will        result in deletion of the entire intervening sequence at a        reasonable frequency. However, cleaving with dual nickase pairs        can also result in indel mutations at the site of only one of        the gRNAs. Candidate pair members can be tested for how        efficiently they remove the entire sequence versus causing indel        mutations at the site of one gRNA.        The targeting domains discussed herein can be incorporated into        the gRNAs described herein.

In an embodiment, gRNAs were identified and ranked into 4 tiers for S.pyogenes (Tables 37A-37D or 40A-40D), and N. meningitidis (Tables39A-39D or 42A-42D); and 4 tiers for S. aureus (Tables 38A-38E or41A-41E). For S. pyogenes, and N. meningitidis, the targeting domain fortier 1 gRNA molecules were selected based on (1) target position, e.g.,intron 2 or intron 10, (2) a high level of orthogonality and (3) thepresence of 5′G. The targeting domain for tier 2 gRNA molecules wereselected based on (1) target position, e.g., intron 2 or intron 10 and(2) a high level of orthogonality. The targeting domain for tier 3 gRNAmolecules were selected based on (1) target position, e.g., intron 2 orintron 10 and (2) the presence of 5′G. The targeting domain for tier 4gRNA molecules were selected based on target position, e.g., intron 2 orintron 10. For S. aureus, the targeting domain for tier 1 gRNA moleculeswere selected based on (1) target position, e.g., intron 2 or intron 10,(2) a high level of orthogonality, (3) the presence of 5′G and (4) PAMis NNGRRT. The targeting domain for tier 2 gRNA molecules were selectedbased on (1) target position, e.g., intron 2 or intron 10, (2) a highlevel of orthogonality, and (3) PAM is NNGRRT. The targeting domain fortier 3 gRNA molecules were selected based on (1) target position, e.g.,intron 2 or intron 10, (2) the presence of a 5′G and (2) PAM is NNGRRT.The targeting domain for tier 4 gRNA molecules were selected based on(1) target position, e.g., intron 2 or intron 10 and (2) PAM is NNGRRT.The targeting domain for tier 5 gRNA molecules were selected based on(1) (1) target position, e.g., intron 2 or intron 10 and (2) PAM isNNGRRV. Note that tiers are non-inclusive (each gRNA is listed only oncefor the strategy). In certain instances, no gRNA was identified based onthe criteria of the particular tier.

In an embodiment, two or more (e.g., three or four) gRNA molecules areused with one Cas9 molecule. In another embodiment, when two or more(e.g., three or four) gRNAs are used with two or more Cas9 molecules, atleast one Cas9 molecule is from a different species than the other Cas9molecule(s). For example, when two gRNA molecules are used with two Cas9molecules, one Cas9 molecule can be from one species and the other Cas9molecule can be from a different species. Both Cas9 species are used togenerate a single or double-strand break, as desired.

Any of the targeting domains in the tables described herein can be usedwith a Cas9 nickase molecule to generate a single strand break.

Any of the targeting domains in the tables described herein can be usedwith a Cas9 nuclease molecule to generate a double strand break.

When two gRNAs designed for use to target two Cas9 molecules, one Cas9can be one species, the second Cas9 can be from a different species.Both Cas9 species are used to generate a single or double-strand break,as desired.

It is contemplated herein that any upstream gRNA described herein may bepaired with any downstream gRNA described herein. When an upstream gRNAdesigned for use with one species of Cas9 is paired with a downstreamgRNA designed for use from a different species of Cas9, both Cas9species are used to generate a single or double-strand break, asdesired.

Exemplary Targeting Domains

Table 1A provides exemplary targeting domains for the F508del targetposition in the CFTR gene selected according to the first tierparameters. The targeting domains are selected based on close proximityto mutation and orthogonality in the human genome. It is contemplatedherein that the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. pyogenes Cas9 molecule that gives double strandedcleavage. Any of the targeting domains in the table can be used with aS. pyogenes Cas9 single-stranded break nucleases (nickases). In anembodiment, dual targeting is used to create two nicks on opposite DNAstrands by using S. pyogenes Cas9 nickases with two targeting domainsthat are complementary to opposite DNA strands, e.g., a gRNA comprisingany minus strand targeting domain may be paired any gRNA comprising aplus strand targeting domain provided that the two gRNAs are oriented onthe DNA such that PAMs face outward and the distance between the 5′ endsof the gRNAs is 0-50 bp. In an embodiment, two 17-mer RNAs are used totarget two Cas9 nucleases or two Cas9 nickases, e.g., CFTR-18 andCFTR-16 are used.

TABLE A Target DNA  Site Seq  gRNA Name Strand Targeting Domain LengthID CFTR-1 − GAGGGUAAAAUUAAGCACAG 20 387 CFTR-6 + AGUUUCUUACCUCUUCUAGU 20388 CFTR-10 + AAUGGUGCCAGGCAUAAUCC 20 389 CFTR-12 − GGUAAAAUUAAGCACAG 17390 CFTR-16 − AGCAUGCCAACUAGAAG 17 391 CFTR-18 + GUAUCUAUAUUCAUCAU 17392

Table 1B provides exemplary targeting domains for the F508del targetposition in the CFTR gene selected according to the second tierparameters. The targeting domains are selected based on the presence ofa 5′ G and reasonable proximity to mutation. It is contemplated hereinthat the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. pyogenes Cas9 molecule that gives double strandedcleavage. Any of the targeting domains in the table can be used with aS. pyogenes Cas9 single-stranded break nucleases (nickases). In anembodiment, dual targeting is used to create two nicks on opposite DNAstrands by using S. pyogenes Cas9 nickases with two targeting domainsthat are complementary to opposite DNA strands, e.g., a gRNA comprisingany minus strand targeting domain may be paired any gRNA comprising aplus strand targeting domain provided that the two gRNAs are oriented onthe DNA such that PAMs face outward and the distance between the 5′ endsof the gRNAs is 0-50 bp.

TABLE 1B Tar-   get   DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-19 + GAUGAUAUUUUCUUUAA 17 393 CFTR-21 + GGUGCCAGGCAUAAUCC17 394 CFTR-24 - GAUAAUGACCUAAUAAUGAU 20 395 CFTR-29 -GGGAGAACUGGAGCCUUCAG 20 396 CFTR-30 - GGAGAACUGGAGCCUUCAGA 20 397CFTR-37 + GUAGACUAACCGAUUGAAUA 20 398 CFTR-44 + GUCAUUAUCAAAUCACGCUC 20399 CFTR-50 - GGUGAUUAUGGGAGAAC 17 400 CFTR-52 - GAACUGGAGCCUUCAGA 17401 CFTR-57 - GGGUAAGCUACUGUGAA 17 402 CFTR-59 + GACUAACCGAUUGAAUA 17403 CFTR-60 + GAGCCAAAUAUAUAAUU 17 404

Table 1C provides exemplary targeting domains for the F508del targetposition in the CFTR gene selected according to the third tierparameters. The targeting domains are selected based on reasonableproximity to mutation. It is contemplated herein that the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the table can be used with a S.pyogenes Cas9 molecule that gives double stranded cleavage. Any of thetargeting domains in the table can be used with a S. pyogenes Cas9single-stranded break nucleases (nickases). In an embodiment, dualtargeting is used to create two nicks on opposite DNA strands by usingS. pyogenes Cas9 nickases with two targeting domains that arecomplementary to opposite DNA strands, e.g., a gRNA comprising any minusstrand targeting domain may be paired any gRNA comprising a plus strandtargeting domain provided that the two gRNAs are oriented on the DNAsuch that PAMs face outward and the distance between the 5′ ends of thegRNAs is 0-50 bp.

TABLE 1C Target gRNA  DNA  Site Seq Name Strand Targeting Domain LengthID CFTR-2 - CAUUCUGUUCUCAGUUUUCC 20 405 CFTR-3 - CAGUUUUCCUGGAUUAUGCC 20406 CFTR-4 - AUUAAAGAAAAUAUCAUCUU 20 407 CFTR-5 - CAAAGCAUGCCAACUAGAAG20 408 CFTR-6 + AGUUUCUUACCUCUUCUAGU 20 388 CFTR-7 +UCUGUAUCUAUAUUCAUCAU 20 409 CFTR-8 + AAAGAUGAUAUUUUCUUUAA 20 410CFTR-9 + AUAUUUUCUUUAAUGGUGCC 20 411 CFTR-10 + AAUGGUGCCAGGCAUAAUCC 20389 CFTR-11 + UGCUUAAUUUUACCCUCUGA 20 412 CFTR-13 - UCUGUUCUCAGUUUUCC 17413 CFTR-14 - UUUUCCUGGAUUAUGCC 17 414 CFTR-15 - AAAGAAAAUAUCAUCUU 17415 CFTR-16 - AGCAUGCCAACUAGAAG 17 391 CFTR-17 + UUCUUACCUCUUCUAGU 17416 CFTR-20 + UUUUCUUUAAUGGUGCC 17 417 CFTR-22 + UUAAUUUUACCCUCUGA 17418 CFTR-23 - UGAUAAUGACCUAAUAAUGA 20 419 CFTR-25 - UUUCCAGACUUCACUUCUAA20 420 CFTR-26 - UUCACUUCUAAUGGUGAUUA 20 421 CFTR-27 -UCACUUCUAAUGGUGAUUAU 20 422 CFTR-28 - AAUGGUGAUUAUGGGAGAAC 20 423CFTR-31 - CACUACCCAAAUUAUAUAUU 20 424 CFTR-32 - UAUUUGGCUCCAUAUUCAAU 20425 CFTR-33 - AUAUAUUUAUGUUUCCUCUA 20 426 CFTR-34 - UAUAUUUAUGUUUCCUCUAU20 427 CFTR-35 - UAUGGGUAAGCUACUGUGAA 20 428 CFTR-36 +UCACAGUAGCUUACCCAUAG 20 429 CFTR-38 + AUGGAGCCAAAUAUAUAAUU 20 430CFTR-39 + UGGAGCCAAAUAUAUAAUUU 20 431 CFTR-40 + AUAUAAUUUGGGUAGUGUGA 20432 CFTR-41 + UAUAAUUUGGGUAGUGUGAA 20 433 CFTR-42 + UCACCAUUAGAAGUGAAGUC20 434 CFTR-43 + AAAUAAAACCCAUCAUUAUU 20 435 CFTR-45 - UAAUGACCUAAUAAUGA17 436 CFTR-46 - AAUGACCUAAUAAUGAU 17 437 CFTR-47 - CCAGACUUCACUUCUAA 17438 CFTR-48 - ACUUCUAAUGGUGAUUA 17 439 CFTR-49 - CUUCUAAUGGUGAUUAU 17440 CFTR-51 - AGAACUGGAGCCUUCAG 17 441 CFTR-53 - UACCCAAAUUAUAUAUU 17442 CFTR-54 - UUGGCUCCAUAUUCAAU 17 443 CFTR-55 - UAUUUAUGUUUCCUCUA 17444 CFTR-56 - AUUUAUGUUUCCUCUAU 17 445 CFTR-58 + CAGUAGCUUACCCAUAG 17446 CFTR-61 + AGCCAAAUAUAUAAUUU 17 447 CFTR-62 + UAAUUUGGGUAGUGUGA 17448 CFTR-63 + AAUUUGGGUAGUGUGAA 17 449 CFTR-64 + CCAUUAGAAGUGAAGUC 17450 CFTR-65 + UAAAACCCAUCAUUAUU 17 451 CFTR-66 + AUUAUCAAAUCACGCUC 17452

Table 1D provides exemplary targeting domains for the F508del targetposition in the CFTR gene selected based on reasonable proximity tomutation. It is contemplated herein that the targeting domain hybridizesto the target domain through complementary base pairing. Any of thetargeting domains in the table can be used with a S. aureus Cas9molecule that gives double stranded cleavage. Any of the targetingdomains in the table can be used with a S. aureus Cas9 single-strandedbreak nucleases (nickases). In an embodiment, dual targeting is used tocreate two nicks on opposite DNA strands by using S. aureus Cas9nickases with two targeting domains that are complementary to oppositeDNA strands, e.g., a gRNA comprising any minus strand targeting domainmay be paired any gRNA comprising a plus strand targeting domainprovided that the two gRNAs are oriented on the DNA such that PAMs faceoutward and the distance between the 5′ ends of the gRNAs is 0-50 bp.

TABLE 1D Target DNA  Site Seq  gRNA Name Strand Targeting Domain LengthID CFTR-111 - UAAUUGGAGGCAAGUGAAUC 20 655 CFTR-112 -UUGAUAAUGACCUAAUAAUG 20 656 CFTR-113 - CUUCACUUCUAAUGGUGAUU 20 657CFTR-26 - UUCACUUCUAAUGGUGAUUA 20 421 CFTR-27 - UCACUUCUAAUGGUGAUUAU 20422 CFTR-116 - ACUUCUAAUGGUGAUUAUGG 20 658 CFTR-117 -UAAUGGUGAUUAUGGGAGAA 20 659 CFTR-28 - AAUGGUGAUUAUGGGAGAAC 20 423CFTR-119 - UAUGGGAGAACUGGAGCCUU 20 660 CFTR-120 - UGGGAGAACUGGAGCCUUCA20 661 CFTR-121 - AGAGGGUAAAAUUAAGCACA 20 662 CFTR-1 -GAGGGUAAAAUUAAGCACAG 20 387 CFTR-123 - GGUAAAAUUAAGCACAGUGG 20 663CFTR-124 - UCAUUCUGUUCUCAGUUUUC 20 664 CFTR-125 - GAUUAUGCCUGGCACCAUUA20 665 CFTR-126 - CAUCUUUGGUGUUUCCUAUG 20 666 CFTR-127 -UCCUAUGAUGAAUAUAGAUA 20 667 CFTR-128 - CGUCAUCAAAGCAUGCCAAC 20 668CFTR-129 - CAUCAAAGCAUGCCAACUAG 20 669 CFTR-130 - GCAUGCCAACUAGAAGAGGU20 670 CFTR-131 - UAGAAGAGGUAAGAAACUAU 20 671 CFTR-132 -AAAACUUUUUGAUUAUGCAU 20 672 CFTR-133 - CAUAUAUUUAUGUUUCCUCU 20 673CFTR-134 - UCCUCUAUGGGUAAGCUACU 20 674 CFTR-135 - CUAUGGGUAAGCUACUGUGA20 675 CFTR-136 + GGUCAUUAUCAAAUCACGCU 20 676 CFTR-42 +UCACCAUUAGAAGUGAAGUC 20 434 CFTR-138 + AUCACCAUUAGAAGUGAAGU 20 677CFTR-139 + UCCCAUAAUCACCAUUAGAA 20 678 CFTR-140 + AGUUCUCCCAUAAUCACCAU20 679 CFTR-141 + ACUGUGCUUAAUUUUACCCU 20 680 CFTR-142 +CCAGGAAAACUGAGAACAGA 20 681 CFTR-143 + UAAUCCAGGAAAACUGAGAA 20 682CFTR-144 + AGGCAUAAUCCAGGAAAACU 20 683 CFTR-145 + CCAGGCAUAAUCCAGGAAAA20 684 CFTR-10 + AAUGGUGCCAGGCAUAAUCC 20 389 CFTR-147 +UAAUGGUGCCAGGCAUAAUC 20 685 CFTR-7 + UCUGUAUCUAUAUUCAUCAU 20 409CFTR-149 + UUCUGUAUCUAUAUUCAUCA 20 686 CFTR-150 + UAUAUAAUUUGGGUAGUGUG20 687 CFTR-151 + AAAUAUAUAAUUUGGGUAGU 20 688 CFTR-152 +UAUGGAGCCAAAUAUAUAAU 20 689 CFTR-37 + GUAGACUAACCGAUUGAAUA 20 398CFTR-154 + UGUAGACUAACCGAUUGAAU 20 690 CFTR-155 + AAUAUAUGUAGACUAACCGA20 691 CFTR-36 + UCACAGUAGCUUACCCAUAG 20 429 CFTR-157 +UUCACAGUAGCUUACCCAUA 20 692 CFTR-158 + CAUUCACAGUAGCUUACCCA 20 693CFTR-159 - UUGGAGGCAAGUGAAUC 17 694 CFTR-160 - AUAAUGACCUAAUAAUG 17 695CFTR-161 - CACUUCUAAUGGUGAUU 17 696 CFTR-48 - ACUUCUAAUGGUGAUUA 17 439CFTR-49 - CUUCUAAUGGUGAUUAU 17 440 CFTR-164 - UCUAAUGGUGAUUAUGG 17 697CFTR-165 - UGGUGAUUAUGGGAGAA 17 698 CFTR-50 - GGUGAUUAUGGGAGAAC 17 400CFTR-167 - GGGAGAACUGGAGCCUU 17 699 CFTR-168 - GAGAACUGGAGCCUUCA 17 700CFTR-169 - GGGUAAAAUUAAGCACA 17 701 CFTR-12 - GGUAAAAUUAAGCACAG 17 390CFTR-171 - AAAAUUAAGCACAGUGG 17 702 CFTR-172 - UUCUGUUCUCAGUUUUC 17 703CFTR-173 - UAUGCCUGGCACCAUUA 17 704 CFTR-174 - CUUUGGUGUUUCCUAUG 17 705CFTR-175 - UAUGAUGAAUAUAGAUA 17 706 CFTR-176 - CAUCAAAGCAUGCCAAC 17 707CFTR-177 - CAAAGCAUGCCAACUAG 17 708 CFTR-178 - UGCCAACUAGAAGAGGU 17 709CFTR-179 - AAGAGGUAAGAAACUAU 17 710 CFTR-180 - ACUUUUUGAUUAUGCAU 17 711CFTR-181 - AUAUUUAUGUUUCCUCU 17 712 CFTR-182 - UCUAUGGGUAAGCUACU 17 713CFTR-183 - UGGGUAAGCUACUGUGA 17 714 CFTR-184 + CAUUAUCAAAUCACGCU 17 715CFTR-64 + CCAUUAGAAGUGAAGUC 17 450 CFTR-186 + ACCAUUAGAAGUGAAGU 17 716CFTR-187 + CAUAAUCACCAUUAGAA 17 717 CFTR-188 + UCUCCCAUAAUCACCAU 17 718CFTR-189 + GUGCUUAAUUUUACCCU 17 719 CFTR-190 + GGAAAACUGAGAACAGA 17 720CFTR-191 + UCCAGGAAAACUGAGAA 17 721 CFTR-192 + CAUAAUCCAGGAAAACU 17 722CFTR-193 + GGCAUAAUCCAGGAAAA 17 723 CFTR-21 + GGUGCCAGGCAUAAUCC 17 394CFTR-195 + UGGUGCCAGGCAUAAUC 17 724 CFTR-18 + GUAUCUAUAUUCAUCAU 17 392CFTR-197 + UGUAUCUAUAUUCAUCA 17 725 CFTR-198 + AUAAUUUGGGUAGUGUG 17 726CFTR-199 + UAUAUAAUUUGGGUAGU 17 727 CFTR-200 + GGAGCCAAAUAUAUAAU 17 728CFTR-59 + GACUAACCGAUUGAAUA 17 403 CFTR-202 + AGACUAACCGAUUGAAU 17 729CFTR-203 + AUAUGUAGACUAACCGA 17 730 CFTR-58 + CAGUAGCUUACCCAUAG 17 446CFTR-205 + ACAGUAGCUUACCCAUA 17 731 CFTR-206 + UCACAGUAGCUUACCCA 17 732

Table 1E provides exemplary targeting domains for the F508del targetposition in the CFTR gene selected based on reasonable proximity tomutation. It is contemplated herein that the targeting domain hybridizesto the target domain through complementary base pairing. Any of thetargeting domains in the table can be used with a N. meningitidis Cas9molecule that gives double stranded cleavage. Any of the targetingdomains in the table can be used with a N. meningitidis Cas9single-stranded break nucleases (nickases). In an embodiment, dualtargeting is used to create two nicks on opposite DNA strands by usingN. meningitidis Cas9 nickases with two targeting domains that arecomplementary to opposite DNA strands, e.g., a gRNA comprising any minusstrand targeting domain may be paired any gRNA comprising a plus strandtargeting domain provided that the two gRNAs are oriented on the DNAsuch that PAMs face outward and the distance between the 5′ ends of thegRNAs is 0-50 bp.

TABLE lE Target DNA Site Seq  gRNA Name Strand Targeting Domain LengthID CFTR-207 - UGGAGGCAAGUGAAUCCUGA 20 917 CFTR-25 - UUUCCAGACUUCACUUCUAA20 420 CFTR-209 - UUCAUUCUGUUCUCAGUUUU 20 918 CFTR-210 -UAAGAAACUAUGUGAAAACU 20 919 CFTR-211 + AGGUCAUUAUCAAAUCACGC 20 920CFTR-212 + AACAUAAAUAUAUGUAGACU 20 921 CFTR-213 - AGGCAAGUGAAUCCUGA 17922 CFTR-47 - CCAGACUUCACUUCUAA 17 438 CFTR-215 - AUUCUGUUCUCAGUUUU 17923 CFTR-216 - GAAACUAUGUGAAAACU 17 924 CFTR-217 + UCAUUAUCAAAUCACGC 17925 CFTR-218 + AUAAAUAUAUGUAGACU 17 926

Table 2A provides exemplary targeting domains for the G55D targetposition in the CFTR gene selected according to the first tierparameters. The targeting domains are selected based close proximity tomutation and orthogonality in the human genome. It is contemplatedherein that the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. pyogenes Cas9 molecule that gives double strandedcleavage. Any of the targeting domains in the table can be used with aS. pyogenes Cas9 single-stranded break nucleases (nickases). In anembodiment, dual targeting is used to create two nicks on opposite DNAstrands by using S. pyogenes Cas9 nickases with two targeting domainsthat are complementary to opposite DNA strands, e.g., a gRNA comprisingany minus strand targeting domain may be paired any gRNA comprising aplus strand targeting domain provided that the two gRNAs are oriented onthe DNA such that PAMs face outward and the distance between the 5′ endsof the gRNAs is 0-50 bp.

TABLE 2A Target DNA Site Seq  gRNA Name Strand Targeting Domain LengthID CFTR-71 - GAGAAAGACAAUAUAGUUCU 20 453 CFTR-75 - GGUGGAAUCACACUGAGUGG20 454 CFTR-86 + CCCACUAGCCAUAAAACCCC 20 455 CFTR-96 - GGUGGAAUCACACUGAG17 456 CFTR-97 - GGAAUCACACUGAGUGG 17 457 CFTR-106 - GGGGUUUUAUGGCUAGU17 458 CFTR-108 +  ACUAGCCAUAAAACCCC 17  459

Table 2B provides exemplary targeting domains for the G551D targetposition in the CFTR gene selected according to the second tierparameters. The targeting domains are selected based on the presence ofa 5′ G and reasonable proximity to mutation. It is contemplated hereinthat the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. pyogenes Cas9 molecule that gives double strandedcleavage. Any of the targeting domains in the table can be used with aS. pyogenes Cas9 single-stranded break nucleases (nickases). In anembodiment, dual targeting is used to create two nicks on opposite DNAstrands by using S. pyogenes Cas9 nickases with two targeting domainsthat are complementary to opposite DNA strands, e.g., a gRNA comprisingany minus strand targeting domain may be paired any gRNA comprising aplus strand targeting domain provided that the two gRNAs are oriented onthe DNA such that PAMs face outward and the distance between the 5′ endsof the gRNAs is 0-50 bp.

TABLE 2B Target DNA Site Seq  gRNA Name Strand Targeting Domain LengthID CFTR-72 - GACAAUAUAGUUCUUGGAGA 20 460 CFTR-74 - GAAGGUGGAAUCACACUGAG20 461 CFTR-76 - GAGCAAGAAUUUCUUUAGCA 20 462 CFTR-82 -GAAAAAAUCCUGGGGUUUUA 20 463 CFTR-89 - GUUCAAAAUUUCAACUG 17 464 CFTR-99 -GGUGAAUAACUAAUUAU 17 465 CFTR-100 - GCUUUAUAUUCUGUUUC 17 466 CFTR-102 -GGAAUUGAAAAAAUCCU 17 467 CFTR-103 - GAAUUGAAAAAAUCCUG 17 468 CFTR-109 +GUCUUUCUCUGCAAACU 17 469

Table 2C provides exemplary targeting domains for the G551D targetposition in the CFTR gene selected according to the third tierparameters. The targeting domains are selected based on reasonableproximity to mutation. It is contemplated herein that the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the table can be used with a S.pyogenes Cas9 molecule that gives double stranded cleavage. Any of thetargeting domains in the table can be used with a S. pyogenes Cas9single-stranded break nucleases (nickases). In an embodiment, dualtargeting is used to create two nicks on opposite DNA strands by usingS. pyogenes Cas9 nickases with two targeting domains that arecomplementary to opposite DNA strands, e.g., a gRNA comprising any minusstrand targeting domain may be paired any gRNA comprising a plus strandtargeting domain provided that the two gRNAs are oriented on the DNAsuch that PAMs face outward and the distance between the 5′ ends of thegRNAs is 0-50 bp.

TABLE 2C Target DNA Site Seq  gRNA Name Strand Targeting Domain LengthID CFTR-67 - AAUGUUCAAAAUUUCAACUG 20 470 CFTR-68 - UGAUAUAUGAUUACAUUAGA20 471 CFTR-69 - ACUCUCUAAUUUUCUAUUUU 20 472 CFTR-70 -AAUUUUCUAUUUUUGGUAAU 20 473 CFTR-73 - AAUAUAGUUCUUGGAGAAGG 20 474CFTR-77 - CAAGGUGAAUAACUAAUUAU 20 475 CFTR-78 - AUUGCUUUAUAUUCUGUUUC 20476 CFTR-79 - UUCUGGAAUUGAAAAAAUCC 20 477 CFTR-80 - UCUGGAAUUGAAAAAAUCCU20 478 CFTR-81 - CUGGAAUUGAAAAAAUCCUG 20 479 CFTR-83 -UCCUGGGGUUUUAUGGCUAG 20 480 CFTR-84 - CCUGGGGUUUUAUGGCUAGU 20 481CFTR-85 - CAUUUAAGAACUAUAAAUAA 20 482 CFTR-87 + AUUGUCUUUCUCUGCAAACU 20483 CFTR-88 + AUGCUCAAUCUGAAUUUGAA 20 484 CFTR-90 - UAUAUGAUUACAUUAGA 17485 CFTR-91 - CUCUAAUUUUCUAUUUU 17 486 CFTR-92 - UUUCUAUUUUUGGUAAU 17487 CFTR-93 - AAAGACAAUAUAGUUCU 17 488 CFTR-94 - AAUAUAGUUCUUGGAGA 17489 CFTR-95 - AUAGUUCUUGGAGAAGG 17 490 CFTR-98 - CAAGAAUUUCUUUAGCA 17491 CFTR-101 - UGGAAUUGAAAAAAUCC 17 492 CFTR-104 - AAAAUCCUGGGGUUUUA 17493 CFTR-105 - UGGGGUUUUAUGGCUAG 17 494 CFTR-107 - UUAAGAACUAUAAAUAA 17495 CFTR-110 + CUCAAUCUGAAUUUGAA 17 496

Table 2D provides exemplary targeting domains for the G551D targetposition in the CFTR gene selected based on reasonable proximity tomutation. It is contemplated herein that the targeting domain hybridizesto the target domain through complementary base pairing. Any of thetargeting domains in the table can be used with a S. aureus Cas9molecule that gives double stranded cleavage. Any of the targetingdomains in the table can be used with a S. aureus Cas9 single-strandedbreak nucleases (nickases). In an embodiment, dual targeting is used tocreate two nicks on opposite DNA strands by using S. aureus Cas9nickases with two targeting domains that are complementary to oppositeDNA strands, e.g., a gRNA comprising any minus strand targeting domainmay be paired any gRNA comprising a plus strand targeting domainprovided that the two gRNAs are oriented on the DNA such that PAMs faceoutward and the distance between the 5′ ends of the gRNAs is 0-50 bp.

TABLE 2D Target DNA Site Seq  gRNA Name Strand Targeting Domain LengthID CFTR-219 - AGUGUGAUAUAUGAUUACAU 20 733 CFTR-220 -GUGAUAUAUGAUUACAUUAG 20 734 CFTR-68 - UGAUAUAUGAUUACAUUAGA 20 471CFTR-222 - AUGUGCCUUUCAAAUUCAGA 20 735 CFTR-223 - UAAUUUUCUAUUUUUGGUAA20 736 CFTR-224 - AUAGGACAUCUCCAAGUUUG 20 737 CFTR-225 -AGGACAUCUCCAAGUUUGCA 20 738 CFTR-226 - AGAGAAAGACAAUAUAGUUC 20 739CFTR-71 - GAGAAAGACAAUAUAGUUCU 20 453 CFTR-228 - GAAAGACAAUAUAGUUCUUG 20740 CFTR-229 - CAAUAUAGUUCUUGGAGAAG 20 741 CFTR-73 -AAUAUAGUUCUUGGAGAAGG 20 474 CFTR-231 - UUGGAGAAGGUGGAAUCACA 20 742CFTR-232 - AGAAGGUGGAAUCACACUGA 20 743 CFTR-74 - GAAGGUGGAAUCACACUGAG 20461 CFTR-234 - AUCACACUGAGUGGAGGUCA 20 744 CFTR-235 -CUGAGUGGAGGUCAACGAGC 20 745 CFTR-236 - GCAAGAAUUUCUUUAGCAAG 20 746CFTR-237 - UAUUGCUUUAUAUUCUGUUU 20 747 CFTR-78 - AUUGCUUUAUAUUCUGUUUC 20476 CFTR-239 - UUUAUAUUCUGUUUCUGGAA 20 748 CFTR-240 -UUUCUGGAAUUGAAAAAAUC 20 749 CFTR-79 - UUCUGGAAUUGAAAAAAUCC 20 477CFTR-242 - AUCCUGGGGUUUUAUGGCUA 20 750 CFTR-243 - GGUUUUAUGGCUAGUGGGUU20 751 CFTR-244 - GUGGGUUAAGAAUCACAUUU 20 752 CFTR-245 +CUUUAACCACAGUUGAAAUU 20 753 CFTR-246 + CACUAUUGCUUUAACCACAG 20 754CFTR-247 + UUAGUAUGCUCAAUCUGAAU 20 755 CFTR-248 + UCACUUUUAGUAUGCUCAAU20 756 CFTR-249 + UUACCAAAAAUAGAAAAUUA 20 757 CFTR-250 +UAUUACCAAAAAUAGAAAAU 20 758 CFTR-251 + AGAUGUCCUAUUACCAAAAA 20 759CFTR-87 + AUUGUCUUUCUCUGCAAACU 20 483 CFTR-253 + UAUUGUCUUUCUCUGCAAAC 20760 CFTR-254 + AGUGUGAUUCCACCUUCUCC 20 761 CFTR-255 +AUUAGUUAUUCACCUUGCUA 20 762 CFTR-256 + AAUGUCUGUAAUUUUUUUAC 20 763CFTR-257 + AAACAGAAUAUAAAGCAAUA 20 764 CFTR-258 + AGAAACAGAAUAUAAAGCAA20 765 CFTR-259 + GAUUUUUUCAAUUCCAGAAA 20 766 CFTR-260 +CCCCAGGAUUUUUUCAAUUC 20 767 CFTR-261 - GUGAUAUAUGAUUACAU 17 768CFTR-262 - AUAUAUGAUUACAUUAG 17 769 CFTR-90 - UAUAUGAUUACAUUAGA 17 485CFTR-264 - UGCCUUUCAAAUUCAGA 17 770 CFTR-265 - UUUUCUAUUUUUGGUAA 17 771CFTR-266 - GGACAUCUCCAAGUUUG 17 772 CFTR-267 - ACAUCUCCAAGUUUGCA 17 773CFTR-268 - GAAAGACAAUAUAGUUC 17 774 CFTR-93 - AAAGACAAUAUAGUUCU 17 488CFTR-270 - AGACAAUAUAGUUCUUG 17 775 CFTR-271 - UAUAGUUCUUGGAGAAG 17 776CFTR-95 - AUAGUUCUUGGAGAAGG 17 490 CFTR-273 - GAGAAGGUGGAAUCACA 17 777CFTR-274 - AGGUGGAAUCACACUGA 17 778 CFTR-96 - GGUGGAAUCACACUGAG 17 456CFTR-276 - ACACUGAGUGGAGGUCA 17 779 CFTR-277 - AGUGGAGGUCAACGAGC 17 780CFTR-278 - AGAAUUUCUUUAGCAAG 17 781 CFTR-279 - UGCUUUAUAUUCUGUUU 17 782CFTR-100 - GCUUUAUAUUCUGUUUC 17 466 CFTR-281 - AUAUUCUGUUUCUGGAA 17 783CFTR-282 - CUGGAAUUGAAAAAAUC 17 784 CFTR-101 - UGGAAUUGAAAAAAUCC 17 492CFTR-284 - CUGGGGUUUUAUGGCUA 17 785 CFTR-285 - UUUAUGGCUAGUGGGUU 17 786CFTR-286 - GGUUAAGAAUCACAUUU 17 787 CFTR-287 + UAACCACAGUUGAAAUU 17 788CFTR-288 + UAUUGCUUUAACCACAG 17 789 CFTR-289 + GUAUGCUCAAUCUGAAU 17 790CFTR-290 + CUUUUAGUAUGCUCAAU 17 791 CFTR-291 + CCAAAAAUAGAAAAUUA 17 792CFTR-292 + UACCAAAAAUAGAAAAU 17 793 CFTR-293 + UGUCCUAUUACCAAAAA 17 794CFTR-109 + GUCUUUCUCUGCAAACU 17 469 CFTR-295 + UGUCUUUCUCUGCAAAC 17 795CFTR-296 + GUGAUUCCACCUUCUCC 17 796 CFTR-297 + AGUUAUUCACCUUGCUA 17 797CFTR-298 + GUCUGUAAUUUUUUUAC 17 798 CFTR-299 + CAGAAUAUAAAGCAAUA 17 799CFTR-300 + AACAGAAUAUAAAGCAA 17 800 CFTR-301 + UUUUUCAAUUCCAGAAA 17 801CFTR-302 + CAGGAUUUUUUCAAUUC 17 802

Table 2E provides exemplary targeting domains for the G551D targetposition in the CFTR gene selected based on reasonable proximity tomutation. It is contemplated herein that the targeting domain hybridizesto the target domain through complementary base pairing. Any of thetargeting domains in the table can be used with a N. meningitidis Cas9molecule that gives double stranded cleavage. Any of the targetingdomains in the table can be used with a N. meningitidis Cas9single-stranded break nucleases (nickases). In an embodiment, dualtargeting is used to create two nicks on opposite DNA strands by usingN. meningitidis Cas9 nickases with two targeting domains that arecomplementary to opposite DNA strands, e.g., a gRNA comprising any minusstrand targeting domain may be paired any gRNA comprising a plus strandtargeting domain provided that the two gRNAs are oriented on the DNAsuch that PAMs face outward and the distance between the 5′ ends of thegRNAs is 0-50 bp.

TABLE 2E Target DNA Site Seq  gRNA Name Strand Targeting Domain LengthID CFTR-303 - GGUUAAAGCAAUAGUGUGAU 20 927 CFTR-304 -AGGAAGAUGUGCCUUUCAAA 20 928 CFTR-305 + UGCUCGUUGACCUCCACUCA 20 929CFTR-306 + AACCCACUAGCCAUAAAACC 20 930 CFTR-307 + CCAUUAUUUAUAGUUCUUAA20 931 CFTR-308 - UAAAGCAAUAGUGUGAU 17 932 CFTR-309 - AAGAUGUGCCUUUCAAA17 933 CFTR-310 + UCGUUGACCUCCACUCA 17 934 CFTR-311 + CCACUAGCCAUAAAACC17 935 CFTR-312 + UUAUUUAUAGUUCUUAA 17 936

Table 3A provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the first tier parameters. Thetargeting domains are selected based close proximity to start codon andorthogonality in the human genome. It is contemplated herein that thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the table can be used witha S. pyogenes Cas9 molecule that gives double stranded cleavage. Any ofthe targeting domains in the table can be used with a S. pyogenes Cas9single-stranded break nucleases (nickases). In an embodiment, dualtargeting is used to create two nicks on opposite DNA strands by usingS. pyogenes Cas9 nickases with two targeting domains that arecomplementary to opposite DNA strands, e.g., a gRNA comprising any minusstrand targeting domain may be paired any gRNA comprising a plus strandtargeting domain provided that the two gRNAs are oriented on the DNAsuch that PAMs face outward and the distance between the 5′ ends of thegRNAs is 0-50 bp. In an embodiment, two 20-mer RNAs are used to targettwo Cas9 nucleases or two Cas9 nickases, e.g., SCNN5A-78 and SCNN1A-9are used.

TABLE 3A Target DNA  Site Seq  gRNA Name Strand Targeting Domain LengthID SCNN1A-2 - GCCCAUACCAGGUCUCAUGG 20 497 SCNN1A-4 -CCAUACCAGGUCUCAUGGAG 20 498 SCNN1A-9 - GCCCUCCACAGUCCACUCCA 20 499SCNN1A-78 + CCCCUCCAUGAGACCUGGUA 20 500 SCNN1A-82 - AUACCAGGUCUCAUGGA 17501 SCNN1A-157 + CUCCAUGAGACCUGGUA 17 502

Table 3B provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the second tier parameters. Thetargeting domains are selected based on the presence of a 5′ G andreasonable proximity to start codon. It is contemplated herein that thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the table can be used witha S. pyogenes Cas9 molecule that gives double stranded cleavage. Any ofthe targeting domains in the table can be used with a S. pyogenes Cas9single-stranded break nucleases (nickases). In an embodiment, dualtargeting is used to create two nicks on opposite DNA strands by usingS. pyogenes Cas9 nickases with two targeting domains that arecomplementary to opposite DNA strands, e.g., a gRNA comprising any minusstrand targeting domain may be paired any gRNA comprising a plus strandtargeting domain provided that the two gRNAs are oriented on the DNAsuch that PAMs face outward and the distance between the 5′ ends of thegRNAs is 0-50 bp. In an embodiment, two 20-mer RNAs are used to targettwo Cas9 nucleases or two Cas9 nickases, e.g., SCNN2A-78 and SCNN1A-9are used.

TABLE 3B Target DNA  Site Seq  gRNA Name Strand Targeting Domain LengthID SCNN1A-1 - GCAGCCCAUACCAGGUCUCA 20 503 SCNN1A-7 -GGGGAACAAGCUGGAGGAGC 20 504 SCNN1A-10 - GUCCACUCCAGGGCUCAUGA 20 505SCNN1A-14 - GGGGAACAAGCGUGAGGAGC 20 506 SCNN1A-15 - GGGAACAAGCGUGAGGAGCA20 507 SCNN1A-16 - GGAACAAGCGUGAGGAGCAG 20 508 SCNN1A-19 -GGGGCUGGGCCCCGAACCUG 20 509 SCNN1A-21 - GGCGCCCCAGCAGCCCACGG 20 510SCNN1A-22 - GCCCCAGCAGCCCACGGCGG 20 511 SCNN1A-24 - GCAGCCCACGGCGGAGGAGG20 512 SCNN1A-31 - GUGCUGUGGCUCUGCACCUU 20 513 SCNN1A-32 -GCACCUUUGGCAUGAUGUAC 20 514 SCNN1A-33 - GGCAUGAUGUACUGGCAAUU 20 515SCNN1A-36 + GUAGGGAUUGAGGGUGCAGA 20 516 SCNN1A-37 + GAGGGUGCAGAUGGUCACUG20 517 SCNN1A-39 + GGGUGCAGAUGGUCACUGCG 20 518 SCNN1A-42 +GAGGUUGAUGUUGAGGCUGA 20 519 SCNN1A-44 + GGUUGAUGUUGAGGCUGACG 20 520SCNN1A-47 + GAGCCACAGCACUGCCCAGA 20 521 SCNN1A-51 + GGUUGUGCUGGGAGCACACC20 522 SCNN1A-56 + GCGGAUGGCGCCGUGGAUGG 20 523 SCNN1A-58 +GAACUCGAAGAGCUCUCGGU 20 524 SCNN1A-62 + GGAGCGGUGGAACUCGAUCA 20 525SCNN1A-68 + GUGGGCUGCUGGGGCGCCGC 20 526 SCNN1A-71 + GCUGGGGCGCCGCAGGUUCG20 527 SCNN1A-76 + GCCCUGGAGUGGACUGUGGA 20 528 SCNN1A-80 -GCCCAUACCAGGUCUCA 17 529 SCNN1A-85 - GGAGGGGAACAAGCUGG 17 530SCNN1A-86 - GAACAAGCUGGAGGAGC 17 531 SCNN1A-92 - GAAGGGGAACAAGCGUG 17532 SCNN1A-93 - GAACAAGCGUGAGGAGC 17 533 SCNN1A-96 - GCGUGAGGAGCAGGGGC17 534 SCNN1A-98 - GCUGGGCCCCGAACCUG 17 535 SCNN1A-99 -GGCGCCCCAGCAGCCCA 17 536 SCNN1A-100 - GCCCCAGCAGCCCACGG 17 537SCNN1A-102 - GCAGCCCACGGCGGAGG 17 538 SCNN1A-103 - GCCCACGGCGGAGGAGG 17539 SCNN1A-106 - GCACAACCGCAUGAAGA 17 540 SCNN1A-107 - GCAUGAAGACGGCCUUC17 541 SCNN1A-115 + GGGAUUGAGGGUGCAGA 17 542 SCNN1A-116 +GGUGCAGAUGGUCACUG 17 543 SCNN1A-117 + GUGCAGAUGGUCACUGC 17 544SCNN1A-121 + GUUGAUGUUGAGGCUGA 17 545 SCNN1A-131 + GCUGGGAGCACACCAGG 17546 SCNN1A-132 + GGAGCACACCAGGCGGA 17 547 SCNN1A-134 + GCGGAUGGCGCCGUGGA17 548 SCNN1A-135 + GAUGGCGCCGUGGAUGG 17 549 SCNN1A-139 +GCUCUCGGUAGGAGCGG 17 550 SCNN1A-141 + GCGGUGGAACUCGAUCA 17 551SCNN1A-142 + GGCCUCCUCCUCCGCCG 17 552 SCNN1A-143 + GCCUCCUCCUCCGCCGU 17553 SCNN1A-147 + GGCUGCUGGGGCGCCGC 17 554 SCNN1A-150 + GGGGCGCCGCAGGUUCG17 555

Table 3C provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the third tier parameters. Thetargeting domains are selected based on reasonable proximity to startcodon. It is contemplated herein that the targeting domain hybridizes tothe target domain through complementary base pairing. Any of thetargeting domains in the table can be used with a S. pyogenes Cas9molecule that gives double stranded cleavage. Any of the targetingdomains in the table can be used with a S. pyogenes Cas9 single-strandedbreak nucleases (nickases). In an embodiment, dual targeting is used tocreate two nicks on opposite DNA strands by using S. pyogenes Cas9nickases with two targeting domains that are complementary to oppositeDNA strands, e.g., a gRNA comprising any minus strand targeting domainmay be paired any gRNA comprising a plus strand targeting domainprovided that the two gRNAs are oriented on the DNA such that PAMs faceoutward and the distance between the 5′ ends of the gRNAs is 0-50 bp. Inan embodiment, two 20-mer RNAs are used to target two Cas9 nucleases ortwo Cas9 nickases, e.g., SCNN1A-78 and SCNN1A-9 are used.

TABLE 3C Target DNA  Site Seq  gRNA Name Strand Targeting Domain LengthID SCNN1A-3 - CCCAUACCAGGUCUCAUGGA 20 556 SCNN1A-5 -UCUCAUGGAGGGGAACAAGC 20 557 SCNN1A-6 - CAUGGAGGGGAACAAGCUGG 20 558SCNN1A-8 - AGCCCUCCACAGUCCACUCC 20 559 SCNN1A-11 - UCCACUCCAGGGCUCAUGAA20 560 SCNN1A-12 - CCACUCCAGGGCUCAUGAAG 20 561 SCNN1A-13 -CAUGAAGGGGAACAAGCGUG 20 562 SCNN1A-17 - CAAGCGUGAGGAGCAGGGGC 20 563SCNN1A-18 - AAGCGUGAGGAGCAGGGGCU 20 564 SCNN1A-20 - UGCGGCGCCCCAGCAGCCCA20 565 SCNN1A-23 - CCAGCAGCCCACGGCGGAGG 20 566 SCNN1A-25 -UGCAACAACACCACCAUCCA 20 567 SCNN1A-26 - CAUCCACGGCGCCAUCCGCC 20 568SCNN1A-27 - CCAGCACAACCGCAUGAAGA 20 569 SCNN1A-28 - ACCGCAUGAAGACGGCCUUC20 570 SCNN1A-29 - CCGCAUGAAGACGGCCUUCU 20 571 SCNN1A-30 -CGGCCUUCUGGGCAGUGCUG 20 572 SCNN1A-34 - UGGCAAUUCGGCCUGCUUUU 20 573SCNN1A-35 - CCUCAACAUCAACCUCAACU 20 574 SCNN1A-38 + AGGGUGCAGAUGGUCACUGC20 575 SCNN1A-40 + AGACGAGCUUGUCCGAGUUG 20 576 SCNN1A-41 +CCGAGUUGAGGUUGAUGUUG 20 577 SCNN1A-43 + AGGUUGAUGUUGAGGCUGAC 20 578SCNN1A-45 + UGAAGUACUCUCCGAAAAGC 20 579 SCNN1A-46 + UUGCCAGUACAUCAUGCCAA20 580 SCNN1A-48 + CCCAGAAGGCCGUCUUCAUG 20 581 SCNN1A-49 +CCGUCUUCAUGCGGUUGUGC 20 582 SCNN1A-50 + CGUCUUCAUGCGGUUGUGCU 20 583SCNN1A-52 + UGUGCUGGGAGCACACCAGG 20 584 SCNN1A-53 + CUGGGAGCACACCAGGCGGA20 585 SCNN1A-54 + ACACCAGGCGGAUGGCGCCG 20 586 SCNN1A-55 +CAGGCGGAUGGCGCCGUGGA 20 587 SCNN1A-57 + AGAAGAACUCGAAGAGCUCU 20 588SCNN1A-59 + CGAAGAGCUCUCGGUAGGAG 20 589 SCNN1A-60 + AGAGCUCUCGGUAGGAGCGG20 590 SCNN1A-61 + AGGAGCGGUGGAACUCGAUC 20 591 SCNN1A-63 +CAGGGCCUCCUCCUCCGCCG 20 592 SCNN1A-64 + AGGGCCUCCUCCUCCGCCGU 20 593SCNN1A-65 + CCUCCUCCGCCGUGGGCUGC 20 594 SCNN1A-66 + CUCCUCCGCCGUGGGCUGCU20 595 SCNN1A-67 + UCCUCCGCCGUGGGCUGCUG 20 596 SCNN1A-69 +CUGCUGGGGCGCCGCAGGUU 20 597 SCNN1A-70 + UGCUGGGGCGCCGCAGGUUC 20 598SCNN1A-72 + UUGUUCCCCUUCAUGAGCCC 20 599 SCNN1A-73 + CCCCUUCAUGAGCCCUGGAG20 600 SCNN1A-74 + AUGAGCCCUGGAGUGGACUG 20 601 SCNN1A-75 +AGCCCUGGAGUGGACUGUGG 20 602 SCNN1A-77 + UUGUUCCCCUCCAUGAGACC 20 603SCNN1A-79 + CCCUCCAUGAGACCUGGUAU 20 604 SCNN1A-81 - CAUACCAGGUCUCAUGG 17605 SCNN1A-83 - UACCAGGUCUCAUGGAG 17 606 SCNN1A-84 - CAUGGAGGGGAACAAGC17 607 SCNN1A-87 - CCUCCACAGUCCACUCC 17 608 SCNN1A-88 -CUCCACAGUCCACUCCA 17 609 SCNN1A-89 - CACUCCAGGGCUCAUGA 17 610SCNN1A-90 - ACUCCAGGGCUCAUGAA 17 611 SCNN1A-91 - CUCCAGGGCUCAUGAAG 17612 SCNN1A-94 - AACAAGCGUGAGGAGCA 17 613 SCNN1A-95 - ACAAGCGUGAGGAGCAG17 614 SCNN1A-97 - CGUGAGGAGCAGGGGCU 17 615 SCNN1A-101 -CCAGCAGCCCACGGCGG 17 616 SCNN1A-104 - AACAACACCACCAUCCA 17 617SCNN1A-105 - CCACGGCGCCAUCCGCC 17 618 SCNN1A-108 - CAUGAAGACGGCCUUCU 17619 SCNN1A-109 - CCUUCUGGGCAGUGCUG 17 620 SCNN1A-110 - CUGUGGCUCUGCACCUU17 621 SCNN1A-111 - CCUUUGGCAUGAUGUAC 17 622 SCNN1A-112 -AUGAUGUACUGGCAAUU 17 623 SCNN1A-113 - CAAUUCGGCCUGCUUUU 17 624SCNN1A-114 - CAACAUCAACCUCAACU 17 625 SCNN1A-118 + UGCAGAUGGUCACUGCG 17626 SCNN1A-119 + CGAGCUUGUCCGAGUUG 17 627 SCNN1A-120 + AGUUGAGGUUGAUGUUG17 628 SCNN1A-122 + UUGAUGUUGAGGCUGAC 17 629 SCNN1A-123 +UGAUGUUGAGGCUGACG 17 630 SCNN1A-124 + AGUACUCUCCGAAAAGC 17 631SCNN1A-125 + CCAGUACAUCAUGCCAA 17 632 SCNN1A-126 + CCACAGCACUGCCCAGA 17633 SCNN1A-127 + AGAAGGCCGUCUUCAUG 17 634 SCNN1A-128 + UCUUCAUGCGGUUGUGC17 635 SCNN1A-129 + CUUCAUGCGGUUGUGCU 17 636 SCNN1A-130 +UGUGCUGGGAGCACACC 17 637 SCNN1A-133 + CCAGGCGGAUGGCGCCG 17 638SCNN1A-136 + AGAACUCGAAGAGCUCU 17 639 SCNN1A-137 + CUCGAAGAGCUCUCGGU 17640 SCNN1A-138 + AGAGCUCUCGGUAGGAG 17 641 SCNN1A-140 + AGCGGUGGAACUCGAUC17 642 SCNN1A-144 + CCUCCGCCGUGGGCUGC 17 643 SCNN1A-145 +CUCCGCCGUGGGCUGCU 17 644 SCNN1A-146 + UCCGCCGUGGGCUGCUG 17 645SCNN1A-148 + CUGGGGCGCCGCAGGUU 17 646 SCNN1A-149 + UGGGGCGCCGCAGGUUC 17647 SCNN1A-151 + UUCCCCUUCAUGAGCCC 17 648 SCNN1A-152 + CUUCAUGAGCCCUGGAG17 649 SCNN1A-153 + AGCCCUGGAGUGGACUG 17 650 SCNN1A-154 +CCUGGAGUGGACUGUGG 17 651 SCNN1A-155 + CUGGAGUGGACUGUGGA 17 652SCNN1A-156 + UUCCCCUCCAUGAGACC 17 653 SCNN1A-158 + UCCAUGAGACCUGGUAU 17654

Table 3D provides exemplary targeting domains for knocking out theSCNN1A gene selected based on reasonable proximity to the start codon.It is contemplated herein that the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a S. aureus Cas9 molecule thatgives double stranded cleavage. Any of the targeting domains in thetable can be used with a S. aureus Cas9 single-stranded break nucleases(nickases). In an embodiment, dual targeting is used to create two nickson opposite DNA strands by using S. aureus Cas9 nickases with twotargeting domains that are complementary to opposite DNA strands, e.g.,a gRNA comprising any minus strand targeting domain may be paired anygRNA comprising a plus strand targeting domain provided that the twogRNAs are oriented on the DNA such that PAMs face outward and thedistance between the 5′ ends of the gRNAs is 0-50 bp.

TABLE 3D Target DNA  Site Seq  gRNA Name Strand Targeting Domain LengthID SCNN1A-159 - UGCAGCCCAUACCAGGUCUC 20 803 SCNN1A-1 -GCAGCCCAUACCAGGUCUCA 20 503 SCNN1A-161 - AGCCCAUACCAGGUCUCAUG 20 804SCNN1A-2 - GCCCAUACCAGGUCUCAUGG 20 497 SCNN1A-3 - CCCAUACCAGGUCUCAUGGA20 556 SCNN1A-4 - CCAUACCAGGUCUCAUGGAG 20 498 SCNN1A-165 -GUCUCAUGGAGGGGAACAAG 20 805 SCNN1A-5 - UCUCAUGGAGGGGAACAAGC 20 557SCNN1A-167 - UCAUGGAGGGGAACAAGCUG 20 806 SCNN1A-6 - CAUGGAGGGGAACAAGCUGG20 558 SCNN1A-169 - AGGGGAACAAGCUGGAGGAG 20 807 SCNN1A-170 -UAGCCCUCCACAGUCCACUC 20 808 SCNN1A-171 - CACAGUCCACUCCAGGGCUC 20 809SCNN1A-172 - AGUCCACUCCAGGGCUCAUG 20 810 SCNN1A-10 -GUCCACUCCAGGGCUCAUGA 20 505 SCNN1A-11 - UCCACUCCAGGGCUCAUGAA 20 560SCNN1A-12 - CCACUCCAGGGCUCAUGAAG 20 561 SCNN1A-176 -GCUCAUGAAGGGGAACAAGC 20 811 SCNN1A-177 - UCAUGAAGGGGAACAAGCGU 20 812SCNN1A-13 - CAUGAAGGGGAACAAGCGUG 20 562 SCNN1A-179 -AGGGGAACAAGCGUGAGGAG 20 813 SCNN1A-14 - GGGGAACAAGCGUGAGGAGC 20 506SCNN1A-181 - ACAAGCGUGAGGAGCAGGGG 20 814 SCNN1A-182 -UGAGGAGCAGGGGCUGGGCC 20 815 SCNN1A-183 - CGGCGCCCCAGCAGCCCACG 20 816SCNN1A-21 - GGCGCCCCAGCAGCCCACGG 20 510 SCNN1A-185 -CGCCCCAGCAGCCCACGGCG 20 817 SCNN1A-22 - GCCCCAGCAGCCCACGGCGG 20 511SCNN1A-187 - CCCAGCAGCCCACGGCGGAG 20 818 SCNN1A-23 -CCAGCAGCCCACGGCGGAGG 20 566 SCNN1A-189 - GGCGGAGGAGGAGGCCCUGA 20 819SCNN1A-190 - AUCGAGUUCCACCGCUCCUA 20 820 SCNN1A-191 -CGAGUUCCACCGCUCCUACC 20 821 SCNN1A-192 - CCGCUCCUACCGAGAGCUCU 20 822SCNN1A-193 - UGUGCUCCCAGCACAACCGC 20 823 SCNN1A-194 -AACCGCAUGAAGACGGCCUU 20 824 SCNN1A-195 - CUGGCAAUUCGGCCUGCUUU 20 825SCNN1A-34 - UGGCAAUUCGGCCUGCUUUU 20 573 SCNN1A-197 -GCAAUUCGGCCUGCUUUUCG 20 826 SCNN1A-198 - GCCUCAACAUCAACCUCAAC 20 827SCNN1A-199 + UCCCCUCCAUGAGACCUGGU 20 828 SCNN1A-200 +CCUCCAGCUUGUUCCCCUCC 20 829 SCNN1A-201 + UGGAGUGGACUGUGGAGGGC 20 830SCNN1A-202 + GAGCCCUGGAGUGGACUGUG 20 831 SCNN1A-74 +AUGAGCCCUGGAGUGGACUG 20 601 SCNN1A-204 + CAUGAGCCCUGGAGUGGACU 20 832SCNN1A-205 + UCCCCUUCAUGAGCCCUGGA 20 833 SCNN1A-72 +UUGUUCCCCUUCAUGAGCCC 20 599 SCNN1A-207 + CUUGUUCCCCUUCAUGAGCC 20 834SCNN1A-208 + CCUCACGCUUGUUCCCCUUC 20 835 SCNN1A-69 +CUGCUGGGGCGCCGCAGGUU 20 597 SCNN1A-210 + GCUGCUGGGGCGCCGCAGGU 20 836SCNN1A-65 + CCUCCUCCGCCGUGGGCUGC 20 594 SCNN1A-212 +UCCUCCUCCGCCGUGGGCUG 20 837 SCNN1A-213 + UCAGGGCCUCCUCCUCCGCC 20 838SCNN1A-214 + UAGGAGCGGUGGAACUCGAU 20 839 SCNN1A-60 +AGAGCUCUCGGUAGGAGCGG 20 590 SCNN1A-216 + AAGAGCUCUCGGUAGGAGCG 20 840SCNN1A-58 + GAACUCGAAGAGCUCUCGGU 20 524 SCNN1A-218 +AGAACUCGAAGAGCUCUCGG 20 841 SCNN1A-219 + UGUUGUUGCAGAAGAACUCG 20 842SCNN1A-220 + UGGUGUUGUUGCAGAAGAAC 20 843 SCNN1A-221 +GGAUGGUGGUGUUGUUGCAG 20 844 SCNN1A-222 + CGUGGAUGGUGGUGUUGUUG 20 845SCNN1A-223 + CACACCAGGCGGAUGGCGCC 20 846 SCNN1A-224 +UUGUGCUGGGAGCACACCAG 20 847 SCNN1A-50 + CGUCUUCAUGCGGUUGUGCU 20 583SCNN1A-49 + CCGUCUUCAUGCGGUUGUGC 20 582 SCNN1A-227 +GCCGUCUUCAUGCGGUUGUG 20 848 SCNN1A-228 + UGCAGAGCCACAGCACUGCC 20 849SCNN1A-229 + AGUACAUCAUGCCAAAGGUG 20 850 SCNN1A-230 +AGUACUCUCCGAAAAGCAGG 20 851 SCNN1A-231 + CGGGGUAGCUGAAGUACUCU 20 852SCNN1A-232 + UGUUGAGGCUGACGGGGUAG 20 853 SCNN1A-42 +GAGGUUGAUGUUGAGGCUGA 20 519 SCNN1A-234 + UGAGGUUGAUGUUGAGGCUG 20 854SCNN1A-235 + UGUCCGAGUUGAGGUUGAUG 20 855 SCNN1A-236 +GGAAGACGAGCUUGUCCGAG 20 856 SCNN1A-237 + UGCGGGGAAGACGAGCUUGU 20 857SCNN1A-238 + AGAUGGUCACUGCGGGGAAG 20 858 SCNN1A-39 +GGGUGCAGAUGGUCACUGCG 20 518 SCNN1A-38 + AGGGUGCAGAUGGUCACUGC 20 575SCNN1A-37 + GAGGGUGCAGAUGGUCACUG 20 517 SCNN1A-242 +UGAGGGUGCAGAUGGUCACU 20 859 SCNN1A-243 - AGCCCAUACCAGGUCUC 17 860SCNN1A-80 - GCCCAUACCAGGUCUCA 17 529 SCNN1A-245 - CCAUACCAGGUCUCAUG 17861 SCNN1A-81 - CAUACCAGGUCUCAUGG 17 605 SCNN1A-82 - AUACCAGGUCUCAUGGA17 501 SCNN1A-83 - UACCAGGUCUCAUGGAG 17 606 SCNN1A-249 -UCAUGGAGGGGAACAAG 17 862 SCNN1A-84 - CAUGGAGGGGAACAAGC 17 607SCNN1A-251 - UGGAGGGGAACAAGCUG 17 863 SCNN1A-85 - GGAGGGGAACAAGCUGG 17530 SCNN1A-253 - GGAACAAGCUGGAGGAG 17 864 SCNN1A-254 - CCCUCCACAGUCCACUC17 865 SCNN1A-255 - AGUCCACUCCAGGGCUC 17 866 SCNN1A-256 -CCACUCCAGGGCUCAUG 17 867 SCNN1A-89 - CACUCCAGGGCUCAUGA 17 610SCNN1A-90 - ACUCCAGGGCUCAUGAA 17 611 SCNN1A-91 - CUCCAGGGCUCAUGAAG 17612 SCNN1A-260 - CAUGAAGGGGAACAAGC 17 868 SCNN1A-261 - UGAAGGGGAACAAGCGU17 869 SCNN1A-92 - GAAGGGGAACAAGCGUG 17 532 SCNN1A-263 -GGAACAAGCGUGAGGAG 17 870 SCNN1A-93 - GAACAAGCGUGAGGAGC 17 533SCNN1A-265 - AGCGUGAGGAGCAGGGG 17 871 SCNN1A-266 - GGAGCAGGGGCUGGGCC 17872 SCNN1A-267 - CGCCCCAGCAGCCCACG 17 873 SCNN1A-100 - GCCCCAGCAGCCCACGG17 537 SCNN1A-269 - CCCAGCAGCCCACGGCG 17 874 SCNN1A-101 -CCAGCAGCCCACGGCGG 17 616 SCNN1A-271 - AGCAGCCCACGGCGGAG 17 875SCNN1A-102 - GCAGCCCACGGCGGAGG 17 538 SCNN1A-273 - GGAGGAGGAGGCCCUGA 17876 SCNN1A-274 - GAGUUCCACCGCUCCUA 17 877 SCNN1A-275 - GUUCCACCGCUCCUACC17 878 SCNN1A-276 - CUCCUACCGAGAGCUCU 17 879 SCNN1A-277 -GCUCCCAGCACAACCGC 17 880 SCNN1A-278 - CGCAUGAAGACGGCCUU 17 881SCNN1A-279 - GCAAUUCGGCCUGCUUU 17 882 SCNN1A-113 - CAAUUCGGCCUGCUUUU 17624 SCNN1A-281 - AUUCGGCCUGCUUUUCG 17 883 SCNN1A-282 - UCAACAUCAACCUCAAC17 884 SCNN1A-283 + CCUCCAUGAGACCUGGU 17 885 SCNN1A-284 +CCAGCUUGUUCCCCUCC 17 886 SCNN1A-285 + AGUGGACUGUGGAGGGC 17 887SCNN1A-286 + CCCUGGAGUGGACUGUG 17 888 SCNN1A-153 + AGCCCUGGAGUGGACUG 17650 SCNN1A-288 + GAGCCCUGGAGUGGACU 17 889 SCNN1A-289 + CCUUCAUGAGCCCUGGA17 890 SCNN1A-151 + UUCCCCUUCAUGAGCCC 17 648 SCNN1A-291 +GUUCCCCUUCAUGAGCC 17 891 SCNN1A-292 + CACGCUUGUUCCCCUUC 17 892SCNN1A-148 + CUGGGGCGCCGCAGGUU 17 646 SCNN1A-294 + GCUGGGGCGCCGCAGGU 17893 SCNN1A-144 + CCUCCGCCGUGGGCUGC 17 643 SCNN1A-296 + UCCUCCGCCGUGGGCUG17 894 SCNN1A-297 + GGGCCUCCUCCUCCGCC 17 895 SCNN1A-298 +GAGCGGUGGAACUCGAU 17 896 SCNN1A-139 + GCUCUCGGUAGGAGCGG 17 550SCNN1A-300 + AGCUCUCGGUAGGAGCG 17 897 SCNN1A-137 + CUCGAAGAGCUCUCGGU 17640 SCNN1A-302 + ACUCGAAGAGCUCUCGG 17 898 SCNN1A-303 + UGUUGCAGAAGAACUCG17 899 SCNN1A-304 + UGUUGUUGCAGAAGAAC 17 900 SCNN1A-305 +UGGUGGUGUUGUUGCAG 17 901 SCNN1A-306 + GGAUGGUGGUGUUGUUG 17 902SCNN1A-307 + ACCAGGCGGAUGGCGCC 17 903 SCNN1A-308 + UGCUGGGAGCACACCAG 17904 SCNN1A-129 + CUUCAUGCGGUUGUGCU 17 636 SCNN1A-128 + UCUUCAUGCGGUUGUGC17 635 SCNN1A-311 + GUCUUCAUGCGGUUGUG 17 905 SCNN1A-312 +AGAGCCACAGCACUGCC 17 906 SCNN1A-313 + ACAUCAUGCCAAAGGUG 17 907SCNN1A-314 + ACUCUCCGAAAAGCAGG 17 908 SCNN1A-315 + GGUAGCUGAAGUACUCU 17909 SCNN1A-316 + UGAGGCUGACGGGGUAG 17 910 SCNN1A-121 + GUUGAUGUUGAGGCUGA17 545 SCNN1A-318 + GGUUGAUGUUGAGGCUG 17 911 SCNN1A-319 +CCGAGUUGAGGUUGAUG 17 912 SCNN1A-320 + AGACGAGCUUGUCCGAG 17 913SCNN1A-321 + GGGGAAGACGAGCUUGU 17 914 SCNN1A-322 + UGGUCACUGCGGGGAAG 17915 SCNN1A-118 + UGCAGAUGGUCACUGCG 17 626 SCNN1A-117 + GUGCAGAUGGUCACUGC17 544 SCNN1A-116 + GGUGCAGAUGGUCACUG 17 543 SCNN1A-326 +GGGUGCAGAUGGUCACU 17 916

Table 4A provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G), have a high level of orthogonality and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 4A 1st Tier Target  DNA  Site   gRNA Name Strand Targeting DomainLength Seq ID CFTR-2789-1 + GAAGCAGCCACCUGGAA 17 937 CFTR-2789-2 +GGAAUAUUCACUUUCCA 17 938 CFTR-2789-3 - GAAUUUAGAUGUGGGCA 17 939CFTR-2789-4 - GUGUCUUGUUCCAUUCC 17 940 CFTR-2789-5 - GUGGGCAUGGGAGGAAU17 941 CFTR-2789-6 - GUUGUGCUGUGGCUCCU 17 942 CFTR-2789-7 -GAUGUGAAUUUAGAUGU 17 943 CFTR-2789-8 - GACCCAGGAACACAAAGCAA 20 944CFTR-2789-9 + GUGUCACCUCACCCAACUAA 20 945 CFTR-2789-10 -GUGUCUUGUUCCAUUCCAGG 20 946 CFTR-2789-11 - GAUGUGGGCAUGGGAGGAAU 20 947CFTR-2789-12 - GUGAAUUUAGAUGUGGGCAU 20 948

Table 4B provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G) and have a high level of orthogonality. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 4B  2nd Tier Target  DNA  Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-2789-13 - UUGGUACACACAUCAAA 17 949 CFTR-2789-14 +UCACCUCACCCAACUAA 17 950 CFTR-2789-15 + AUCUACACAAUAGGACA 17 951CFTR-2789-16 + UGUGUGUACCAAUAUCA 17 952 CFTR-2789-17 - AUGGUAGUGGAAAGAUA17 953 CFTR-2789-18 - AUUUCUCCCAAGCAUUA 17 954 CFTR-2789-19 +CCAAAGAAGCAGCCACC 17 955 CFTR-2789-20 + CCUUUGCUUUGUGUUCC 17 956CFTR-2789-21 - CCCAAGCAUUAUGGUAG 17 957 CFTR-2789-22 - UUAGAUGUGGGCAUGGG17 958 CFTR-2789-23 - CUUCUUUGGUUGUGCUG 17 959 CFTR-2789-24 -UGACCAUUAGUUGGGUG 17 960 CFTR-2789-25 - AAUUUAGAUGUGGGCAU 17 961CFTR-2789-26 - UGUGUGUACCUUGAUAU 17 962 CFTR-2789-27 + UCCACUACCAUAAUGCU17 963 CFTR-2789-28 - AAAUGAUGACCAUUAGU 17 964 CFTR-2789-29 +CCACUACCAUAAUGCUU 17 965 CFTR-2789-30 - CCAGGUGGCUGCUUCUU 17 966CFTR-2789-31 - AUAUUGGUACACACAUCAAA 20 967 CFTR-2789-32 +AAAGAAGCAGCCACCUGGAA 20 968 CFTR-2789-33 + ACAAUCUACACAAUAGGACA 20 969CFTR-2789-34 - UGUGAAUUUAGAUGUGGGCA 20 970 CFTR-2789-35 +UGAUGUGUGUACCAAUAUCA 20 971 CFTR-2789-36 - AUUAUGGUAGUGGAAAGAUA 20 972CFTR-2789-37 - UUCAUUUCUCCCAAGCAUUA 20 973 CFTR-2789-38 +CAACCAAAGAAGCAGCCACC 20 974 CFTR-2789-39 - ACUGUGUCUUGUUCCAUUCC 20 975CFTR-2789-40 + CUUCCUUUGCUUUGUGUUCC 20 976 CFTR-2789-41 +UACAAUACAUACAAACAUAG 20 977 CFTR-2789-42 - UCUCCCAAGCAUUAUGGUAG 20 978CFTR-2789-43 - AAUUUAGAUGUGGGCAUGGG 20 979 CFTR-2789-44 -CUGCUUCUUUGGUUGUGCUG 20 980 CFTR-2789-45 - UGAUGACCAUUAGUUGGGUG 20 981CFTR-2789-46 - AAUUGUGUGUACCUUGAUAU 20 982 CFTR-2789-47 -UUGGUUGUGCUGUGGCUCCU 20 983 CFTR-2789-48 + CUUUCCACUACCAUAAUGCU 20 984CFTR-2789-49 - UUUAAAUGAUGACCAUUAGU 20 985 CFTR-2789-50 -UGUGAUGUGAAUUUAGAUGU 20 986 CFTR-2789-51 + UUUCCACUACCAUAAUGCUU 20 987CFTR-2789-52 - AUUCCAGGUGGCUGCUUCUU 20 988 CFTR-2789-53 -UUAAAUGAUGACCAUUAGUU 20 989

Table 4C provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G) and start with a 5′G. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable can be used with a S. pyogenes Cas9 molecule that generates adouble stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 4C  3rd Tier Target  DNA  Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-2789-54 + GGAGGAGCUAGGACUAC 17 990 CFTR-2789-55 +GGAGAAAUGAAACAAAG 17 991 CFTR-2789-56 - GUGUGAUGUGAAUUUAGAUG 20 992

Table 4D provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 4D  4th Tier Target  DNA Site Seq  gRNA Name StrandTargeting Domain Length ID CFTR-2789-57 - CCAGGAACACAAAGCAA 17  993CFTR-2789-58 - AGUCCUAGCUCCUCCAC 17   994 CFTR-2789-59 +AAUACAUACAAACAUAG 17   995 CFTR-2789-60 - UCUUGUUCCAUUCCAGG 17  996CFTR-2789-61 - UGAUGUGAAUUUAGAUG 17   997 CFTR-2789-62 +AACACAAUCUACACAAU 17  998 CFTR-2789-63 + CUUUGCUUUGUGUUCCU 17  999CFTR-2789-64 - AAUGAUGACCAUUAGUU 17 1000 CFTR-2789-65 +CAUGGAAUAUUCACUUUCCA 20 1001 CFTR-2789-66 - UGUAGUCCUAGCUCCUCCAC 20 1002CFTR-2789-67 + UGUGGAGGAGCUAGGACUAC 20 1003 CFTR-2789-68 +UUGGGAGAAAUGAAACAAAG 20 1004 CFTR-2789-69 + UAAAACACAAUCUACACAAU 20 1005CFTR-2789-70 + UUCCUUUGCUUUGUGUUCCU 20 1006

Table 5A provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G), have a high level of orthogonality, start with a 5′G,and PAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 5A  1st Tier DNA  Target Site gRNA Name  Strand Targeting DomainLength Seq ID CFTR-2789-71 + GAUUACAAUACAUACAAACAUA 22 1007CFTR-2789-72 + GGAUUACAAUACAUACAAACAUA 23 1008 CFTR-2789-73 -GCUGUGGCUCCUUGGAAA 18 1009 CFTR-2789-74 - GUGCUGUGGCUCCUUGGAAA 20 1010CFTR-2789-75 - GUUGUGCUGUGGCUCCUUGGAAA 23 1011 CFTR-2789-76 -GGUUGUGCUGUGGCUCCUUGGAAA 24 1012 CFTR-2789-77 - GUUUAAAUGAUGACCAUUAG 201013 CFTR-2789-78 - GUACACACAUCAAAUGGUGUGAU 23 1014 CFTR-2789-79 -GGUACACACAUCAAAUGGUGUGAU 24 1015

Table 5B provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G), have a high level of orthogonality and PAM is NNGRRT.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 5B 2nd Tier Target DNA  Site Seq  gRNA Name StrandTargeting Domain Length ID CFTR-2789-80 + UGGGAGAAAUGAAACAAA 18 1016CFTR-2789-81 + UUGGGAGAAAUGAAACAAA 19 1017 CFTR-2789-82 +CUUGGGAGAAAUGAAACAAA 20 1018 CFTR-2789-83 + ACAAUACAUACAAACAUA 18 1019CFTR-2789-84 + UACAAUACAUACAAACAUA 19 1020 CFTR-2789-85 +UUACAAUACAUACAAACAUA 20 1021 CFTR-2789-86 + AUUACAAUACAUACAAACAUA 211022 CFTR-2789-87 + UGGAUUACAAUACAUACAAACAUA 24 1023 CFTR-2789-88 +ACCAAAGAAGCAGCCACC 18 1024 CFTR-2789-89 + AACCAAAGAAGCAGCCACC 19 1025CFTR-2789-38 + CAACCAAAGAAGCAGCCACC 20  974 CFTR-2789-90 +UUCCUUUGCUUUGUGUUC 18 1026 CFTR-2789-91 + CUUCCUUUGCUUUGUGUUC 19 1027CFTR-2789-92 + UCUUCCUUUGCUUUGUGUUC 20 1028 CFTR-2789-93 -UGCUGUGGCUCCUUGGAAA 19 1029 CFTR-2789-94 - UGUGCUGUGGCUCCUUGGAAA 21 1030CFTR-2789-95 - UUGUGCUGUGGCUCCUUGGAAA 22 1031 CFTR-2789-96 -UUAAAUGAUGACCAUUAG 18 1032 CFTR-2789-97 - UUUAAAUGAUGACCAUUAG 19 1033CFTR-2789-98 - UGUUUAAAUGAUGACCAUUAG 21 1034 CFTR-2789-99 -UUGUUUAAAUGAUGACCAUUAG 22 1035 CFTR-2789-100 - UUUGUUUAAAUGAUGACCAUUAG23 1036 CFTR-2789-101 - UUUUGUUUAAAUGAUGACCAUUAG 24 1037 CFTR-2789-102 -UUUAGAUGUGGGCAUGGG 18 1038 CFTR-2789-103 - AUUUAGAUGUGGGCAUGGG 19 1039CFTR-2789-43 - AAUUUAGAUGUGGGCAUGGG 20  979 CFTR-2789-104 -CACAUCAAAUGGUGUGAU 18 1040 CFTR-2789-105 - ACACAUCAAAUGGUGUGAU 19 1041CFTR-2789-106 - CACACAUCAAAUGGUGUGAU 20 1042 CFTR-2789-107 -ACACACAUCAAAUGGUGUGAU 21 1043 CFTR-2789-108 - UACACACAUCAAAUGGUGUGAU 221044

Table 5C provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G), starts with a 5′G and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 5C  3rd Tier DNA  Target Site   gRNA Name Strand Targeting DomainLength Seq ID CFTR-2789-109 + GCUUGGGAGAAAUGAAACAAA 21 1045CFTR-2789-110 + GUGGAGGAGCUAGGACUAC 19 1046 CFTR-2789-111 +GCACAACCAAAGAAGCAGCCACC 23 1047  CFTR-2789-112 - GAAUUUAGAUGUGGGCAUGGG21 1048 CFTR-2789-113 - GUGAAUUUAGAUGUGGGCAUGGG 23 1049

Table 5D provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G), and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 5D  4th Tier Target  DNA  Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-2789-114 + UGCUUGGGAGAAAUGAAACAAA 22 1050CFTR-2789-115 + AUGCUUGGGAGAAAUGAAACAAA 23 1051 CFTR-2789-116 +AAUGCUUGGGAGAAAUGAAACAAA 24 1052 CFTR-2789-117 + AAUCUACACAAUAGGACA 181053 CFTR-2789-118 + CAAUCUACACAAUAGGACA 19 1054 CFTR-2789-33 +ACAAUCUACACAAUAGGACA 20  969 CFTR-2789-119 + CACAAUCUACACAAUAGGACA 211055 CFTR-2789-120 + ACACAAUCUACACAAUAGGACA 22 1056 CFTR-2789-121 +AACACAAUCUACACAAUAGGACA 23 1057 CFTR-2789-122 + AAACACAAUCUACACAAUAGGACA24 1058 CFTR-2789-123 + UGGAGGAGCUAGGACUAC 18 1059 CFTR-2789-67 +UGUGGAGGAGCUAGGACUAC 20 1003 CFTR-2789-124 + ACAACCAAAGAAGCAGCCACC 211060 CFTR-2789-125 + CACAACCAAAGAAGCAGCCACC 22 1061 CFTR-2789-126 +AGCACAACCAAAGAAGCAGCCACC 24 1062 CFTR-2789-127 + AUCUUCCUUUGCUUUGUGUUC21 1063 CFTR-2789-128 + CAUCUUCCUUUGCUUUGUGUUC 22 1064 CFTR-2789-129 +UCAUCUUCCUUUGCUUUGUGUUC 23 1065 CFTR-2789-130 + UUCAUCUUCCUUUGCUUUGUGUUC24 1066 CFTR-2789-131 - UGAAUUUAGAUGUGGGCAUGGG 22 1067 CFTR-2789-132 -UGUGAAUUUAGAUGUGGGCAUGGG 24 1068

Table 5E provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G), and PAM is NNGRRV. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 5E  5th Tier DNA  Target Site Seq  gRNA Name StrandTargeting Domain Length ID CFTR-2789-133 + AAAACACAAUCUACACAA 18 1069 CFTR-2789-134 + UAAAACACAAUCUACACAA 19 1070  CFTR-2789-135 +AUAAAACACAAUCUACACAA 20 1071 CFTR-2789-136 + AAUAAAACACAAUCUACACAA 211072 CFTR-2789-137 + AAAUAAAACACAAUCUACACAA 22 1073 CFTR-2789-138 +GAAAUAAAACACAAUCUACACAA 23 1074 CFTR-2789-139 + AGAAAUAAAACACAAUCUACACAA24 1075 CFTR-2789-140 + AUUACAAUAUUUAAUCAA 18 1076 CFTR-2789-141 +GAUUACAAUAUUUAAUCAA 19 1077 CFTR-2789-142 + GGAUUACAAUAUUUAAUCAA 20 1078CFTR-2789-143 + UGGAUUACAAUAUUUAAUCAA 21 1079 CFTR-2789-144 +GUGGAUUACAAUAUUUAAUCAA 22 1080 CFTR-2789-145 + AGUGGAUUACAAUAUUUAAUCAA23 1081 CFTR-2789-146 + UAGUGGAUUACAAUAUUUAAUCAA 24 1082 CFTR-2789-147 +CCAUAAUGCUUGGGAGAA 18 1083 CFTR-2789-148 + ACCAUAAUGCUUGGGAGAA 19 1084CFTR-2789-149 + UACCAUAAUGCUUGGGAGAA 20 1085 CFTR-2789-150 +CUACCAUAAUGCUUGGGAGAA 21 1086 CFTR-2789-151 + ACUACCAUAAUGCUUGGGAGAA 221087 CFTR-2789-152 + CACUACCAUAAUGCUUGGGAGAA 23 1088 CFTR-2789-153 +CCACUACCAUAAUGCUUGGGAGAA 24 1089 CFTR-2789-154 + AGAAGCAGCCACCUGGAA 181090 CFTR-2789-155 + AAGAAGCAGCCACCUGGAA 19 1091 CFTR-2789-32 +AAAGAAGCAGCCACCUGGAA 20  968 CFTR-2789-156 + CAAAGAAGCAGCCACCUGGAA 211092 CFTR-2789-157 + CCAAAGAAGCAGCCACCUGGAA 22 1093  CFTR-2789-158 +ACCAAAGAAGCAGCCACCUGGAA 23 1094 CFTR-2789-159 + AACCAAAGAAGCAGCCACCUGGAA24 1095 CFTR-2789-160 + GGAGCCACAGCACAACCA 18 1096 CFTR-2789-161 +AGGAGCCACAGCACAACCA 19 1097 CFTR-2789-162 + AAGGAGCCACAGCACAACCA 20 1098CFTR-2789-163 + CAAGGAGCCACAGCACAACCA 21 1099 CFTR-2789-164 +CCAAGGAGCCACAGCACAACCA 22 1100 CFTR-2789-165 + UCCAAGGAGCCACAGCACAACCA23 1101 CFTR-2789-166 + UUCCAAGGAGCCACAGCACAACCA 24 1102 CFTR-2789-167 +UGGAAUAUUCACUUUCCA 18 1103 CFTR-2789-168 + AUGGAAUAUUCACUUUCCA 19 1104CFTR-2789-65 + CAUGGAAUAUUCACUUUCCA 20 1001 CFTR-2789-169 +ACAUGGAAUAUUCACUUUCCA 21 1105 CFTR-2789-170 + GACAUGGAAUAUUCACUUUCCA 221106 CFTR-2789-171 + GGACAUGGAAUAUUCACUUUCCA 23 1107 CFTR-2789-172 +AGGACAUGGAAUAUUCACUUUCCA 24 1108 CFTR-2789-173 + AAGAAGCAGCCACCUGGA 181109 CFTR-2789-174 + AAAGAAGCAGCCACCUGGA 19 1110 CFTR-2789-175 +CAAAGAAGCAGCCACCUGGA 20 1111 CFTR-2789-176 + CCAAAGAAGCAGCCACCUGGA 211112 CFTR-2789-177 + ACCAAAGAAGCAGCCACCUGGA 22 1113 CFTR-2789-178 +AACCAAAGAAGCAGCCACCUGGA 23 1114 CFTR-2789-179 + CAACCAAAGAAGCAGCCACCUGGA24 1115 CFTR-2789-180 + GUGGAGGAGCUAGGACUA 18 1116 CFTR-2789-181 +UGUGGAGGAGCUAGGACUA 19 1117 CFTR-2789-182 + CUGUGGAGGAGCUAGGACUA 20 1118CFTR-2789-183 + AACCAAAGAAGCAGCCAC 18 1119 CFTR-2789-184 +CAACCAAAGAAGCAGCCAC 19 1120 CFTR-2789-185 + ACAACCAAAGAAGCAGCCAC 20 1121CFTR-2789-186 + CACAACCAAAGAAGCAGCCAC 21 1122 CFTR-2789-187 +GCACAACCAAAGAAGCAGCCAC 22 1123 CFTR-2789-188 + AGCACAACCAAAGAAGCAGCCAC23 1124 CFTR-2789-189 + CAGCACAACCAAAGAAGCAGCCAC 24 1125 CFTR-2789-190 +CAAUCUACACAAUAGGAC 18 1126 CFTR-2789-191 + ACAAUCUACACAAUAGGAC 19 1127CFTR-2789-192 + CACAAUCUACACAAUAGGAC 20 1128 CFTR-2789-193 +ACACAAUCUACACAAUAGGAC 21 1129 CFTR-2789-194 + AACACAAUCUACACAAUAGGAC 221130  CFTR-2789-195 + AAACACAAUCUACACAAUAGGAC 23 1131 CFTR-2789-196 +AAAACACAAUCUACACAAUAGGAC 24 1132 CFTR-2789-197 + AUGGAAUAUUCACUUUCC 181133 CFTR-2789-198 + CAUGGAAUAUUCACUUUCC 19 1134 CFTR-2789-199 +ACAUGGAAUAUUCACUUUCC 20 1135 CFTR-2789-200 + GACAUGGAAUAUUCACUUUCC 211136 CFTR-2789-201 + GGACAUGGAAUAUUCACUUUCC 22 1137 CFTR-2789-202 +AGGACAUGGAAUAUUCACUUUCC 23 1138 CFTR-2789-203 + UAGGACAUGGAAUAUUCACUUUCC24 1139 CFTR-2789-204 + UUUCCACUACCAUAAUGC 18 1140  CFTR-2789-205 +CUUUCCACUACCAUAAUGC 19 1141 CFTR-2789-206 + UCUUUCCACUACCAUAAUGC 20 1142CFTR-2789-207 + AUCUUUCCACUACCAUAAUGC 21 1143 CFTR-2789-208 +UAUCUUUCCACUACCAUAAUGC 22 1144  CFTR-2789-209 + UUAUCUUUCCACUACCAUAAUGC23 1145 CFTR-2789-210 + CUUAUCUUUCCACUACCAUAAUGC 24 1146 CFTR-2789-211 +CACUACCAUAAUGCUUGG 18 1147 CFTR-2789-212 + CCACUACCAUAAUGCUUGG 19 1148CFTR-2789-213 + UCCACUACCAUAAUGCUUGG 20 1149 CFTR-2789-214 +UUCCACUACCAUAAUGCUUGG 21 1150 CFTR-2789-215 + UUUCCACUACCAUAAUGCUUGG 221151 CFTR-2789-216 + CUUUCCACUACCAUAAUGCUUGG 23 1152 CFTR-2789-217 +UCUUUCCACUACCAUAAUGCUUGG 24 1153 CFTR-2789-218 + UUCCACUACCAUAAUGCU 181154 CFTR-2789-219 + UUUCCACUACCAUAAUGCU 19 1155 CFTR-2789-48 +CUUUCCACUACCAUAAUGCU 20  984 CFTR-2789-220 + UCUUUCCACUACCAUAAUGCU 211156 CFTR-2789-221 + AUCUUUCCACUACCAUAAUGCU 22 1157  CFTR-2789-222 +UAUCUUUCCACUACCAUAAUGCU 23 1158 CFTR-2789-223 + UUAUCUUUCCACUACCAUAAUGCU24 1159 CFTR-2789-224 + UCCACUACCAUAAUGCUU 18 1160 CFTR-2789-225 +UUCCACUACCAUAAUGCUU 19 1161 CFTR-2789-51 + UUUCCACUACCAUAAUGCUU 20  987CFTR-2789-226 + CUUUCCACUACCAUAAUGCUU 21 1162 CFTR-2789-227 +UCUUUCCACUACCAUAAUGCUU 22 1163 CFTR-2789-228 + AUCUUUCCACUACCAUAAUGCUU23 1164 CFTR-2789-229 + UAUCUUUCCACUACCAUAAUGCUU 24 1165 CFTR-2789-230 -CCCAGGAACACAAAGCAA 18 1166 CFTR-2789-231 - ACCCAGGAACACAAAGCAA 19 1167CFTR-2789-8 - GACCCAGGAACACAAAGCAA 20  944 CFTR-2789-232 -GGACCCAGGAACACAAAGCAA 21 1168 CFTR-2789-233 - UGGACCCAGGAACACAAAGCAA 221169  CFTR-2789-234 - CUGGACCCAGGAACACAAAGCAA 23 1170 CFTR-2789-235 -GCUGGACCCAGGAACACAAAGCAA 24 1171 CFTR-2789-236 - ACCCAGGAACACAAAGCA 181172 CFTR-2789-237 - GACCCAGGAACACAAAGCA 19 1173 CFTR-2789-238 -GGACCCAGGAACACAAAGCA 20 1174 CFTR-2789-239 - UGGACCCAGGAACACAAAGCA 211175 CFTR-2789-240 - CUGGACCCAGGAACACAAAGCA 22 1176 CFTR-2789-241 -GCUGGACCCAGGAACACAAAGCA 23 1177 CFTR-2789-242 - UGCUGGACCCAGGAACACAAAGCA24 1178 CFTR-2789-243 - UGAAUUUAGAUGUGGGCA 18 1179 CFTR-2789-244 -GUGAAUUUAGAUGUGGGCA 19 1180 CFTR-2789-34 - UGUGAAUUUAGAUGUGGGCA 20  970CFTR-2789-245 - AUGUGAAUUUAGAUGUGGGCA 21 1181 CFTR-2789-246 -GAUGUGAAUUUAGAUGUGGGCA 22 1182 CFTR-2789-247 - UGAUGUGAAUUUAGAUGUGGGCA 23 1183 CFTR-2789-248 - GUGAUGUGAAUUUAGAUGUGGGCA 24 1184 CFTR-2789-249 -CUCCCAAGCAUUAUGGUA 18 1185 CFTR-2789-250 - UCUCCCAAGCAUUAUGGUA 19 1186CFTR-2789-251 - UUCUCCCAAGCAUUAUGGUA 20 1187 CFTR-2789-252 -UUUCUCCCAAGCAUUAUGGUA 21 1188 CFTR-2789-253 - AUUUCUCCCAAGCAUUAUGGUA 221189 CFTR-2789-254 - CAUUUCUCCCAAGCAUUAUGGUA 23 1190 CFTR-2789-255 -UCAUUUCUCCCAAGCAUUAUGGUA 24 1191 CFTR-2789-256 - UGGUUGUGCUGUGGCUCC 181192 CFTR-2789-257 - UUGGUUGUGCUGUGGCUCC 19 1193 CFTR-2789-258 -UUUGGUUGUGCUGUGGCUCC 20 1194 CFTR-2789-259 - CUUUGGUUGUGCUGUGGCUCC 211195 CFTR-2789-260 - UCUUUGGUUGUGCUGUGGCUCC 22 1196 CFTR-2789-261 -UUCUUUGGUUGUGCUGUGGCUCC 23 1197 CFTR-2789-262 - CUUCUUUGGUUGUGCUGUGGCUCC24 1198 CFTR-2789-263 - GUGAAUUUAGAUGUGGGC 18 1199 CFTR-2789-264 -UGUGAAUUUAGAUGUGGGC 19 1200 CFTR-2789-265 - AUGUGAAUUUAGAUGUGGGC 20 1201CFTR-2789-266 - GAUGUGAAUUUAGAUGUGGGC 21 1202 CFTR-2789-267 -UGAUGUGAAUUUAGAUGUGGGC 22 1203 CFTR-2789-268 - GUGAUGUGAAUUUAGAUGUGGGC23 1204 CFTR-2789-269 - UGUGAUGUGAAUUUAGAUGUGGGC 24 1205 CFTR-2789-270 -AACACAAAGCAAAGGAAG 18 1206 CFTR-2789-271 - GAACACAAAGCAAAGGAAG 19 1207CFTR-2789-272 - GGAACACAAAGCAAAGGAAG 20 1208 CFTR-2789-273 -AGGAACACAAAGCAAAGGAAG 21 1209 CFTR-2789-274 - CAGGAACACAAAGCAAAGGAAG 221210 CFTR-2789-275 - CCAGGAACACAAAGCAAAGGAAG 23 1211 CFTR-2789-276 -CCCAGGAACACAAAGCAAAGGAAG 24 1212 CFTR-2789-277 - UGGGCAUGGGAGGAAUAG 181213 CFTR-2789-278 - GUGGGCAUGGGAGGAAUAG 19 1214 CFTR-2789-279 -UGUGGGCAUGGGAGGAAUAG 20 1215 CFTR-2789-280 - AUGUGGGCAUGGGAGGAAUAG 211216 CFTR-2789-281 - GAUGUGGGCAUGGGAGGAAUAG 22 1217 CFTR-2789-282 -AGAUGUGGGCAUGGGAGGAAUAG 23 1218 CFTR-2789-283 - UAGAUGUGGGCAUGGGAGGAAUAG24 1219 CFTR-2789-284 - UCCCAAGCAUUAUGGUAG 18 1220 CFTR-2789-285 -CUCCCAAGCAUUAUGGUAG 19 1221 CFTR-2789-42 - UCUCCCAAGCAUUAUGGUAG 20  978CFTR-2789-286 - UUCUCCCAAGCAUUAUGGUAG 21 1222 CFTR-2789-287 -UUUCUCCCAAGCAUUAUGGUAG 22 1223 CFTR-2789-288 - AUUUCUCCCAAGCAUUAUGGUAG23 1224 CFTR-2789-289 - CAUUUCUCCCAAGCAUUAUGGUAG 24 1225 CFTR-2789-290 -AUUUAGAUGUGGGCAUGG 18 1226 CFTR-2789-291 - AAUUUAGAUGUGGGCAUGG 19 1227CFTR-2789-292 - GAAUUUAGAUGUGGGCAUGG 20 1228 CFTR-2789-293 -UGAAUUUAGAUGUGGGCAUGG 21 1229 CFTR-2789-294 - GUGAAUUUAGAUGUGGGCAUGG 221230 CFTR-2789-295 - UGUGAAUUUAGAUGUGGGCAUGG 23 1231 CFTR-2789-296 -AUGUGAAUUUAGAUGUGGGCAGGU 24 1232 CFTR-2789-297 - AUGAUGACCAUUAGUUGG 181233 CFTR-2789-298 - AAUGAUGACCAUUAGUUGG 19 1234 CFTR-2789-299 -AAAUGAUGACCAUUAGUUGG 20 1235 CFTR-2789-300 - UAAAUGAUGACCAUUAGUUGG 211236 CFTR-2789-301 - UUAAAUGAUGACCAUUAGUUGG 22 1237 CFTR-2789-302 -UUUAAAUGAUGACCAUUAGUUGG 23 1238 CFTR-2789-303 - GUUUAAAUGAUGACCAUUAGUUGG24 1239 CFTR-2789-304 - GAAUUUAGAUGUGGGCAU 18 1240 CFTR-2789-305 -UGAAUUUAGAUGUGGGCAU 19 1241 CFTR-2789-12 - GUGAAUUUAGAUGUGGGCAU 20  948CFTR-2789-306 - UGUGAAUUUAGAUGUGGGCAU 21 1242 CFTR-2789-307 -AUGUGAAUUUAGAUGUGGGCAU 22 1243 CFTR-2789-308 - GAUGUGAAUUUAGAUGUGGGCAU23 1244 CFTR-2789-309 - UGAUGUGAAUUUAGAUGUGGGCAU 24 1245 CFTR-2789-310 -UGUGAUGUGAAUUUAGAU 18 1246 CFTR-2789-311 - GUGUGAUGUGAAUUUAGAU 19 1247CFTR-2789-312 - GGUGUGAUGUGAAUUUAGAU 20 1248 CFTR-2789-313 -UGGUGUGAUGUGAAUUUAGAU 21 1249 CFTR-2789-314 - AUGGUGUGAUGUGAAUUUAGAU 221250 CFTR-2789-315 - AAUGGUGUGAUGUGAAUUUAGAU 23 1251 CFTR-2789-316 -AAAUGGUGUGAUGUGAAUUUAGAU 24 1252 CFTR-2789-317 - GGUUGUGCUGUGGCUCCU 181253 CFTR-2789-318 - UGGUUGUGCUGUGGCUCCU 19 1254 CFTR-2789-47 -UUGGUUGUGCUGUGGCUCCU 20  983 CFTR-2789-319 - UUUGGUUGUGCUGUGGCUCCU 211255 CFTR-2789-320 - CUUUGGUUGUGCUGUGGCUCCU 22 1256 CFTR-2789-321 -UCUUUGGUUGUGCUGUGGCUCCU 23 1257 CFTR-2789-322 - UUCUUUGGUUGUGCUGUGGCUCCU24 1258 CFTR-2789-323 - AGGAAUAGGUGAAGAUGU 18 1259 CFTR-2789-324 -GAGGAAUAGGUGAAGAUGU 19 1260 CFTR-2789-325 - GGAGGAAUAGGUGAAGAUGU 20 1261CFTR-2789-326 - GGGAGGAAUAGGUGAAGAUGU 21 1262 CFTR-2789-327 -UGGGAGGAAUAGGUGAAGAUGU 22 1263 CFTR-2789-328 - AUGGGAGGAAUAGGUGAAGAUGU23 1264 CFTR-2789-329 - CAUGGGAGGAAUAGGUGAAGAUGU 24 1265

Table 6A provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G), have a high level of orthogonality and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a N.meningitidis Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 6A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-2789- + GGAAUGGAACAAGACAC 17 1266 330 CFTR-2789- +GCUUGGGAGAAAUGAAACAA 20 1267 331 CFTR-2789- + GUACACACAAUUUCAUCUUC 201268 332

Table 6B provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G) and have a high level of orthogonality. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 6B 2nd Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-2789-333 + UGGGAGAAAUGAAACAA 17 1269 CFTR-2789-334 +UUAUCUUUCCACUACCA 17 1270 CFTR-2789-335 + CACACAAUUUCAUCUUC 17 1271CFTR-2789-336 − AGAUUGUGUUUUAUUUC 17 1272 CFTR-2789-337 −UAUUCCAUGUCCUAUUG 17 1273 CFTR-2789-338 − CUUGUUCCAUUCCAGGU 17 1274CFTR-2789-339 + ACCUUAUCUUUCCACUACCA 20 1275 CFTR-2789-340 +CCUGGAAUGGAACAAGACAC 20 1276 CFTR-2789-341 − UGUAGAUUGUGUUUUAUUUC 201277 CFTR-2789-342 + AUUACAAUACAUACAAACAU 20 1278

Table 6C provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G) and start with a 5′G. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable can be used with a N. meningitidis Cas9 molecule that generates adouble stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 6C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-2789- − GAAUAUUCCAUGUCCUAUUG 20 1279 343

Table 6D provides exemplary targeting domains for correcting a mutation(e.g., 2789+5G) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 2789+5G). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha N. meningitidis Cas9 molecule that generates a double stranded break(Cas9 nuclease) or a single-stranded break (Cas9 nickase).

TABLE 6D 4th Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-2789- + ACAAUACAUACAAACAU 17 1280 344 CFTR-2789- −UGUCUUGUUCCAUUCCAGGU 20 1281 345

Table 7A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the firsttier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G), have a high level of orthogonality andstart with a 5′G. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 7A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-3272-1 + GUAAGGCUGCCGUCCGA 17 1282 CFTR-3272-2 −GGAAAUAUUUCACAGGC 17 1283 CFTR-3272-3 + GUAAAUUCAGAGCUUUG 17 1284CFTR-3272-4 − GGACACUUCGUGCCUUCGGA 20 1285 CFTR-3272-5 +GGAACCAGCGCAGUGUUGAC 20 1286 CFTR-3272-6 + GUAACAAGAUGAGUGAAAAU 20 1287

Table 7B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G) and have a high level of orthogonality. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 7B 2nd Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-3272-7 − CUUGUUACAAGCUUAAA 17 1288 CFTR-3272-8 −CAUAUCUAUUCAAAGAA 17 1289 CFTR-3272-9 + UACUUGGCUACCAGAGA 17 1290CFTR-3272-10 − CACUUCGUGCCUUCGGA 17 1291 CFTR-3272-11 −CAAGCUUAAAAGGACUA 17 1292 CFTR-3272-12 − AUUUACAUACUGCCAAC 17 1293CFTR-3272-13 + AAAGCUUUUUUUCACAC 17 1294 CFTR-3272-14 −CUAUGGAAAUAUUUCAC 17 1295 CFTR-3272-15 + ACCAGCGCAGUGUUGAC 17 1296CFTR-3272-16 − ACCUGUCAACACUGCGC 17 1297 CFTR-3272-17 −CUAAUUUAGUCUUUUUC 17 1298 CFTR-3272-18 + CAUAUCACAAAUGUCAU 17 1299CFTR-3272-19 + ACUUGGCUACCAGAGAU 17 1300 CFTR-3272-20 +UACCCUCUUUUUUUACU 17 1301 CFTR-3272-21 + CAGGUACAAGAACCAGU 17 1302CFTR-3272-22 − UGGACACUUCGUGCCUU 17 1303 CFTR-3272-23 −CAUCUUGUUACAAGCUUAAA 20 1304 CFTR-3272-24 − AAUCAUAUCUAUUCAAAGAA 20 1305CFTR-3272-25 + UUUUACUUGGCUACCAGAGA 20 1306 CFTR-3272-26 +AAAGUAAGGCUGCCGUCCGA 20 1307 CFTR-3272-27 − UUACAAGCUUAAAAGGACUA 20 1308CFTR-3272-28 + UGGAACAGAGUUUCAAAGUA 20 1309 CFTR-3272-29 −UGAAUUUACAUACUGCCAAC 20 1310 CFTR-3272-30 + UAAAAAGCUUUUUUUCACAC 20 1311CFTR-3272-31 − UUUCUAUGGAAAUAUUUCAC 20 1312 CFTR-3272-32 −UGUACCUGUCAACACUGCGC 20 1313 CFTR-3272-33 − UAUGGAAAUAUUUCACAGGC 20 1314CFTR-3272-34 − UGGUAGCCAAGUAAAAAAAG 20 1315 CFTR-3272-35 +UAUGUAAAUUCAGAGCUUUG 20 1316 CFTR-3272-36 + AAUCAUAUCACAAAUGUCAU 20 1317CFTR-3272-37 + UUUACUUGGCUACCAGAGAU 20 1318 CFTR-3272-38 +AGUUACCCUCUUUUUUUACU 20 1319 CFTR-3272-39 + UGACAGGUACAAGAACCAGU 20 1320CFTR-3272-40 − CUAUGGACACUUCGUGCCUU 20 1321

Table 7C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the thirdtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G) and start with a 5′G. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. pyogenes Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 7C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-3272- − GGUAGCCAAGUAAAAAAAGA 20 1322 41 CFTR-3272- −GUUAUUUGCAGUGUUUUCUA 20 1323 42

Table 7D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G). It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. pyogenes Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 7D 4th Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-3272-43 − AGCCAAGUAAAAAAAGA 17 1324 CFTR-3272-44 −AUUUGCAGUGUUUUCUA 17 1325 CFTR-3272-45 + AACAGAGUUUCAAAGUA 17 1326CFTR-3272-46 − UAGCCAAGUAAAAAAAG 17 1327 CFTR-3272-47 +ACAAGAUGAGUGAAAAU 17 1328 CFTR-3272-48 − AUUCUAAUUUAGUCUUUUUC 20 1329

Table 8A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the firsttier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G), have a high level of orthogonality, startwith a 5′G, and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 8A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-3272-49 + GUCCUUUUAAGCUUGUAA 22 1330 CAAG CFTR-3272-50 +GUACCUGAAAAAGACUAA 20 1331 AU CFTR-3272-51 − GUCAACACUGCGCUGGUUC 24 1332CAAAU

Table 8B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G), have a high level of orthogonality and PAMis NNGRRT. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 8B 2nd Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-3272-52 + UUUUAAGCUUGUAACAAG 18 1333 CFTR-3272-53 +CUUUUAAGCUUGUAACAAG 19 1334 CFTR-3272-54 + CCUUUUAAGCUUGUAACAAG 20 1335CFTR-3272-55 + UCCUUUUAAGCUUGUAACAAG 21 1336 CFTR-3272-56 +AGUCCUUUUAAGCUUGUAACAAG 23 1337 CFTR-3272-57 + UAGUCCUUUUAAGCUUGUAACAAG24 1338 CFTR-3272-58 + ACCUGAAAAAGACUAAAU 18 1339 CFTR-3272-59 +UACCUGAAAAAGACUAAAU 19 1340 CFTR-3272-60 + UGUACCUGAAAAAGACUAAAU 21 1341CFTR-3272-61 + UUGUACCUGAAAAAGACUAAAU 22 1342 CFTR-3272-62 +CUUGUACCUGAAAAAGACUAAAU 23 1343 CFTR-3272-63 + UCUUGUACCUGAAAAAGACUAAAU24 1344 CFTR-3272-64 + UCACACUGGUGCCAUUCU 18 1345 CFTR-3272-65 +UUCACACUGGUGCCAUUCU 19 1346 CFTR-3272-66 + UUUCACACUGGUGCCAUUCU 20 1347CFTR-3272-67 + UUUUCACACUGGUGCCAUUCU 21 1348 CFTR-3272-68 +UUUUUCACACUGGUGCCAUUCU 22 1349 CFTR-3272-69 + UUUUUUCACACUGGUGCCAUUCU 231350 CFTR-3272-70 + UUUUUUUCACACUGGUGCCAUUCU 24 1351 CFTR-3272-71 −ACAAAUCAUAUCUAUUCA 18 1352 CFTR-3272-72 − AACAAAUCAUAUCUAUUCA 19 1353CFTR-3272-73 − UAACAAAUCAUAUCUAUUCA 20 1354 CFTR-3272-74 −AUAACAAAUCAUAUCUAUUCA 21 1355 CFTR-3272-75 − AAUAACAAAUCAUAUCUAUUCA 221356 CFTR-3272-76 − AAAUAACAAAUCAUAUCUAUUCA 23 1357 CFTR-3272-77 −AAAAUAACAAAUCAUAUCUAUUCA 24 1358 CFTR-3272-78 − UGGAAAUAUUUCACAGGC 181359 CFTR-3272-79 − AUGGAAAUAUUUCACAGGC 19 1360 CFTR-3272-33 −UAUGGAAAUAUUUCACAGGC 20 1314 CFTR-3272-80 − ACUGCGCUGGUUCCAAAU 18 1361CFTR-3272-81 − CACUGCGCUGGUUCCAAAU 19 1362 CFTR-3272-82 −ACACUGCGCUGGUUCCAAAU 20 1363 CFTR-3272-83 − AACACUGCGCUGGUUCCAAAU 211364 CFTR-3272-84 − CAACACUGCGCUGGUUCCAAAU 22 1365 CFTR-3272-85 −UCAACACUGCGCUGGUUCCAAAU 23 1366 CFTR-3272-86 − ACUCUGUUCCACAAAGCU 181367 CFTR-3272-87 − AACUCUGUUCCACAAAGCU 19 1368 CFTR-3272-88 −AAACUCUGUUCCACAAAGCU 20 1369

Table 8C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the thirdtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G), start with a 5′G and PAM is NNGRRT. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 8C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-3272-89 + GUAAAUUCAGAGCUUUGUG 22 1370 GAA CFTR-3272-90 +GAUAUGAUUUGUUAUUUUA 22 1371 UUA CFTR-3272-91 − GGUAGCCAAGUAAAAAAA 181372 CFTR-3272-92 − GAAACUCUGUUCCACAAAG 21 1373 CU

Table 8D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G), and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 8D 4th Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-3272- + AUUCAGAGCUUUGUGGAA 18 1374 93 CFTR-3272- +AAUUCAGAGCUUUGUGGAA 19 1375 94 CFTR-3272- + AAAUUCAGAGCUUUGUGGAA 20 137695 CFTR-3272- + UAAAUUCAGAGCUUUGUGGAA 21 1377 96 CFTR-3272- +UGUAAAUUCAGAGCUUUGUGGAA 23 1378 97 CFTR-3272- + AUGUAAAUUCAGAGCUUUGUGGAA24 1379 98 CFTR-3272- + UGAUUUGUUAUUUUAUUA 18 1380 99 CFTR-3272- +AUGAUUUGUUAUUUUAUUA 19 1381 100 CFTR-3272- + UAUGAUUUGUUAUUUUAUUA 201382 101 CFTR-3272- + AUAUGAUUUGUUAUUUUAUUA 21 1383 102 CFTR-3272- +AGAUAUGAUUUGUUAUUUUAUUA 23 1384 103 CFTR-3272- +UAGAUAUGAUUUGUUAUUUUAUUA 24 1385 104 CFTR-3272- − UGGUAGCCAAGUAAAAAAA 191386 105 CFTR-3272- − CUGGUAGCCAAGUAAAAAAA 20 1387 106 CFTR-3272- −UCUGGUAGCCAAGUAAAAAAA 21 1388 107 CFTR-3272- − CUCUGGUAGCCAAGUAAAAAAA 221389 108 CFTR-3272- − UCUCUGGUAGCCAAGUAAAAAAA 23 1390 109 CFTR-3272- −AUCUCUGGUAGCCAAGUAAAAAAA 24 1391 110 CFTR-3272- − CUAUGGAAAUAUUUCACAGGC21 1392 111 CFTR-3272- − UCUAUGGAAAUAUUUCACAGGC 22 1393 112 CFTR-3272- −UUCUAUGGAAAUAUUUCACAGGC 23 1394 113 CFTR-3272- −UUUCUAUGGAAAUAUUUCACAGGC 24 1395 114 CFTR-3272- − UGAAACUCUGUUCCACAAAGCU22 1396 115 CFTR-3272- − UUGAAACUCUGUUCCACAAAGCU 23 1397 116 CFTR-3272-− UUUGAAACUCUGUUCCACAAAGCU 24 1398 117

Table 8E provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the fifthtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G), and PAM is NNGRRV. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 8E 5th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3272-118 + UAACAAGAUGAGUGAAAA 18 1399 CFTR-3272-119 +GUAACAAGAUGAGUGAAAA 19 1400 CFTR-3272-120 + UGUAACAAGAUGAGUGAAAA 20 1401CFTR-3272-121 + UUGUAACAAGAUGAGUGAAAA 21 1402 CFTR-3272-122 +CUUGUAACAAGAUGAGUGAAAA 22 1403 CFTR-3272-123 + GCUUGUAACAAGAUGAGUGAAAA23 1404 CFTR-3272-124 + AGCUUGUAACAAGAUGAGUGAAAA 24 1405 CFTR-3272-125 +GCCUGUGAAAUAUUUCCA 18 1406 CFTR-3272-126 + UGCCUGUGAAAUAUUUCCA 19 1407CFTR-3272-127 + CUGCCUGUGAAAUAUUUCCA 20 1408 CFTR-3272-128 +CCUGCCUGUGAAAUAUUUCCA 21 1409 CFTR-3272-129 + UCCUGCCUGUGAAAUAUUUCCA 221410 CFTR-3272-130 + CUCCUGCCUGUGAAAUAUUUCCA 23 1411 CFTR-3272-131 +ACUCCUGCCUGUGAAAUAUUUCCA 24 1412 CFTR-3272-132 + UUACUUGGCUACCAGAGA 181413 CFTR-3272-133 + UUUACUUGGCUACCAGAGA 19 1414 CFTR-3272-25 +UUUUACUUGGCUACCAGAGA 20 1306 CFTR-3272-134 + UUUUUACUUGGCUACCAGAGA 211415 CFTR-3272-135 + UUUUUUACUUGGCUACCAGAGA 22 1416 CFTR-3272-136 +UUUUUUUACUUGGCUACCAGAGA 23 1417 CFTR-3272-137 + CUUUUUUUACUUGGCUACCAGAGA24 1418 CFTR-3272-138 + AAGCUUGUAACAAGAUGA 18 1419 CFTR-3272-139 +UAAGCUUGUAACAAGAUGA 19 1420 CFTR-3272-140 + UUAAGCUUGUAACAAGAUGA 20 1421CFTR-3272-141 + UUUAAGCUUGUAACAAGAUGA 21 1422 CFTR-3272-142 +UUUUAAGCUUGUAACAAGAUGA 22 1423 CFTR-3272-143 + CUUUUAAGCUUGUAACAAGAUGA23 1424 CFTR-3272-144 + CCUUUUAAGCUUGUAACAAGAUGA 24 1425 CFTR-3272-145 +CUUUUUUUACUUGGCUAC 18 1426 CFTR-3272-146 + UCUUUUUUUACUUGGCUAC 19 1427CFTR-3272-147 + CUCUUUUUUUACUUGGCUAC 20 1428 CFTR-3272-148 +CCUCUUUUUUUACUUGGCUAC 21 1429 CFTR-3272-149 + CCCUCUUUUUUUACUUGGCUAC 221430 CFTR-3272-150 + ACCCUCUUUUUUUACUUGGCUAC 23 1431 CFTR-3272-151 +UACCCUCUUUUUUUACUUGGCUAC 24 1432 CFTR-3272-152 + CGCAGUGUUGACAGGUAC 181433 CFTR-3272-153 + GCGCAGUGUUGACAGGUAC 19 1434 CFTR-3272-154 +AGCGCAGUGUUGACAGGUAC 20 1435 CFTR-3272-155 + CAGCGCAGUGUUGACAGGUAC 211436 CFTR-3272-156 + CCAGCGCAGUGUUGACAGGUAC 22 1437 CFTR-3272-157 +ACCAGCGCAGUGUUGACAGGUAC 23 1438 CFTR-3272-158 + AACCAGCGCAGUGUUGACAGGUAC24 1439 CFTR-3272-159 + UUUCAUAAUAUCUUGUAC 18 1440 CFTR-3272-160 +AUUUCAUAAUAUCUUGUAC 19 1441 CFTR-3272-161 + AAUUUCAUAAUAUCUUGUAC 20 1442CFTR-3272-162 + UAAUUUCAUAAUAUCUUGUAC 21 1443 CFTR-3272-163 +GUAAUUUCAUAAUAUCUUGUAC 22 1444 CFTR-3272-164 + UGUAAUUUCAUAAUAUCUUGUAC23 1445 CFTR-3272-165 + AUGUAAUUUCAUAAUAUCUUGUAC 24 1446 CFTR-3272-166 +AGGCUGCCGUCCGAAGGC 18 1447 CFTR-3272-167 + AAGGCUGCCGUCCGAAGGC 19 1448CFTR-3272-168 + UAAGGCUGCCGUCCGAAGGC 20 1449 CFTR-3272-169 +GUAAGGCUGCCGUCCGAAGGC 21 1450 CFTR-3272-170 + AGUAAGGCUGCCGUCCGAAGGC 221451 CFTR-3272-171 + AAGUAAGGCUGCCGUCCGAAGGC 23 1452 CFTR-3272-172 +AAAGUAAGGCUGCCGUCCGAAGGC 24 1453 CFTR-3272-173 + UUUACUUGGCUACCAGAG 181454 CFTR-3272-174 + UUUUACUUGGCUACCAGAG 19 1455 CFTR-3272-175 +UUUUUACUUGGCUACCAGAG 20 1456 CFTR-3272-176 + UUUUUUACUUGGCUACCAGAG 211457 CFTR-3272-177 + UUUUUUUACUUGGCUACCAGAG 22 1458 CFTR-3272-178 +CUUUUUUUACUUGGCUACCAGAG 23 1459 CFTR-3272-179 + UCUUUUUUUACUUGGCUACCAGAG24 1460 CFTR-3272-180 + UGUAAAUUCAGAGCUUUG 18 1461 CFTR-3272-181 +AUGUAAAUUCAGAGCUUUG 19 1462 CFTR-3272-35 + UAUGUAAAUUCAGAGCUUUG 20 1316CFTR-3272-182 + GUAUGUAAAUUCAGAGCUUUG 21 1463 CFTR-3272-183 +AGUAUGUAAAUUCAGAGCUUUG 22 1464 CFTR-3272-184 + CAGUAUGUAAAUUCAGAGCUUUG23 1465 CFTR-3272-185 + GCAGUAUGUAAAUUCAGAGCUUUG 24 1466 CFTR-3272-186 +UACUUGGCUACCAGAGAU 18 1467 CFTR-3272-187 + UUACUUGGCUACCAGAGAU 19 1468CFTR-3272-37 + UUUACUUGGCUACCAGAGAU 20 1318 CFTR-3272-188 +UUUUACUUGGCUACCAGAGAU 21 1469 CFTR-3272-189 + UUUUUACUUGGCUACCAGAGAU 221470 CFTR-3272-190 + UUUUUUACUUGGCUACCAGAGAU 23 1471 CFTR-3272-191 +UUUUUUUACUUGGCUACCAGAGAU 24 1472 CFTR-3272-192 + AAAAUUGGACUCCUGCCU 181473 CFTR-3272-193 + GAAAAUUGGACUCCUGCCU 19 1474 CFTR-3272-194 +UGAAAAUUGGACUCCUGCCU 20 1475 CFTR-3272-195 + GUGAAAAUUGGACUCCUGCCU 211476 CFTR-3272-196 + AGUGAAAAUUGGACUCCUGCCU 22 1477 CFTR-3272-197 +GAGUGAAAAUUGGACUCCUGCCU 23 1478 CFTR-3272-198 + UGAGUGAAAAUUGGACUCCUGCCU24 1479 CFTR-3272-199 + UCAAAGUAAGGCUGCCGU 18 1480 CFTR-3272-200 +UUCAAAGUAAGGCUGCCGU 19 1481 CFTR-3272-201 + UUUCAAAGUAAGGCUGCCGU 20 1482CFTR-3272-202 + GUUUCAAAGUAAGGCUGCCGU 21 1483 CFTR-3272-203 +AGUUUCAAAGUAAGGCUGCCGU 22 1484 CFTR-3272-204 + GAGUUUCAAAGUAAGGCUGCCGU23 1485 CFTR-3272-205 + AGAGUUUCAAAGUAAGGCUGCCGU 24 1486 CFTR-3272-206 +GUUGGCAGUAUGUAAAUU 18 1487 CFTR-3272-207 + AGUUGGCAGUAUGUAAAUU 19 1488CFTR-3272-208 + CAGUUGGCAGUAUGUAAAUU 20 1489 CFTR-3272-209 +CCAGUUGGCAGUAUGUAAAUU 21 1490 CFTR-3272-210 + ACCAGUUGGCAGUAUGUAAAUU 221491 CFTR-3272-211 + AACCAGUUGGCAGUAUGUAAAUU 23 1492 CFTR-3272-212 +GAACCAGUUGGCAGUAUGUAAAUU 24 1493 CFTR-3272-213 + AUGUAAAUUCAGAGCUUU 181494 CFTR-3272-214 + UAUGUAAAUUCAGAGCUUU 19 1495 CFTR-3272-215 +GUAUGUAAAUUCAGAGCUUU 20 1496 CFTR-3272-216 + AGUAUGUAAAUUCAGAGCUUU 211497 CFTR-3272-217 + CAGUAUGUAAAUUCAGAGCUUU 22 1498 CFTR-3272-218 +GCAGUAUGUAAAUUCAGAGCUUU 23 1499 CFTR-3272-219 + GGCAGUAUGUAAAUUCAGAGCUUU24 1500 CFTR-3272-220 − CUGGUAGCCAAGUAAAAA 18 1501 CFTR-3272-221 −UCUGGUAGCCAAGUAAAAA 19 1502 CFTR-3272-222 − CUCUGGUAGCCAAGUAAAAA 20 1503CFTR-3272-223 − UCUCUGGUAGCCAAGUAAAAA 21 1504 CFTR-3272-224 −AUCUCUGGUAGCCAAGUAAAAA 22 1505 CFTR-3272-225 − CAUCUCUGGUAGCCAAGUAAAAA23 1506 CFTR-3272-226 − CCAUCUCUGGUAGCCAAGUAAAAA 24 1507 CFTR-3272-227 −ACACUGCGCUGGUUCCAA 18 1508 CFTR-3272-228 − AACACUGCGCUGGUUCCAA 19 1509CFTR-3272-229 − CAACACUGCGCUGGUUCCAA 20 1510 CFTR-3272-230 −UCAACACUGCGCUGGUUCCAA 21 1511 CFTR-3272-231 − GUCAACACUGCGCUGGUUCCAA 221512 CFTR-3272-232 − UGUCAACACUGCGCUGGUUCCAA 23 1513 CFTR-3272-233 −CUGUCAACACUGCGCUGGUUCCAA 24 1514 CFTR-3272-234 − GCUGGUUCCAAAUGAGAA 181515 CFTR-3272-235 − CGCUGGUUCCAAAUGAGAA 19 1516 CFTR-3272-236 −GCGCUGGUUCCAAAUGAGAA 20 1517 CFTR-3272-237 − UGCGCUGGUUCCAAAUGAGAA 211518 CFTR-3272-238 − CUGCGCUGGUUCCAAAUGAGAA 22 1519 CFTR-3272-239 −ACUGCGCUGGUUCCAAAUGAGAA 23 1520 CFTR-3272-240 − CACUGCGCUGGUUCCAAAUGAGAA24 1521 CFTR-3272-241 − AUCUUGUUACAAGCUUAA 18 1522 CFTR-3272-242 −CAUCUUGUUACAAGCUUAA 19 1523 CFTR-3272-243 − UCAUCUUGUUACAAGCUUAA 20 1524CFTR-3272-244 − CUCAUCUUGUUACAAGCUUAA 21 1525 CFTR-3272-245 −ACUCAUCUUGUUACAAGCUUAA 22 1526 CFTR-3272-246 − CACUCAUCUUGUUACAAGCUUAA23 1527 CFTR-3272-247 − UCACUCAUCUUGUUACAAGCUUAA 24 1528 CFTR-3272-248 −UAUUUGCAGUGUUUUCUA 18 1529 CFTR-3272-249 − UUAUUUGCAGUGUUUUCUA 19 1530CFTR-3272-42 − GUUAUUUGCAGUGUUUUCUA 20 1323 CFTR-3272-250 −UGUUAUUUGCAGUGUUUUCUA 21 1531 CFTR-3272-251 − AUGUUAUUUGCAGUGUUUUCUA 221532 CFTR-3272-252 − UAUGUUAUUUGCAGUGUUUUCUA 23 1533 CFTR-3272-253 −UUAUGUUAUUUGCAGUGUUUUCUA 24 1534 CFTR-3272-254 − AUGGAAAUAUUUCACAGG 181535 CFTR-3272-255 − UAUGGAAAUAUUUCACAGG 19 1536 CFTR-3272-256 −CUAUGGAAAUAUUUCACAGG 20 1537 CFTR-3272-257 − UCUAUGGAAAUAUUUCACAGG 211538 CFTR-3272-258 − UUCUAUGGAAAUAUUUCACAGG 22 1539 CFTR-3272-259 −UUUCUAUGGAAAUAUUUCACAGG 23 1540 CFTR-3272-260 − UUUUCUAUGGAAAUAUUUCACAGG24 1541 CFTR-3272-261 − UACAAGCUUAAAAGGACU 18 1542 CFTR-3272-262 −UUACAAGCUUAAAAGGACU 19 1543 CFTR-3272-263 − GUUACAAGCUUAAAAGGACU 20 1544CFTR-3272-264 − UGUUACAAGCUUAAAAGGACU 21 1545 CFTR-3272-265 −UUGUUACAAGCUUAAAAGGACU 22 1546 CFTR-3272-266 − CUUGUUACAAGCUUAAAAGGACU23 1547 CFTR-3272-267 − UCUUGUUACAAGCUUAAAAGGACU 24 1548 CFTR-3272-268 −UCGGACGGCAGCCUUACU 18 1549 CFTR-3272-269 − UUCGGACGGCAGCCUUACU 19 1550CFTR-3272-270 − CUUCGGACGGCAGCCUUACU 20 1551 CFTR-3272-271 −CCUUCGGACGGCAGCCUUACU 21 1552 CFTR-3272-272 − GCCUUCGGACGGCAGCCUUACU 221553 CFTR-3272-273 − UGCCUUCGGACGGCAGCCUUACU 23 1554 CFTR-3272-274 −GUGCCUUCGGACGGCAGCCUUACU 24 1555 CFTR-3272-275 − UAUGGACACUUCGUGCCU 181556 CFTR-3272-276 − CUAUGGACACUUCGUGCCU 19 1557 CFTR-3272-277 −ACUAUGGACACUUCGUGCCU 20 1558 CFTR-3272-278 − GACUAUGGACACUUCGUGCCU 211559 CFTR-3272-279 − GGACUAUGGACACUUCGUGCCU 22 1560 CFTR-3272-280 −AGGACUAUGGACACUUCGUGCCU 23 1561 CFTR-3272-281 − AAGGACUAUGGACACUUCGUGCCU24 1562 CFTR-3272-282 − UUAUUUGCAGUGUUUUCU 18 1563 CFTR-3272-283 −GUUAUUUGCAGUGUUUUCU 19 1564 CFTR-3272-284 − UGUUAUUUGCAGUGUUUUCU 20 1565CFTR-3272-285 − AUGUUAUUUGCAGUGUUUUCU 21 1566 CFTR-3272-286 −UAUGUUAUUUGCAGUGUUUUCU 22 1567 CFTR-3272-287 − UUAUGUUAUUUGCAGUGUUUUCU23 1568 CFTR-3272-288 − UUUAUGUUAUUUGCAGUGUUUUCU 24 1569 CFTR-3272-289 −UCAAAGAAUGGCACCAGU 18 1570 CFTR-3272-290 − UUCAAAGAAUGGCACCAGU 19 1571CFTR-3272-291 − AUUCAAAGAAUGGCACCAGU 20 1572 CFTR-3272-292 −UAUUCAAAGAAUGGCACCAGU 21 1573 CFTR-3272-293 − CUAUUCAAAGAAUGGCACCAGU 221574 CFTR-3272-294 − UCUAUUCAAAGAAUGGCACCAGU 23 1575 CFTR-3272-295 −AUCUAUUCAAAGAAUGGCACCAGU 24 1576 CFTR-3272-296 − UUUCAGGUACAAGAUAUU 181577 CFTR-3272-297 − UUUUCAGGUACAAGAUAUU 19 1578 CFTR-3272-298 −UUUUUCAGGUACAAGAUAUU 20 1579 CFTR-3272-299 − CUUUUUCAGGUACAAGAUAUU 211580 CFTR-3272-300 − UCUUUUUCAGGUACAAGAUAUU 22 1581 CFTR-3272-301 −GUCUUUUUCAGGUACAAGAUAUU 23 1582 CFTR-3272-302 − AGUCUUUUUCAGGUACAAGAUAUU24 1583

Table 9A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G) and have a high level of orthogonality. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 9A 2nd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-3272- − AUGGCACCAGUGUGAAA 17 1584 303 CFTR-3272- +UGCCAUUCUUUGAAUAG 17 1585 304 CFTR-3272- + UUGGCAGUAUGUAAAUU 17 1586 305CFTR-3272- + AAGUGUCCAUAGUCCUU 17 1587 306 CFTR-3272- −AGAAUGGCACCAGUGUGAAA 20 1588 307 CFTR-3272- + UGGUGCCAUUCUUUGAAUAG 201589 308 CFTR-3272- + ACGAAGUGUCCAUAGUCCUU 20 1590 309

Table 9B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26A->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26A->G). It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a N. meningitidis Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 9B 4th Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-3272- + ACAAAUGUCAUUGGUUA 17 1591 310 CFTR-3272- −AACCAAUGACAUUUGUG 17 1592 311 CFTR-3272- − UUUUCACUCAUCUUGUU 17 1593 312CFTR-3272- + AUCACAAAUGUCAUUGGUUA 20 1594 313 CFTR-3272- −UUUAACCAAUGACAUUUGUG 20 1595 314 CFTR-3272- + CAGUUGGCAGUAUGUAAAUU 201489 208 CFTR-3272- − CAAUUUUCACUCAUCUUGUU 20 1596 315

Table 10A provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508), have a high level of orthogonality and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 10A 1st Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-DeltaF508-1 − GGGUAAGCUACUGUGAA 17 402CFTR-DeltaF508-2 − GAACUGGAGCCUUCAGA 17 401 CFTR-DeltaF508-3 +GACUAACCGAUUGAAUA 17 403 CFTR-DeltaF508-4 − GGUGAUUAUGGGAGAAC 17 400CFTR-DeltaF508-5 + GGUGCCAGGCAUAAUCC 17 394 CFTR-DeltaF508-6 −GGUAAAAUUAAGCACAG 17 390 CFTR-DeltaF508-7 + GUAUCUAUAUUCAUCAU 17 392CFTR-DeltaF508-8 + GAGCCAAAUAUAUAAUU 17 404 CFTR-DeltaF508-9 −GGAGAACUGGAGCCUUCAGA 20 397 CFTR-DeltaF508-10 + GUAGACUAACCGAUUGAAUA 20398 CFTR-DeltaF508-11 + GUCAUUAUCAAAUCACGCUC 20 399 CFTR-DeltaF508-12 −GAGGGUAAAAUUAAGCACAG 20 387 CFTR-DeltaF508-13 − GGGAGAACUGGAGCCUUCAG 20396 CFTR-DeltaF508-14 − GAUAAUGACCUAAUAAUGAU 20 395

Table 10B provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508) and have a high level of orthogonality. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 10B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-DeltaF508-15 + AAUUUGGGUAGUGUGAA 17 449CFTR-DeltaF508-16 − CCAGACUUCACUUCUAA 17 438 CFTR-DeltaF508-17 −UAAUGACCUAAUAAUGA 17 436 CFTR-DeltaF508-18 + UUAAUUUUACCCUCUGA 17 418CFTR-DeltaF508-19 + UAAUUUGGGUAGUGUGA 17 448 CFTR-DeltaF508-20 −UUUUCCUGGAUUAUGCC 17 414 CFTR-DeltaF508-21 + UUUUCUUUAAUGGUGCC 17 417CFTR-DeltaF508-22 − UCUGUUCUCAGUUUUCC 17 413 CFTR-DeltaF508-23 +AUUAUCAAAUCACGCUC 17 452 CFTR-DeltaF508-24 + CCAUUAGAAGUGAAGUC 17 450CFTR-DeltaF508-25 − AGCAUGCCAACUAGAAG 17 391 CFTR-DeltaF508-26 −AGAACUGGAGCCUUCAG 17 441 CFTR-DeltaF508-27 + CAGUAGCUUACCCAUAG 17 446CFTR-DeltaF508-28 − UUGGCUCCAUAUUCAAU 17 443 CFTR-DeltaF508-29 −CUUCUAAUGGUGAUUAU 17 440 CFTR-DeltaF508-30 + UUCUUACCUCUUCUAGU 17 416CFTR-DeltaF508-31 − UACCCAAAUUAUAUAUU 17 442 CFTR-DeltaF508-32 −UAUGGGUAAGCUACUGUGAA 20 428 CFTR-DeltaF508-33 + UAUAAUUUGGGUAGUGUGAA 20433 CFTR-DeltaF508-34 − UUUCCAGACUUCACUUCUAA 20 420 CFTR-DeltaF508-35 +ACCAAUGAUAUUUUCUUUAA 20 1597 CFTR-DeltaF508-36 − UGAUAAUGACCUAAUAAUGA 20419 CFTR-DeltaF508-37 + UGCUUAAUUUUACCCUCUGA 20 412 CFTR-DeltaF508-38 +AUAUAAUUUGGGUAGUGUGA 20 432 CFTR-DeltaF508-39 − UUCACUUCUAAUGGUGAUUA 20421 CFTR-DeltaF508-40 − AAUGGUGAUUAUGGGAGAAC 20 423 CFTR-DeltaF508-41 −CAGUUUUCCUGGAUUAUGCC 20 406 CFTR-DeltaF508-42 + AUAUUUUCUUUAAUGGUGCC 20411 CFTR-DeltaF508-43 + AAUGGUGCCAGGCAUAAUCC 20 389 CFTR-DeltaF508-44 −CAUUCUGUUCUCAGUUUUCC 20 405 CFTR-DeltaF508-45 + UCACCAUUAGAAGUGAAGUC 20434 CFTR-DeltaF508-46 − CAAAGCAUGCCAACUAGAAG 20 408 CFTR-DeltaF508-47 +UCACAGUAGCUUACCCAUAG 20 429 CFTR-DeltaF508-48 − UAUUUGGCUCCAUAUUCAAU 20425 CFTR-DeltaF508-49 + UCUGUAUCUAUAUUCAUCAU 20 409 CFTR-DeltaF508-50 −ACCAUUAAAGAAAAUAUCAU 20 1598 CFTR-DeltaF508-51 − UCACUUCUAAUGGUGAUUAU 20422 CFTR-DeltaF508-52 + AGUUUCUUACCUCUUCUAGU 20 388 CFTR-DeltaF508-53 +AUGGAGCCAAAUAUAUAAUU 20 430 CFTR-DeltaF508-54 − CACUACCCAAAUUAUAUAUU 20424

Table 10C provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 10C 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-DeltaF508-55 + AAUGAUAUUUUCUUUAA 17 1599CFTR-DeltaF508-56 − UAUUUAUGUUUCCUCUA 17 444 CFTR-DeltaF508-57 −ACUUCUAAUGGUGAUUA 17 439 CFTR-DeltaF508-58 − AUUAAAGAAAAUAUCAU 17 1600CFTR-DeltaF508-59 − AAUGACCUAAUAAUGAU 17 437 CFTR-DeltaF508-60 −AUUUAUGUUUCCUCUAU 17 445 CFTR-DeltaF508-61 + UAAAACCCAUCAUUAUU 17 451CFTR-DeltaF508-62 + AGCCAAAUAUAUAAUUU 17 447 CFTR-DeltaF508-63 −AUAUAUUUAUGUUUCCUCUA 20 426 CFTR-DeltaF508-64 − UAUAUUUAUGUUUCCUCUAU 20427 CFTR-DeltaF508-65 + AAAUAAAACCCAUCAUUAUU 20 435 CFTR-DeltaF508-66 +UGGAGCCAAAUAUAUAAUUU 20 431

Table 11A provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508), have a high level of orthogonality, start with a 5′G,and PAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 11A 1st Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-DeltaF508-67 + GAAUAUGGAGCCAAAUAUAUAAU 23 1601CFTR-DeltaF508-68 + GUCAUUAUCAAAUCACGCU 19 1602 CFTR-DeltaF508-69 +GGUCAUUAUCAAAUCACGCU 20 676 CFTR-DeltaF508-70 − GGAGAACUGGAGCCUUCA 181603 CFTR-DeltaF508-71 − GGGAGAACUGGAGCCUUCA 19 1604 CFTR-DeltaF508-72 −GUAAAAUUAAGCACAGUGG 19 1605 CFTR-DeltaF508-73 − GGUAAAAUUAAGCACAGUGG 20663 CFTR-DeltaF508-74 − GGGUAAAAUUAAGCACAGUGG 21 1606 CFTR-DeltaF508-75− GAGGGUAAAAUUAAGCACAGUGG 23 1607 CFTR-DeltaF508-76 − GAUAAUGACCUAAUAAUG18 1608 CFTR-DeltaF508-77 − GAUUUGAUAAUGACCUAAUAAUG 23 1609CFTR-DeltaF508-78 − GUUUCCUCUAUGGGUAAGCUACU 23 1610

Table 11B provides exemplary targeting domains for correcting a mutation(e.g., deltaF8) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508), have a high level of orthogonality and PAM is NNGRRT.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 11B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-DeltaF508-79 + AUCCAGGAAAACUGAGAA 18 1611CFTR-DeltaF508-80 + AAUCCAGGAAAACUGAGAA 19 1612 CFTR-DeltaF508-81 +UAAUCCAGGAAAACUGAGAA 20 682 CFTR-DeltaF508-82 + UAUAUGUAGACUAACCGA 181613 CFTR-DeltaF508-83 + AUAUAUGUAGACUAACCGA 19 1614 CFTR-DeltaF508-84 +AAUAUAUGUAGACUAACCGA 20 691 CFTR-DeltaF508-85 + AAAUAUAUGUAGACUAACCGA 211615 CFTR-DeltaF508-86 + UAAAUAUAUGUAGACUAACCGA 22 1616CFTR-DeltaF508-87 + AUAAAUAUAUGUAGACUAACCGA 23 1617 CFTR-DeltaF508-88 +CAUAAAUAUAUGUAGACUAACCGA 24 1618 CFTR-DeltaF508-89 + UAUAAUUUGGGUAGUGUG18 1619 CFTR-DeltaF508-90 + AUAUAAUUUGGGUAGUGUG 19 1620CFTR-DeltaF508-91 + UAUAUAAUUUGGGUAGUGUG 20 687 CFTR-DeltaF508-92 +AUAUAUAAUUUGGGUAGUGUG 21 1621 CFTR-DeltaF508-93 + AAUAUAUAAUUUGGGUAGUGUG22 1622 CFTR-DeltaF508-94 + AAAUAUAUAAUUUGGGUAGUGUG 23 1623CFTR-DeltaF508-95 + CAAAUAUAUAAUUUGGGUAGUGUG 24 1624 CFTR-DeltaF508-96 +UGGAGCCAAAUAUAUAAU 18 1625 CFTR-DeltaF508-97 + AUGGAGCCAAAUAUAUAAU 191626 CFTR-DeltaF508-98 + UAUGGAGCCAAAUAUAUAAU 20 689 CFTR-DeltaF508-99 +AUAUGGAGCCAAAUAUAUAAU 21 1627 CFTR-DeltaF508-100 +AAUAUGGAGCCAAAUAUAUAAU 22 1628 CFTR-DeltaF508-101 +UGAAUAUGGAGCCAAAUAUAUAAU 24 1629 CFTR-DeltaF508-102 + UCAUUAUCAAAUCACGCU18 1630 CFTR-DeltaF508-103 + AGGUCAUUAUCAAAUCACGCU 21 1631CFTR-DeltaF508-104 + UAGGUCAUUAUCAAAUCACGCU 22 1632 CFTR-DeltaF508-105 +UUAGGUCAUUAUCAAAUCACGCU 23 1633 CFTR-DeltaF508-106 +AUUAGGUCAUUAUCAAAUCACGCU 24 1634 CFTR-DeltaF508-107 −UGGGAGAACUGGAGCCUUCA 20 661 CFTR-DeltaF508-108 − AUGGGUAAGCUACUGUGA 181635 CFTR-DeltaF508-109 − UAUGGGUAAGCUACUGUGA 19 1636 CFTR-DeltaF508-110− CUAUGGGUAAGCUACUGUGA 20 675 CFTR-DeltaF508-111 − UCUAUGGGUAAGCUACUGUGA21 1637 CFTR-DeltaF508-112 − CUCUAUGGGUAAGCUACUGUGA 22 1638CFTR-DeltaF508-113 − CCUCUAUGGGUAAGCUACUGUGA 23 1639 CFTR-DeltaF508-114− UCCUCUAUGGGUAAGCUACUGUGA 24 1640 CFTR-DeltaF508-115 −AUUCUGUUCUCAGUUUUC 18 1641 CFTR-DeltaF508-116 − CAUUCUGUUCUCAGUUUUC 191642 CFTR-DeltaF508-117 − UCAUUCUGUUCUCAGUUUUC 20 664 CFTR-DeltaF508-118− UUCAUUCUGUUCUCAGUUUUC 21 1643 CFTR-DeltaF508-119 −UUUCAUUCUGUUCUCAGUUUUC 22 1644 CFTR-DeltaF508-120 −AUUUCAUUCUGUUCUCAGUUUUC 23 1645 CFTR-DeltaF508-121 −AAUUUCAUUCUGUUCUCAGUUUUC 24 1646 CFTR-DeltaF508-122 − UAAAAUUAAGCACAGUGG18 1647 CFTR-DeltaF508-123 − AGGGUAAAAUUAAGCACAGUGG 22 1648CFTR-DeltaF508-124 − AGAGGGUAAAAUUAAGCACAGUGG 24 1649 CFTR-DeltaF508-125− UGAUAAUGACCUAAUAAUG 19 1650 CFTR-DeltaF508-126 − UUGAUAAUGACCUAAUAAUG20 656 CFTR-DeltaF508-127 − UUUGAUAAUGACCUAAUAAUG 21 1651CFTR-DeltaF508-128 − AUUUGAUAAUGACCUAAUAAUG 22 1652 CFTR-DeltaF508-129 −UGAUUUGAUAAUGACCUAAUAAUG 24 1653 CFTR-DeltaF508-130 − UCAUUGGUGUUUCCUAUG18 1654 CFTR-DeltaF508-131 − AUCAUUGGUGUUUCCUAUG 19 1655CFTR-DeltaF508-132 − UAUCAUUGGUGUUUCCUAUG 20 1656 CFTR-DeltaF508-133 −AUAUCAUUGGUGUUUCCUAUG 21 1657 CFTR-DeltaF508-134 −AAUAUCAUUGGUGUUUCCUAUG 22 1658 CFTR-DeltaF508-135 −AAAUAUCAUUGGUGUUUCCUAUG 23 1659 CFTR-DeltaF508-136 −AAAAUAUCAUUGGUGUUUCCUAUG 24 1660 CFTR-DeltaF508-137 − CUCUAUGGGUAAGCUACU18 1661 CFTR-DeltaF508-138 − CCUCUAUGGGUAAGCUACU 19 1662CFTR-DeltaF508-139 − UCCUCUAUGGGUAAGCUACU 20 674 CFTR-DeltaF508-140 −UUCCUCUAUGGGUAAGCUACU 21 1663 CFTR-DeltaF508-141 −UUUCCUCUAUGGGUAAGCUACU 22 1664 CFTR-DeltaF508-142 −UGUUUCCUCUAUGGGUAAGCUACU 24 1665 CFTR-DeltaF508-143 − UAUAUUUAUGUUUCCUCU18 1666 CFTR-DeltaF508-144 − AUAUAUUUAUGUUUCCUCU 19 1667CFTR-DeltaF508-145 − CAUAUAUUUAUGUUUCCUCU 20 673 CFTR-DeltaF508-146 −ACAUAUAUUUAUGUUUCCUCU 21 1668 CFTR-DeltaF508-147 −UACAUAUAUUUAUGUUUCCUCU 22 1669 CFTR-DeltaF508-148 −CUACAUAUAUUUAUGUUUCCUCU 23 1670 CFTR-DeltaF508-149 −UCUACAUAUAUUUAUGUUUCCUCU 24 1671

Table 11C provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508), start with a 5′G and PAM is NNGRRT. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 11C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR- + GCAUAAUCCAGGAAAACU 23 1672 DeltaF508- GAGAA 150CFTR- + GGCAUAAUCCAGGAAAACU 24 1673 DeltaF508- GAGAA 151

Table 11D provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508), and PAM is NNGRRT. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable can be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 11D 4th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-DeltaF508-152 + AUAAUCCAGGAAAACUGAGAA 21 1674CFTR-DeltaF508-153 + CAUAAUCCAGGAAAACUGAGAA 22 1675 CFTR-DeltaF508-154 −AUGGGAGAACUGGAGCCUUCA 21 1676 CFTR-DeltaF508-155 −UAUGGGAGAACUGGAGCCUUCA 22 1677 CFTR-DeltaF508-156 −UUAUGGGAGAACUGGAGCCUUCA 23 1678 CFTR-DeltaF508-157 −AUUAUGGGAGAACUGGAGCCUUCA 24 1679

Table 11E provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508), and PAM is NNGRRV. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable can be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 11E 5th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-DeltaF508-158 + AGGCAUAAUCCAGGAAAA 18 1680CFTR-DeltaF508-159 + CAGGCAUAAUCCAGGAAAA 19 1681 CFTR-DeltaF508-160 +CCAGGCAUAAUCCAGGAAAA 20 684 CFTR-DeltaF508-161 + GCCAGGCAUAAUCCAGGAAAA21 1682 CFTR-DeltaF508-162 + UGCCAGGCAUAAUCCAGGAAAA 22 1683CFTR-DeltaF508-163 + GUGCCAGGCAUAAUCCAGGAAAA 23 1684CFTR-DeltaF508-164 + GGUGCCAGGCAUAAUCCAGGAAAA 24 1685CFTR-DeltaF508-165 + CCAUAAUCACCAUUAGAA 18 1686 CFTR-DeltaF508-166 +CCCAUAAUCACCAUUAGAA 19 1687 CFTR-DeltaF508-167 + UCCCAUAAUCACCAUUAGAA 20678 CFTR-DeltaF508-168 + CUCCCAUAAUCACCAUUAGAA 21 1688CFTR-DeltaF508-169 + UCUCCCAUAAUCACCAUUAGAA 22 1689 CFTR-DeltaF508-170 +UUCUCCCAUAAUCACCAUUAGAA 23 1690 CFTR-DeltaF508-171 +GUUCUCCCAUAAUCACCAUUAGAA 24 1691 CFTR-DeltaF508-172 + UUCACAGUAGCUUACCCA18 1692 CFTR-DeltaF508-173 + AUUCACAGUAGCUUACCCA 19 1693CFTR-DeltaF508-174 + CAUUCACAGUAGCUUACCCA 20 693 CFTR-DeltaF508-175 +CCAUUCACAGUAGCUUACCCA 21 1694 CFTR-DeltaF508-176 +UCCAUUCACAGUAGCUUACCCA 22 1695 CFTR-DeltaF508-177 +AUCCAUUCACAGUAGCUUACCCA 23 1696 CFTR-DeltaF508-178 +GAUCCAUUCACAGUAGCUUACCCA 24 1697 CFTR-DeltaF508-179 + CUGUAUCUAUAUUCAUCA18 1698 CFTR-DeltaF508-180 + UCUGUAUCUAUAUUCAUCA 19 1699CFTR-DeltaF508-181 + UUCUGUAUCUAUAUUCAUCA 20 686 CFTR-DeltaF508-182 +CUUCUGUAUCUAUAUUCAUCA 21 1700 CFTR-DeltaF508-183 +GCUUCUGUAUCUAUAUUCAUCA 22 1701 CFTR-DeltaF508-184 +CGCUUCUGUAUCUAUAUUCAUCA 23 1702 CFTR-DeltaF508-185 +ACGCUUCUGUAUCUAUAUUCAUCA 24 1703 CFTR-DeltaF508-186 + AGGAAAACUGAGAACAGA18 1704 CFTR-DeltaF508-187 + CAGGAAAACUGAGAACAGA 19 1705CFTR-DeltaF508-188 + CCAGGAAAACUGAGAACAGA 20 681 CFTR-DeltaF508-189 +UCCAGGAAAACUGAGAACAGA 21 1706 CFTR-DeltaF508-190 +AUCCAGGAAAACUGAGAACAGA 22 1707 CFTR-DeltaF508-191 +AAUCCAGGAAAACUGAGAACAGA 23 1708 CFTR-DeltaF508-192 +UAAUCCAGGAAAACUGAGAACAGA 24 1709 CFTR-DeltaF508-193 + AGACUAACCGAUUGAAUA18 1710 CFTR-DeltaF508-194 + UAGACUAACCGAUUGAAUA 19 1711CFTR-DeltaF508-10 + GUAGACUAACCGAUUGAAUA 20 398 CFTR-DeltaF508-195 +UGUAGACUAACCGAUUGAAUA 21 1712 CFTR-DeltaF508-196 +AUGUAGACUAACCGAUUGAAUA 22 1713 CFTR-DeltaF508-197 +UAUGUAGACUAACCGAUUGAAUA 23 1714 CFTR-DeltaF508-198 +AUAUGUAGACUAACCGAUUGAAUA 24 1715 CFTR-DeltaF508-199 + CACAGUAGCUUACCCAUA18 1716 CFTR-DeltaF508-200 + UCACAGUAGCUUACCCAUA 19 1717CFTR-DeltaF508-201 + UUCACAGUAGCUUACCCAUA 20 692 CFTR-DeltaF508-202 +AUUCACAGUAGCUUACCCAUA 21 1718 CFTR-DeltaF508-203 +CAUUCACAGUAGCUUACCCAUA 22 1719 CFTR-DeltaF508-204 +CCAUUCACAGUAGCUUACCCAUA 23 1720 CFTR-DeltaF508-205 +UCCAUUCACAGUAGCUUACCCAUA 24 1721 CFTR-DeltaF508-206 + UGGUGCCAGGCAUAAUCC18 1722 CFTR-DeltaF508-207 + AUGGUGCCAGGCAUAAUCC 19 1723CFTR-DeltaF508-43 + AAUGGUGCCAGGCAUAAUCC 20 389 CFTR-DeltaF508-208 +UAAUGGUGCCAGGCAUAAUCC 21 1724 CFTR-DeltaF508-209 +UUAAUGGUGCCAGGCAUAAUCC 22 1725 CFTR-DeltaF508-210 +UUUAAUGGUGCCAGGCAUAAUCC 23 1726 CFTR-DeltaF508-211 +CUUUAAUGGUGCCAGGCAUAAUCC 24 1727 CFTR-DeltaF508-212 + AUGGUGCCAGGCAUAAUC18 1728 CFTR-DeltaF508-213 + AAUGGUGCCAGGCAUAAUC 19 1729CFTR-DeltaF508-214 + UAAUGGUGCCAGGCAUAAUC 20 685 CFTR-DeltaF508-215 +UUAAUGGUGCCAGGCAUAAUC 21 1730 CFTR-DeltaF508-216 +UUUAAUGGUGCCAGGCAUAAUC 22 1731 CFTR-DeltaF508-217 +CUUUAAUGGUGCCAGGCAUAAUC 23 1732 CFTR-DeltaF508-218 +UCUUUAAUGGUGCCAGGCAUAAUC 24 1733 CFTR-DeltaF508-219 + ACCAUUAGAAGUGAAGUC18 1734 CFTR-DeltaF508-220 + CACCAUUAGAAGUGAAGUC 19 1735CFTR-DeltaF508-45 + UCACCAUUAGAAGUGAAGUC 20 434 CFTR-DeltaF508-221 +AUCACCAUUAGAAGUGAAGUC 21 1736 CFTR-DeltaF508-222 +AAUCACCAUUAGAAGUGAAGUC 22 1737 CFTR-DeltaF508-223 +UAAUCACCAUUAGAAGUGAAGUC 23 1738 CFTR-DeltaF508-224 +AUAAUCACCAUUAGAAGUGAAGUC 24 1739 CFTR-DeltaF508-225 + ACAGUAGCUUACCCAUAG18 1740 CFTR-DeltaF508-226 + CACAGUAGCUUACCCAUAG 19 1741CFTR-DeltaF508-47 + UCACAGUAGCUUACCCAUAG 20 429 CFTR-DeltaF508-227 +UUCACAGUAGCUUACCCAUAG 21 1742 CFTR-DeltaF508-228 +AUUCACAGUAGCUUACCCAUAG 22 1743 CFTR-DeltaF508-229 +CAUUCACAGUAGCUUACCCAUAG 23 1744 CFTR-DeltaF508-230 +CCAUUCACAGUAGCUUACCCAUAG 24 1745 CFTR-DeltaF508-231 + UAGACUAACCGAUUGAAU18 1746 CFTR-DeltaF508-232 + GUAGACUAACCGAUUGAAU 19 1747CFTR-DeltaF508-233 + UGUAGACUAACCGAUUGAAU 20 690 CFTR-DeltaF508-234 +AUGUAGACUAACCGAUUGAAU 21 1748 CFTR-DeltaF508-235 +UAUGUAGACUAACCGAUUGAAU 22 1749 CFTR-DeltaF508-236 +AUAUGUAGACUAACCGAUUGAAU 23 1750 CFTR-DeltaF508-237 +UAUAUGUAGACUAACCGAUUGAAU 24 1751 CFTR-DeltaF508-238 + UUCUCCCAUAAUCACCAU18 1752 CFTR-DeltaF508-239 + GUUCUCCCAUAAUCACCAU 19 1753CFTR-DeltaF508-240 + AGUUCUCCCAUAAUCACCAU 20 679 CFTR-DeltaF508-241 +CAGUUCUCCCAUAAUCACCAU 21 1754 CFTR-DeltaF508-242 +CCAGUUCUCCCAUAAUCACCAU 22 1755 CFTR-DeltaF508-243 +UCCAGUUCUCCCAUAAUCACCAU 23 1756 CFTR-DeltaF508-244 +CUCCAGUUCUCCCAUAAUCACCAU 24 1757 CFTR-DeltaF508-245 + UGUAUCUAUAUUCAUCAU18 1758 CFTR-DeltaF508-246 + CUGUAUCUAUAUUCAUCAU 19 1759CFTR-DeltaF508-49 + UCUGUAUCUAUAUUCAUCAU 20 409 CFTR-DeltaF508-247 +UUCUGUAUCUAUAUUCAUCAU 21 1760 CFTR-DeltaF508-248 +CUUCUGUAUCUAUAUUCAUCAU 22 1761 CFTR-DeltaF508-249 +GCUUCUGUAUCUAUAUUCAUCAU 23 1762 CFTR-DeltaF508-250 +CGCUUCUGUAUCUAUAUUCAUCAU 24 1763 CFTR-DeltaF508-251 + GCAUAAUCCAGGAAAACU18 1764 CFTR-DeltaF508-252 + GGCAUAAUCCAGGAAAACU 19 1765CFTR-DeltaF508-253 + AGGCAUAAUCCAGGAAAACU 20 683 CFTR-DeltaF508-254 +CAGGCAUAAUCCAGGAAAACU 21 1766 CFTR-DeltaF508-255 +CCAGGCAUAAUCCAGGAAAACU 22 1767 CFTR-DeltaF508-256 +GCCAGGCAUAAUCCAGGAAAACU 23 1768 CFTR-DeltaF508-257 +UGCCAGGCAUAAUCCAGGAAAACU 24 1769 CFTR-DeltaF508-258 + UGUGCUUAAUUUUACCCU18 1770 CFTR-DeltaF508-259 + CUGUGCUUAAUUUUACCCU 19 1771CFTR-DeltaF508-260 + ACUGUGCUUAAUUUUACCCU 20 680 CFTR-DeltaF508-261 +CACUGUGCUUAAUUUUACCCU 21 1772 CFTR-DeltaF508-262 +CCACUGUGCUUAAUUUUACCCU 22 1773 CFTR-DeltaF508-263 +UCCACUGUGCUUAAUUUUACCCU 23 1774 CFTR-DeltaF508-264 +UUCCACUGUGCUUAAUUUUACCCU 24 1775 CFTR-DeltaF508-265 + CACCAUUAGAAGUGAAGU18 1776 CFTR-DeltaF508-266 + UCACCAUUAGAAGUGAAGU 19 1777CFTR-DeltaF508-267 + AUCACCAUUAGAAGUGAAGU 20 677 CFTR-DeltaF508-268 +AAUCACCAUUAGAAGUGAAGU 21 1778 CFTR-DeltaF508-269 +UAAUCACCAUUAGAAGUGAAGU 22 1779 CFTR-DeltaF508-270 +AUAAUCACCAUUAGAAGUGAAGU 23 1780 CFTR-DeltaF508-271 +CAUAAUCACCAUUAGAAGUGAAGU 24 1781 CFTR-DeltaF508-272 + AUAUAUAAUUUGGGUAGU18 1782 CFTR-DeltaF508-273 + AAUAUAUAAUUUGGGUAGU 19 1783CFTR-DeltaF508-274 + AAAUAUAUAAUUUGGGUAGU 20 688 CFTR-DeltaF508-275 +CAAAUAUAUAAUUUGGGUAGU 21 1784 CFTR-DeltaF508-276 +CCAAAUAUAUAAUUUGGGUAGU 22 1785 CFTR-DeltaF508-277 +GCCAAAUAUAUAAUUUGGGUAGU 23 1786 CFTR-DeltaF508-278 +AGCCAAAUAUAUAAUUUGGGUAGU 24 1787 CFTR-DeltaF508-279 − AUGGUGAUUAUGGGAGAA18 1788 CFTR-DeltaF508-280 − AAUGGUGAUUAUGGGAGAA 19 1789CFTR-DeltaF508-281 − UAAUGGUGAUUAUGGGAGAA 20 659 CFTR-DeltaF508-282 −CUAAUGGUGAUUAUGGGAGAA 21 1790 CFTR-DeltaF508-283 −UCUAAUGGUGAUUAUGGGAGAA 22 1791 CFTR-DeltaF508-284 −UUCUAAUGGUGAUUAUGGGAGAA 23 1792 CFTR-DeltaF508-285 −CUUCUAAUGGUGAUUAUGGGAGAA 24 1793 CFTR-DeltaF508-286 − AGGGUAAAAUUAAGCACA18 1794 CFTR-DeltaF508-287 − GAGGGUAAAAUUAAGCACA 19 1795CFTR-DeltaF508-288 − AGAGGGUAAAAUUAAGCACA 20 662 CFTR-DeltaF508-289 −CAGAGGGUAAAAUUAAGCACA 21 1796 CFTR-DeltaF508-290 −UCAGAGGGUAAAAUUAAGCACA 22 1797 CFTR-DeltaF508-291 −UUCAGAGGGUAAAAUUAAGCACA 23 1798 CFTR-DeltaF508-292 −CUUCAGAGGGUAAAAUUAAGCACA 24 1799 CFTR-DeltaF508-293 − CUAUGAUGAAUAUAGAUA18 1800 CFTR-DeltaF508-294 − CCUAUGAUGAAUAUAGAUA 19 1801CFTR-DeltaF508-295 − UCCUAUGAUGAAUAUAGAUA 20 667 CFTR-DeltaF508-296 −UUCCUAUGAUGAAUAUAGAUA 21 1802 CFTR-DeltaF508-297 −UUUCCUAUGAUGAAUAUAGAUA 22 1803 CFTR-DeltaF508-298 −GUUUCCUAUGAUGAAUAUAGAUA 23 1804 CFTR-DeltaF508-299 −UGUUUCCUAUGAUGAAUAUAGAUA 24 1805 CFTR-DeltaF508-300 − UUAUGCCUGGCACCAUUA18 1806 CFTR-DeltaF508-301 − AUUAUGCCUGGCACCAUUA 19 1807CFTR-DeltaF508-302 − GAUUAUGCCUGGCACCAUUA 20 665 CFTR-DeltaF508-303 −GGAUUAUGCCUGGCACCAUUA 21 1808 CFTR-DeltaF508-304 −UGGAUUAUGCCUGGCACCAUUA 22 1809 CFTR-DeltaF508-305 −CUGGAUUAUGCCUGGCACCAUUA 23 1810 CFTR-DeltaF508-306 −CCUGGAUUAUGCCUGGCACCAUUA 24 1811 CFTR-DeltaF508-307 − CACUUCUAAUGGUGAUUA18 1812 CFTR-DeltaF508-308 − UCACUUCUAAUGGUGAUUA 19 1813CFTR-DeltaF508-39 − UUCACUUCUAAUGGUGAUUA 20 421 CFTR-DeltaF508-309 −CUUCACUUCUAAUGGUGAUUA 21 1814 CFTR-DeltaF508-310 −ACUUCACUUCUAAUGGUGAUUA 22 1815 CFTR-DeltaF508-311 −GACUUCACUUCUAAUGGUGAUUA 23 1816 CFTR-DeltaF508-312 −AGACUUCACUUCUAAUGGUGAUUA 24 1817 CFTR-DeltaF508-313 − UCAUCAAAGCAUGCCAAC18 1818 CFTR-DeltaF508-314 − GUCAUCAAAGCAUGCCAAC 19 1819CFTR-DeltaF508-315 − CGUCAUCAAAGCAUGCCAAC 20 668 CFTR-DeltaF508-316 −GCGUCAUCAAAGCAUGCCAAC 21 1820 CFTR-DeltaF508-317 −AGCGUCAUCAAAGCAUGCCAAC 22 1821 CFTR-DeltaF508-318 −AAGCGUCAUCAAAGCAUGCCAAC 23 1822 CFTR-DeltaF508-319 −GAAGCGUCAUCAAAGCAUGCCAAC 24 1823 CFTR-DeltaF508-320 − UGGUGAUUAUGGGAGAAC18 1824 CFTR-DeltaF508-321 − AUGGUGAUUAUGGGAGAAC 19 1825CFTR-DeltaF508-40 − AAUGGUGAUUAUGGGAGAAC 20 423 CFTR-DeltaF508-322 −UAAUGGUGAUUAUGGGAGAAC 21 1826 CFTR-DeltaF508-323 −CUAAUGGUGAUUAUGGGAGAAC 22 1827 CFTR-DeltaF508-324 −UCUAAUGGUGAUUAUGGGAGAAC 23 1828 CFTR-DeltaF508-325 −UUCUAAUGGUGAUUAUGGGAGAAC 24 1829 CFTR-DeltaF508-326 − AUUGGAGGCAAGUGAAUC18 1830 CFTR-DeltaF508-327 − AAUUGGAGGCAAGUGAAUC 19 1831CFTR-DeltaF508-328 − UAAUUGGAGGCAAGUGAAUC 20 655 CFTR-DeltaF508-329 −GGGUAAAAUUAAGCACAG 18 1832 CFTR-DeltaF508-330 − AGGGUAAAAUUAAGCACAG 191833 CFTR-DeltaF508-12 − GAGGGUAAAAUUAAGCACAG 20 387 CFTR-DeltaF508-331− AGAGGGUAAAAUUAAGCACAG 21 1834 CFTR-DeltaF508-332 −CAGAGGGUAAAAUUAAGCACAG 22 1835 CFTR-DeltaF508-333 −UCAGAGGGUAAAAUUAAGCACAG 23 1836 CFTR-DeltaF508-334 −UUCAGAGGGUAAAAUUAAGCACAG 24 1837 CFTR-DeltaF508-335 − UCAAAGCAUGCCAACUAG18 1838 CFTR-DeltaF508-336 − AUCAAAGCAUGCCAACUAG 19 1839CFTR-DeltaF508-337 − CAUCAAAGCAUGCCAACUAG 20 669 CFTR-DeltaF508-338 −UCAUCAAAGCAUGCCAACUAG 21 1840 CFTR-DeltaF508-339 −GUCAUCAAAGCAUGCCAACUAG 22 1841 CFTR-DeltaF508-340 −CGUCAUCAAAGCAUGCCAACUAG 23 1842 CFTR-DeltaF508-341 −GCGUCAUCAAAGCAUGCCAACUAG 24 1843 CFTR-DeltaF508-342 − UUCUAAUGGUGAUUAUGG18 1844 CFTR-DeltaF508-343 − CUUCUAAUGGUGAUUAUGG 19 1845CFTR-DeltaF508-344 − ACUUCUAAUGGUGAUUAUGG 20 658 CFTR-DeltaF508-345 −CACUUCUAAUGGUGAUUAUGG 21 1846 CFTR-DeltaF508-346 −UCACUUCUAAUGGUGAUUAUGG 22 1847 CFTR-DeltaF508-347 −UUCACUUCUAAUGGUGAUUAUGG 23 1848 CFTR-DeltaF508-348 −CUUCACUUCUAAUGGUGAUUAUGG 24 1849 CFTR-DeltaF508-349 − AACUUUUUGAUUAUGCAU18 1850 CFTR-DeltaF508-350 − AAACUUUUUGAUUAUGCAU 19 1851CFTR-DeltaF508-351 − AAAACUUUUUGAUUAUGCAU 20 672 CFTR-DeltaF508-352 −GAAAACUUUUUGAUUAUGCAU 21 1852 CFTR-DeltaF508-353 −UGAAAACUUUUUGAUUAUGCAU 22 1853 CFTR-DeltaF508-354 −GUGAAAACUUUUUGAUUAUGCAU 23 1854 CFTR-DeltaF508-355 −UGUGAAAACUUUUUGAUUAUGCAU 24 1855 CFTR-DeltaF508-356 − GAAGAGGUAAGAAACUAU18 1856 CFTR-DeltaF508-357 − AGAAGAGGUAAGAAACUAU 19 1857CFTR-DeltaF508-358 − UAGAAGAGGUAAGAAACUAU 20 671 CFTR-DeltaF508-359 −CUAGAAGAGGUAAGAAACUAU 21 1858 CFTR-DeltaF508-360 −ACUAGAAGAGGUAAGAAACUAU 22 1859 CFTR-DeltaF508-361 −AACUAGAAGAGGUAAGAAACUAU 23 1860 CFTR-DeltaF508-362 −CAACUAGAAGAGGUAAGAAACUAU 24 1861 CFTR-DeltaF508-363 − ACUUCUAAUGGUGAUUAU18 1862 CFTR-DeltaF508-364 − CACUUCUAAUGGUGAUUAU 19 1863CFTR-DeltaF508-51 − UCACUUCUAAUGGUGAUUAU 20 422 CFTR-DeltaF508-365 −UUCACUUCUAAUGGUGAUUAU 21 1864 CFTR-DeltaF508-366 −CUUCACUUCUAAUGGUGAUUAU 22 1865 CFTR-DeltaF508-367 −ACUUCACUUCUAAUGGUGAUUAU 23 1866 CFTR-DeltaF508-368 −GACUUCACUUCUAAUGGUGAUUAU 24 1867 CFTR-DeltaF508-369 − AUGCCAACUAGAAGAGGU18 1868 CFTR-DeltaF508-370 − CAUGCCAACUAGAAGAGGU 19 1869CFTR-DeltaF508-371 − GCAUGCCAACUAGAAGAGGU 20 670 CFTR-DeltaF508-372 −AGCAUGCCAACUAGAAGAGGU 21 1870 CFTR-DeltaF508-373 −AAGCAUGCCAACUAGAAGAGGU 22 1871 CFTR-DeltaF508-374 −AAAGCAUGCCAACUAGAAGAGGU 23 1872 CFTR-DeltaF508-375 −CAAAGCAUGCCAACUAGAAGAGGU 24 1873 CFTR-DeltaF508-376 − UCACUUCUAAUGGUGAUU18 1874 CFTR-DeltaF508-377 − UUCACUUCUAAUGGUGAUU 19 1875CFTR-DeltaF508-378 − CUUCACUUCUAAUGGUGAUU 20 657 CFTR-DeltaF508-379 −ACUUCACUUCUAAUGGUGAUU 21 1876 CFTR-DeltaF508-380 −GACUUCACUUCUAAUGGUGAUU 22 1877 CFTR-DeltaF508-381 −AGACUUCACUUCUAAUGGUGAUU 23 1878 CFTR-DeltaF508-382 −CAGACUUCACUUCUAAUGGUGAUU 24 1879 CFTR-DeltaF508-383 − UGGGAGAACUGGAGCCUU18 1880 CFTR-DeltaF508-384 − AUGGGAGAACUGGAGCCUU 19 1881CFTR-DeltaF508-385 − UAUGGGAGAACUGGAGCCUU 20 660 CFTR-DeltaF508-386 −UUAUGGGAGAACUGGAGCCUU 21 1882 CFTR-DeltaF508-387 −AUUAUGGGAGAACUGGAGCCUU 22 1883 CFTR-DeltaF508-388 −GAUUAUGGGAGAACUGGAGCCUU 23 1884 CFTR-DeltaF508-389 −UGAUUAUGGGAGAACUGGAGCCUU 24 1885

Table 12A provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508), have a high level of orthogonality and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a N.meningitidis Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 12A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-DeltaF508- − GAAACUAUGUGAAAACU 17 924 390

Table 12B provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508) and have a high level of orthogonality. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 12B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-DeltaF508-16 − CCAGACUUCACUUCUAA 17 438CFTR-DeltaF508-391 + AGAAUGAAAUUCUUCCA 17 1886 CFTR-DeltaF508-392 −AGGCAAGUGAAUCCUGA 17 922 CFTR-DeltaF508-393 + UCAUUAUCAAAUCACGC 17 925CFTR-DeltaF508-394 + CUUACCUCUUCUAGUUG 17 1887 CFTR-DeltaF508-34 −UUUCCAGACUUCACUUCUAA 20 420 CFTR-DeltaF508-395 − UGGAGGCAAGUGAAUCCUGA 20917 CFTR-DeltaF508-396 + UUCUAGUUGGCAUGCUUUGA 20 1888CFTR-DeltaF508-397 + AGGUCAUUAUCAAAUCACGC 20 920 CFTR-DeltaF508-398 −UAAGAAACUAUGUGAAAACU 20 919

Table 12C provides exemplary targeting domains for correcting a mutation(e.g., deltaF508) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., deltaF508). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha N. meningitidis Cas9 molecule that generates a double stranded break(Cas9 nuclease) or a single-stranded break (Cas9 nickase).

TABLE 12C 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-DeltaF508-399 + UAGUUGGCAUGCUUUGA 17 1889CFTR-DeltaF508-400 + AUAAAUAUAUGUAGACU 17 926 CFTR-DeltaF508-401 −AUUCUGUUCUCAGUUUU 17 923 CFTR-DeltaF508-402 + AACAGAAUGAAAUUCUUCCA 201890 CFTR-DeltaF508-403 + UUUCUUACCUCUUCUAGUUG 20 1891CFTR-DeltaF508-404 + AACAUAAAUAUAUGUAGACU 20 921 CFTR-DeltaF508-405 −UUCAUUCUGUUCUCAGUUUU 20 918

Table 13A provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 13A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G542X-1 − GCUUUAUAUUCUGUUUC 17 466 CFTR-G542X-2 −GGUGGAAUCACACUGAG 17 456 CFTR-G542X-3 − GGAAUCACACUGAGUGG 17 457CFTR-G542X-4 − GUUCAAAAUUUCAACUG 17 464 CFTR-G542X-5 − GGUGAAUAACUAAUUAU17 465 CFTR-G542X-6 − GGGGUUUUAUGGCUAGU 17 458 CFTR-G542X-7 −GAGCAAGAAUUUCUUUAGCA 20 462 CFTR-G542X-8 − GAAGGUGGAAUCACACUGAG 20 461CFTR-G542X-9 − GGUGGAAUCACACUGAGUGG 20 454

Table 13B provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X) and have a high level of orthogonality. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. pyogenes Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 13B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G542X-10 + CUCAAUCUGAAUUUGAA 17 496 CFTR-G542X-11 −CAAGAAUUUCUUUAGCA 17 491 CFTR-G542X-12 − UAUAUGAUUACAUUAGA 17 485CFTR-G542X-13 − AAAAUCCUGGGGUUUUA 17 493 CFTR-G542X-14 +ACUAGCCAUAAAACCCC 17 459 CFTR-G542X-15 − UGGGGUUUUAUGGCUAG 17 494CFTR-G542X-16 − AUAGUUCUUUGAGAAGG 17 1892 CFTR-G542X-17 +AUGCUCAAUCUGAAUUUGAA 20 484 CFTR-G542X-18 − UGAUAUAUGAUUACAUUAGA 20 471CFTR-G542X-19 + CCCACUAGCCAUAAAACCCC 20 455 CFTR-G542X-20 −UUCUGGAAUUGAAAAAAUCC 20 477 CFTR-G542X-21 − CUGGAAUUGAAAAAAUCCUG 20 479CFTR-G542X-22 − CAAGGUGAAUAACUAAUUAU 20 475 CFTR-G542X-23 −CCUGGGGUUUUAUGGCUAGU 20 481

Table 13C provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X) and start with a 5′G. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. pyogenes Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 13C 3rd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G542X-24 − GAAUUGAAAAAAUCCUG 17 468 CFTR-G542X-25 +GUCUUUCUCUGCAAACU 17 469 CFTR-G542X-26 − GGAAUUGAAAAAAUCCU 17 467CFTR-G542X-27 − GACAAUAUAGUUCUUUGAGA 20 1893 CFTR-G542X-28 −GAAAAAAUCCUGGGGUUUUA 20 463

Table 13D provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 13D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G542X-29 − AAUUGCAUUUGAAAUAA 17 1894 CFTR-G542X-30 −AAUAUAGUUCUUUGAGA 17 1895 CFTR-G542X-31 − UGGAAUUGAAAAAAUCC 17  492CFTR-G542X-32 − UUUCUAUUUUUGGUAAU 17  487 CFTR-G542X-33 −CUCUAAUUUUCUAUUUU 17  486 CFTR-G542X-34 − AUAAAUUGCAUUUGAAAUAA 20 1896CFTR-G542X-35 − AUUGCUUUAUAUUCUGUUUC 20  476 CFTR-G542X-36 −UCCUGGGGUUUUAUGGCUAG 20  480 CFTR-G542X-37 − AAUAUAGUUCUUUGAGAAGG 201897 CFTR-G542X-38 − AAUGUUCAAAAUUUCAACUG 20  470 CFTR-G542X-39 −AAUUUUCUAUUUUUGGUAAU 20  473 CFTR-G542X-40 + AUUGUCUUUCUCUGCAAACU 20 483 CFTR-G542X-41 − UCUGGAAUUGAAAAAAUCCU 20  478 CFTR-G542X-42 −ACUCUCUAAUUUUCUAUUUU 20  472

Table 14A provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X), have a high level of orthogonality, start with a 5′G, andPAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 14A 1st Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G542X-43 + GAUUUUUUCAAUUCCAGAAA 20  766 CFTR-G542X-44 +GGAUUUUUUCAAUUCCAGAAA 21 1898 CFTR-G542X-45 + GUCACUUUUAGUAUGCUCAAU 211899 CFTR-G542X-46 + GAGUCACUUUUAGUAUGCUCAAU 23 1900 CFTR-G542X-47 −GAGUGGAGGUCAACGAGC 18 1901 CFTR-G542X-48 − GCAAGAAUUUCUUUAGCAAG 20  746CFTR-G542X-49 − GAGCAAGAAUUUCUUUAGCAAG 22 1902 CFTR-G542X-50 −GUUUUAUGGCUAGUGGGUU 19 1903 CFTR-G542X-51 − GGUUUUAUGGCUAGUGGGUU 20  751CFTR-G542X-52 − GGGUUUUAUGGCUAGUGGGUU 21 1904 CFTR-G542X-53 −GGGGUUUUAUGGCUAGUGGGUU 22 1905

Table 14B provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X), have a high level of orthogonality and PAM is NNGRRT. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 14B 2nd Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G542X-54 + UUUUUUCAAUUCCAGAAA 18 1906 CFTR-G542X-55 +AUUUUUUCAAUUCCAGAAA 19 1907 CFTR-G542X-56 + AGGAUUUUUUCAAUUCCAGAAA 221908 CFTR-G542X-57 + CAGGAUUUUUUCAAUUCCAGAAA 23 1909 CFTR-G542X-58 +CCAGGAUUUUUUCAAUUCCAGAAA 24 1910 CFTR-G542X-59 + UGUCUGUAAUUUUUUUAC 181911 CFTR-G542X-60 + AUGUCUGUAAUUUUUUUAC 19 1912 CFTR-G542X-61 +AAUGUCUGUAAUUUUUUUAC 20  763 CFTR-G542X-62 + CCACUAGCCAUAAAACCC 18 1913CFTR-G542X-63 + CCCACUAGCCAUAAAACCC 19 1914 CFTR-G542X-64 +ACCCACUAGCCAUAAAACCC 20 1915 CFTR-G542X-65 + AACCCACUAGCCAUAAAACCC 211916 CFTR-G542X-66 + UAACCCACUAGCCAUAAAACCC 22 1917 CFTR-G542X-67 +UUAACCCACUAGCCAUAAAACCC 23 1918 CFTR-G542X-68 + CUUAACCCACUAGCCAUAAAACCC24 1919 CFTR-G542X-69 + ACUUUUAGUAUGCUCAAU 18 1920 CFTR-G542X-70 +CACUUUUAGUAUGCUCAAU 19 1921 CFTR-G542X-71 + UCACUUUUAGUAUGCUCAAU 20  756CFTR-G542X-72 + AGUCACUUUUAGUAUGCUCAAU 22 1922 CFTR-G542X-73 +AGAGUCACUUUUAGUAUGCUCAAU 24 1923 CFTR-G542X-74 − CCUGGGGUUUUAUGGCUA 181924 CFTR-G542X-75 − UCCUGGGGUUUUAUGGCUA 19 1925 CFTR-G542X-76 −AUCCUGGGGUUUUAUGGCUA 20  750 CFTR-G542X-77 − AAUCCUGGGGUUUUAUGGCUA 211926 CFTR-G542X-78 − AAAUCCUGGGGUUUUAUGGCUA 22 1927 CFTR-G542X-79 −AAAAUCCUGGGGUUUUAUGGCUA 23 1928 CFTR-G542X-80 − AAAAAUCCUGGGGUUUUAUGGCUA24 1929 CFTR-G542X-81 − UGAGUGGAGGUCAACGAGC 19 1930 CFTR-G542X-82 −CUGAGUGGAGGUCAACGAGC 20  745 CFTR-G542X-83 − UGCUUUAUAUUCUGUUUC 18 1931CFTR-G542X-84 − UUGCUUUAUAUUCUGUUUC 19 1932 CFTR-G542X-35 −AUUGCUUUAUAUUCUGUUUC 20  476 CFTR-G542X-85 − UAUUGCUUUAUAUUCUGUUUC 211933 CFTR-G542X-86 − CUAUUGCUUUAUAUUCUGUUUC 22 1934 CFTR-G542X-87 −UCUAUUGCUUUAUAUUCUGUUUC 23 1935 CFTR-G542X-88 − CUCUAUUGCUUUAUAUUCUGUUUC24 1936 CFTR-G542X-89 − AAGAAUUUCUUUAGCAAG 18 1937 CFTR-G542X-90 −CAAGAAUUUCUUUAGCAAG 19 1938 CFTR-G542X-91 − AGCAAGAAUUUCUUUAGCAAG 211939 CFTR-G542X-92 − CGAGCAAGAAUUUCUUUAGCAAG 23 1940 CFTR-G542X-93 −ACGAGCAAGAAUUUCUUUAGCAAG 24 1941 CFTR-G542X-94 − UUUUAUGGCUAGUGGGUU 181942 CFTR-G542X-95 − UGGGGUUUUAUGGCUAGUGGGUU 23 1943 CFTR-G542X-96 −CUGGGGUUUUAUGGCUAGUGGGUU 24 1944

Table 14C provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X), start with a 5′G and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 14C 3rd Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G542X-97 + GAAAUGUCUGUAAUUUUUUUAC 22 1945 CFTR-G542X-98 +GAGAAAUGUCUGUAAUUUUUUUAC 24 1946 CFTR-G542X-99 −GUUCUUUGAGAAGGUGGAAUCACA 24 1947 CFTR-G542X-100 − GUUUCUGGAAUUGAAAAAAUCC22 1948 CFTR-G542X-101 − GACAAUAUAGUUCUUUGAGAAGG 23 1949

Table 14D provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X), and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 14D 4th Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G542X-102 + ACCAAAAAUAGAAAAUUA 18 1950 CFTR-G542X-103 +UACCAAAAAUAGAAAAUUA 19 1951 CFTR-G542X-104 + UUACCAAAAAUAGAAAAUUA 20 757 CFTR-G542X-105 + AUUACCAAAAAUAGAAAAUUA 21 1952 CFTR-G542X-106 +UAUUACCAAAAAUAGAAAAUUA 22 1953 CFTR-G542X-107 + CUAUUACCAAAAAUAGAAAAUUA23 1954 CFTR-G542X-108 + CCUAUUACCAAAAAUAGAAAAUUA 24 1955CFTR-G542X-109 + AAAUGUCUGUAAUUUUUUUAC 21 1956 CFTR-G542X-110 +AGAAAUGUCUGUAAUUUUUUUAC 23 1957 CFTR-G542X-111 − UGAGAAGGUGGAAUCACA 181958 CFTR-G542X-112 − UUGAGAAGGUGGAAUCACA 19 1959 CFTR-G542X-113 −UUUGAGAAGGUGGAAUCACA 20 1960 CFTR-G542X-114 − CUUUGAGAAGGUGGAAUCACA 211961 CFTR-G542X-115 − UCUUUGAGAAGGUGGAAUCACA 22 1962 CFTR-G542X-116 −UUCUUUGAGAAGGUGGAAUCACA 23 1963 CFTR-G542X-117 − CUGGAAUUGAAAAAAUCC 181964 CFTR-G542X-118 − UCUGGAAUUGAAAAAAUCC 19 1965 CFTR-G542X-20 −UUCUGGAAUUGAAAAAAUCC 20  477 CFTR-G542X-119 − UUUCUGGAAUUGAAAAAAUCC 211966 CFTR-G542X-120 − UGUUUCUGGAAUUGAAAAAAUCC 23 1967 CFTR-G542X-121 −CUGUUUCUGGAAUUGAAAAAAUCC 24 1968 CFTR-G542X-122 − ACUGAGUGGAGGUCAACGAGC21 1969 CFTR-G542X-123 − CACUGAGUGGAGGUCAACGAGC 22 1970 CFTR-G542X-124 −ACACUGAGUGGAGGUCAACGAGC 23 1971 CFTR-G542X-125 −CACACUGAGUGGAGGUCAACGAGC 24 1972 CFTR-G542X-126 − UAUAGUUCUUUGAGAAGG 181973 CFTR-G542X-127 − AUAUAGUUCUUUGAGAAGG 19 1974 CFTR-G542X-37 −AAUAUAGUUCUUUGAGAAGG 20 1897 CFTR-G542X-128 − CAAUAUAGUUCUUUGAGAAGG 211975 CFTR-G542X-129 − ACAAUAUAGUUCUUUGAGAAGG 22 1976 CFTR-G542X-130 −AGACAAUAUAGUUCUUUGAGAAGG 24 1977

Table 14E provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X), and PAM is NNGRRV. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 14E 5th Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G542X-131 + AUGUCCUAUUACCAAAAA 18 1978 CFTR-G542X-132 +GAUGUCCUAUUACCAAAAA 19 1979 CFTR-G542X-133 + AGAUGUCCUAUUACCAAAAA 20 759CFTR-G542X-134 + GAGAUGUCCUAUUACCAAAAA 21 1980 CFTR-G542X-135 +GGAGAUGUCCUAUUACCAAAAA 22 1981 CFTR-G542X-136 + UGGAGAUGUCCUAUUACCAAAAA23 1982 CFTR-G542X-137 + UUGGAGAUGUCCUAUUACCAAAAA 24 1983CFTR-G542X-138 + AAACAGAAUAUAAAGCAA 18 1984 CFTR-G542X-139 +GAAACAGAAUAUAAAGCAA 19 1985 CFTR-G542X-140 + AGAAACAGAAUAUAAAGCAA 20 765 CFTR-G542X-141 + CAGAAACAGAAUAUAAAGCAA 21 1986 CFTR-G542X-142 +CCAGAAACAGAAUAUAAAGCAA 22 1987 CFTR-G542X-143 + UCCAGAAACAGAAUAUAAAGCAA23 1988 CFTR-G542X-144 + UUCCAGAAACAGAAUAUAAAGCAA 24 1989CFTR-G542X-145 + UGUGAUUCCACCUUCUCA 18 1990 CFTR-G542X-146 +GUGUGAUUCCACCUUCUCA 19 1991 CFTR-G542X-147 + AGUGUGAUUCCACCUUCUCA 201992 CFTR-G542X-148 + CAGUGUGAUUCCACCUUCUCA 21 1993 CFTR-G542X-149 +UCAGUGUGAUUCCACCUUCUCA 22 1994 CFTR-G542X-150 + CUCAGUGUGAUUCCACCUUCUCA23 1995 CFTR-G542X-151 + ACUCAGUGUGAUUCCACCUUCUCA 24 1996CFTR-G542X-152 + ACAGAAUAUAAAGCAAUA 18 1997 CFTR-G542X-153 +AACAGAAUAUAAAGCAAUA 19 1998 CFTR-G542X-154 + AAACAGAAUAUAAAGCAAUA 20 764 CFTR-G542X-155 + GAAACAGAAUAUAAAGCAAUA 21 1999 CFTR-G542X-156 +AGAAACAGAAUAUAAAGCAAUA 22 2000 CFTR-G542X-157 + CAGAAACAGAAUAUAAAGCAAUA23 2001 CFTR-G542X-158 + CCAGAAACAGAAUAUAAAGCAAUA 24 2002CFTR-G542X-159 + UAGUUAUUCACCUUGCUA 18 2003 CFTR-G542X-160 +UUAGUUAUUCACCUUGCUA 19 2004 CFTR-G542X-161 + AUUAGUUAUUCACCUUGCUA 20 762 CFTR-G542X-162 + AAUUAGUUAUUCACCUUGCUA 21 2005 CFTR-G542X-163 +UAAUUAGUUAUUCACCUUGCUA 22 2006 CFTR-G542X-164 + AUAAUUAGUUAUUCACCUUGCUA23 2007 CFTR-G542X-165 + AAUAAUUAGUUAUUCACCUUGCUA 24 2008CFTR-G542X-166 + UUGUCUUUCUCUGCAAAC 18 2009 CFTR-G542X-167 +AUUGUCUUUCUCUGCAAAC 19 2010 CFTR-G542X-168 + UAUUGUCUUUCUCUGCAAAC 20 760 CFTR-G542X-169 + AUAUUGUCUUUCUCUGCAAAC 21 2011 CFTR-G542X-170 +UAUAUUGUCUUUCUCUGCAAAC 22 2012 CFTR-G542X-171 + CUAUAUUGUCUUUCUCUGCAAAC23 2013 CFTR-G542X-172 + ACUAUAUUGUCUUUCUCUGCAAAC 24 2014CFTR-G542X-173 + CCAGGAUUUUUUCAAUUC 18 2015 CFTR-G542X-174 +CCCAGGAUUUUUUCAAUUC 19 2016 CFTR-G542X-175 + CCCCAGGAUUUUUUCAAUUC 20 767 CFTR-G542X-176 + ACCCCAGGAUUUUUUCAAUUC 21 2017 CFTR-G542X-177 +AACCCCAGGAUUUUUUCAAUUC 22 2018 CFTR-G542X-178 + AAACCCCAGGAUUUUUUCAAUUC23 2019 CFTR-G542X-179 + AAAACCCCAGGAUUUUUUCAAUUC 24 2020CFTR-G542X-180 + CUAUUGCUUUAACCACAG 18 2021 CFTR-G542X-181 +ACUAUUGCUUUAACCACAG 19 2022 CFTR-G542X-182 + CACUAUUGCUUUAACCACAG 20 754 CFTR-G542X-183 + ACACUAUUGCUUUAACCACAG 21 2023 CFTR-G542X-184 +CACACUAUUGCUUUAACCACAG 22 2024 CFTR-G542X-185 + UCACACUAUUGCUUUAACCACAG23 2025 CFTR-G542X-186 + AUCACACUAUUGCUUUAACCACAG 24 2026CFTR-G542X-187 + UUACCAAAAAUAGAAAAU 18 2027 CFTR-G542X-188 +AUUACCAAAAAUAGAAAAU 19 2028 CFTR-G542X-189 + UAUUACCAAAAAUAGAAAAU 20 758 CFTR-G542X-190 + CUAUUACCAAAAAUAGAAAAU 21 2029 CFTR-G542X-191 +CCUAUUACCAAAAAUAGAAAAU 22 2030 CFTR-G542X-192 + UCCUAUUACCAAAAAUAGAAAAU23 2031 CFTR-G542X-193 + GUCCUAUUACCAAAAAUAGAAAAU 24 2032CFTR-G542X-194 + AGUAUGCUCAAUCUGAAU 18 2033 CFTR-G542X-195 +UAGUAUGCUCAAUCUGAAU 19 2034 CFTR-G542X-196 + UUAGUAUGCUCAAUCUGAAU 20 755 CFTR-G542X-197 + UUUAGUAUGCUCAAUCUGAAU 21 2035 CFTR-G542X-198 +UUUUAGUAUGCUCAAUCUGAAU 22 2036 CFTR-G542X-199 + CUUUUAGUAUGCUCAAUCUGAAU23 2037 CFTR-G542X-200 + ACUUUUAGUAUGCUCAAUCUGAAU 24 2038CFTR-G542X-201 + UGUCUUUCUCUGCAAACU 18 2039 CFTR-G542X-202 +UUGUCUUUCUCUGCAAACU 19 2040 CFTR-G542X-40 + AUUGUCUUUCUCUGCAAACU 20  483CFTR-G542X-203 + UAUUGUCUUUCUCUGCAAACU 21 2041 CFTR-G542X-204 +AUAUUGUCUUUCUCUGCAAACU 22 2042 CFTR-G542X-205 + UAUAUUGUCUUUCUCUGCAAACU23 2043 CFTR-G542X-206 + CUAUAUUGUCUUUCUCUGCAAACU 24 2044CFTR-G542X-207 + UUAACCACAGUUGAAAUU 18 2045 CFTR-G542X-208 +UUUAACCACAGUUGAAAUU 19 2046 CFTR-G542X-209 + CUUUAACCACAGUUGAAAUU 20 753 CFTR-G542X-210 + GCUUUAACCACAGUUGAAAUU 21 2047 CFTR-G542X-211 +UGCUUUAACCACAGUUGAAAUU 22 2048 CFTR-G542X-212 + UUGCUUUAACCACAGUUGAAAUU23 2049 CFTR-G542X-213 + AUUGCUUUAACCACAGUUGAAAUU 24 2050 CFTR-G542X-214− UAUAUUCUGUUUCUGGAA 18 2051 CFTR-G542X-215 − UUAUAUUCUGUUUCUGGAA 192052 CFTR-G542X-216 − UUUAUAUUCUGUUUCUGGAA 20  748 CFTR-G542X-217 −CUUUAUAUUCUGUUUCUGGAA 21 2053 CFTR-G542X-218 − GCUUUAUAUUCUGUUUCUGGAA 222054 CFTR-G542X-219 − UGCUUUAUAUUCUGUUUCUGGAA 23 2055 CFTR-G542X-220 −UUGCUUUAUAUUCUGUUUCUGGAA 24 2056 CFTR-G542X-221 − AAAUUGCAUUUGAAAUAA 182057 CFTR-G542X-222 − UAAAUUGCAUUUGAAAUAA 19 2058 CFTR-G542X-34 −AUAAAUUGCAUUUGAAAUAA 20 1896 CFTR-G542X-223 − AUUUUCUAUUUUUGGUAA 18 2059CFTR-G542X-224 − AAUUUUCUAUUUUUGGUAA 19 2060 CFTR-G542X-225 −UAAUUUUCUAUUUUUGGUAA 20  736 CFTR-G542X-226 − CUAAUUUUCUAUUUUUGGUAA 212061 CFTR-G542X-227 − UCUAAUUUUCUAUUUUUGGUAA 22 2062 CFTR-G542X-228 −CUCUAAUUUUCUAUUUUUGGUAA 23 2063 CFTR-G542X-229 −UCUCUAAUUUUCUAUUUUUGGUAA 24 2064 CFTR-G542X-230 − GACAUCUCCAAGUUUGCA 182065 CFTR-G542X-231 − GGACAUCUCCAAGUUUGCA 19 2066 CFTR-G542X-232 −AGGACAUCUCCAAGUUUGCA 20  738 CFTR-G542X-233 − UAGGACAUCUCCAAGUUUGCA 212067 CFTR-G542X-234 − AUAGGACAUCUCCAAGUUUGCA 22 2068 CFTR-G542X-235 −AAUAGGACAUCUCCAAGUUUGCA 23 2069 CFTR-G542X-236 −UAAUAGGACAUCUCCAAGUUUGCA 24 2070 CFTR-G542X-237 − CACACUGAGUGGAGGUCA 182071 CFTR-G542X-238 − UCACACUGAGUGGAGGUCA 19 2072 CFTR-G542X-239 −AUCACACUGAGUGGAGGUCA 20  744 CFTR-G542X-240 − AAUCACACUGAGUGGAGGUCA 212073 CFTR-G542X-241 − GAAUCACACUGAGUGGAGGUCA 22 2074 CFTR-G542X-242 −GGAAUCACACUGAGUGGAGGUCA 23 2075 CFTR-G542X-243 −UGGAAUCACACUGAGUGGAGGUCA 24 2076 CFTR-G542X-244 − GUGCCUUUCAAAUUCAGA 182077 CFTR-G542X-245 − UGUGCCUUUCAAAUUCAGA 19 2078 CFTR-G542X-246 −AUGUGCCUUUCAAAUUCAGA 20  735 CFTR-G542X-247 − GAUGUGCCUUUCAAAUUCAGA 212079 CFTR-G542X-248 − AGAUGUGCCUUUCAAAUUCAGA 22 2080 CFTR-G542X-249 −AAGAUGUGCCUUUCAAAUUCAGA 23 2081 CFTR-G542X-250 −GAAGAUGUGCCUUUCAAAUUCAGA 24 2082 CFTR-G542X-251 − AUAUAUGAUUACAUUAGA 182083 CFTR-G542X-252 − GAUAUAUGAUUACAUUAGA 19 2084 CFTR-G542X-18 −UGAUAUAUGAUUACAUUAGA 20  471 CFTR-G542X-253 − GUGAUAUAUGAUUACAUUAGA 212085 CFTR-G542X-254 − UGUGAUAUAUGAUUACAUUAGA 22 2086 CFTR-G542X-255 −GUGUGAUAUAUGAUUACAUUAGA 23 2087 CFTR-G542X-256 −AGUGUGAUAUAUGAUUACAUUAGA 24 2088 CFTR-G542X-257 − AAGGUGGAAUCACACUGA 182089 CFTR-G542X-258 − GAAGGUGGAAUCACACUGA 19 2090 CFTR-G542X-259 −AGAAGGUGGAAUCACACUGA 20  743 CFTR-G542X-260 − GAGAAGGUGGAAUCACACUGA 212091 CFTR-G542X-261 − UGAGAAGGUGGAAUCACACUGA 22 2092 CFTR-G542X-262 −UUGAGAAGGUGGAAUCACACUGA 23 2093 CFTR-G542X-263 −UUUGAGAAGGUGGAAUCACACUGA 24 2094 CFTR-G542X-264 − UAAAUUGCAUUUGAAAUA 182095 CFTR-G542X-265 − AUAAAUUGCAUUUGAAAUA 19 2096 CFTR-G542X-266 −AAUAAAUUGCAUUUGAAAUA 20 2097 CFTR-G542X-267 − UCUGGAAUUGAAAAAAUC 18 2098CFTR-G542X-268 − UUCUGGAAUUGAAAAAAUC 19 2099 CFTR-G542X-269 −UUUCUGGAAUUGAAAAAAUC 20  749 CFTR-G542X-270 − GUUUCUGGAAUUGAAAAAAUC 212100 CFTR-G542X-271 − UGUUUCUGGAAUUGAAAAAAUC 22 2101 CFTR-G542X-272 −CUGUUUCUGGAAUUGAAAAAAUC 23 2102 CFTR-G542X-273 −UCUGUUUCUGGAAUUGAAAAAAUC 24 2103 CFTR-G542X-274 − AUAUAGUUCUUUGAGAAG 182104 CFTR-G542X-275 − AAUAUAGUUCUUUGAGAAG 19 2105 CFTR-G542X-276 −CAAUAUAGUUCUUUGAGAAG 20 2106 CFTR-G542X-277 − ACAAUAUAGUUCUUUGAGAAG 212107 CFTR-G542X-278 − GACAAUAUAGUUCUUUGAGAAG 22 2108 CFTR-G542X-279 −AGACAAUAUAGUUCUUUGAGAAG 23 2109 CFTR-G542X-280 −AAGACAAUAUAGUUCUUUGAGAAG 24 2110 CFTR-G542X-281 − AGGUGGAAUCACACUGAG 182111 CFTR-G542X-282 − AAGGUGGAAUCACACUGAG 19 2112 CFTR-G542X-8 −GAAGGUGGAAUCACACUGAG 20  461 CFTR-G542X-283 − AGAAGGUGGAAUCACACUGAG 212113 CFTR-G542X-284 − GAGAAGGUGGAAUCACACUGAG 22 2114 CFTR-G542X-285 −UGAGAAGGUGGAAUCACACUGAG 23 2115 CFTR-G542X-286 −UUGAGAAGGUGGAAUCACACUGAG 24 2116 CFTR-G542X-287 − GAUAUAUGAUUACAUUAG 182117 CFTR-G542X-288 − UGAUAUAUGAUUACAUUAG 19 2118 CFTR-G542X-289 −GUGAUAUAUGAUUACAUUAG 20  734 CFTR-G542X-290 − UGUGAUAUAUGAUUACAUUAG 212119 CFTR-G542X-291 − GUGUGAUAUAUGAUUACAUUAG 22 2120 CFTR-G542X-292 −AGUGUGAUAUAUGAUUACAUUAG 23 2121 CFTR-G542X-293 −UAGUGUGAUAUAUGAUUACAUUAG 24 2122 CFTR-G542X-294 − AGGACAUCUCCAAGUUUG 182123 CFTR-G542X-295 − UAGGACAUCUCCAAGUUUG 19 2124 CFTR-G542X-296 −AUAGGACAUCUCCAAGUUUG 20  737 CFTR-G542X-297 − AAUAGGACAUCUCCAAGUUUG 212125 CFTR-G542X-298 − UAAUAGGACAUCUCCAAGUUUG 22 2126 CFTR-G542X-299 −GUAAUAGGACAUCUCCAAGUUUG 23 2127 CFTR-G542X-300 −GGUAAUAGGACAUCUCCAAGUUUG 24 2128 CFTR-G542X-301 − UGUGAUAUAUGAUUACAU 182129 CFTR-G542X-302 − GUGUGAUAUAUGAUUACAU 19 2130 CFTR-G542X-303 −AGUGUGAUAUAUGAUUACAU 20  733 CFTR-G542X-304 − UAGUGUGAUAUAUGAUUACAU 212131 CFTR-G542X-305 − AUAGUGUGAUAUAUGAUUACAU 22 2132 CFTR-G542X-306 −AAUAGUGUGAUAUAUGAUUACAU 23 2133 CFTR-G542X-307 −CAAUAGUGUGAUAUAUGAUUACAU 24 2134 CFTR-G542X-308 − GAAAGACAAUAUAGUUCU 182135 CFTR-G542X-309 − AGAAAGACAAUAUAGUUCU 19 2136 CFTR-G542X-310 −GAGAAAGACAAUAUAGUUCU 20  453 CFTR-G542X-311 − AGAGAAAGACAAUAUAGUUCU 212137 CFTR-G542X-312 − CAGAGAAAGACAAUAUAGUUCU 22 2138 CFTR-G542X-313 −GCAGAGAAAGACAAUAUAGUUCU 23 2139 CFTR-G542X-314 −UGCAGAGAAAGACAAUAUAGUUCU 24 2140 CFTR-G542X-315 − AAGACAAUAUAGUUCUUU 182141 CFTR-G542X-316 − AAAGACAAUAUAGUUCUUU 19 2142 CFTR-G542X-317 −GAAAGACAAUAUAGUUCUUU 20 2143 CFTR-G542X-318 − AGAAAGACAAUAUAGUUCUUU 212144 CFTR-G542X-319 − GAGAAAGACAAUAUAGUUCUUU 22 2145 CFTR-G542X-320 −AGAGAAAGACAAUAUAGUUCUUU 23 2146 CFTR-G542X-321 −CAGAGAAAGACAAUAUAGUUCUUU 24 2147 CFTR-G542X-322 − UUGCUUUAUAUUCUGUUU 182148 CFTR-G542X-323 − AUUGCUUUAUAUUCUGUUU 19 2149 CFTR-G542X-324 −UAUUGCUUUAUAUUCUGUUU 20  747 CFTR-G542X-325 − CUAUUGCUUUAUAUUCUGUUU 212150 CFTR-G542X-326 − UCUAUUGCUUUAUAUUCUGUUU 22 2151 CFTR-G542X-327 −CUCUAUUGCUUUAUAUUCUGUUU 23 2152 CFTR-G542X-328 −UCUCUAUUGCUUUAUAUUCUGUUU 24 2153

Table 15A provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 15A 1st Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G542X-329 + GUAAUCAUAUAUCACAC 17 2154 CFTR-G542X-330− GGUUAAAGCAAUAGUGUGAU 20  927

Table 15B provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X) and have a high level of orthogonality. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a N. meningitidis Cas9 moleculethat generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 15B 2nd Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G542X-331 + UCGUUGACCUCCACUCA 17  934 CFTR-G542X-332 +CCACUAGCCAUAAAACC 17  935 CFTR-G542X-333 + UGAAUGACAUUUACAGC 17 2155CFTR-G542X-334 − UAAAGCAAUAGUGUGAU 17  932 CFTR-G542X-335 −AGGAAGAUGUGCCUUUCAAA 20  928 CFTR-G542X-336 + UGCUCGUUGACCUCCACUCA 20 929 CFTR-G542X-337 + AAUGUAAUCAUAUAUCACAC 20 2156 CFTR-G542X-338 +AACCCACUAGCCAUAAAACC 20  930 CFTR-G542X-339 + ACAUGAAUGACAUUUACAGC 202157

Table 15C provides exemplary targeting domains for correcting a mutation(e.g., G542X) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G542X). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha N. meningitidis Cas9 molecule that generates a double stranded break(Cas9 nuclease) or a single-stranded break (Cas9 nickase).

TABLE 15C 4th Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G542X-340 − AAGAUGUGCCUUUCAAA 17  933 CFTR-G542X-341 −AAUUACAGACAUUUCUC 17 2158 CFTR-G542X-342 − AAAAAUUACAGACAUUUCUC 20 2159

Table 16A provides exemplary targeting domains for correcting a mutation(e.g., G55D) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G551D), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 16A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G551D-1 − GCUUUAUAUUCUGUUUC 17 466 CFTR-G551D-2 −GGUGGAAUCACACUGAG 17 456 CFTR-G551D-3 − GUUCAAAAUUUCAACUG 17 464CFTR-G551D-4 − GGUGAAUAACUAAUUAU 17 465 CFTR-G551D-5 − GGGGUUUUAUGGCUAGU17 458 CFTR-G551D-6 − GAGCAAGAAUUUCUUUAGCA 20 462 CFTR-G551D-7 −GACAAUAUAGUUCUUGGAGA 20 460 CFTR-G551D-8 − GAAGGUGGAAUCACACUGAG 20 461CFTR-G551D-9 − GAGAAAGACAAUAUAGUUCU 20 453

Table 16B provides exemplary targeting domains for correcting a mutation(e.g., G551D) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G55D) and have a high level of orthogonality. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. pyogenes Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 16B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G551D-10 + CUCAAUCUGAAUUUGAA 17 496 CFTR-G551D-11 −CAAGAAUUUCUUUAGCA 17 491 CFTR-G551D-12 − AAUAUAGUUCUUGGAGA 17 489CFTR-G551D-13 − UAUAUGAUUACAUUAGA 17 485 CFTR-G551D-14 −AAAAUCCUGGGGUUUUA 17 493 CFTR-G551D-15 + ACUAGCCAUAAAACCCC 17 459CFTR-G551D-16 − UGGGGUUUUAUGGCUAG 17 494 CFTR-G551D-17 −AUAGUUCUUGGAGAAGG 17 490 CFTR-G551D-18 − AAAGACAAUAUAGUUCU 17 488CFTR-G551D-19 + AUGCUCAAUCUGAAUUUGAA 20 484 CFTR-G551D-20 −UGAUAUAUGAUUACAUUAGA 20 471 CFTR-G551D-21 + CCCACUAGCCAUAAAACCCC 20 455CFTR-G551D-22 − UUCUGGAAUUGAAAAAAUCC 20 477 CFTR-G551D-23 −AAUAUAGUUCUUGGAGAAGG 20 474 CFTR-G551D-24 − CUGGAAUUGAAAAAAUCCUG 20 479CFTR-G551D-25 − CAAGGUGAAUAACUAAUUAU 20 475 CFTR-G551D-26 −CCUGGGGUUUUAUGGCUAGU 20 481

Table 16C provides exemplary targeting domains for correcting a mutation(e.g., G551D) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G551D) and start with a 5′G. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. pyogenes Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 16C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G551D-27 − GAAUUGAAAAAAUCCUG 17 468 CFTR-G551D-28 +GUCUUUCUCUGCAAACU 17 469 CFTR-G551D-29 − GGAAUUGAAAAAAUCCU 17 467CFTR-G551D-30 − GAAAAAAUCCUGGGGUUUUA 20 463

Table 16D provides exemplary targeting domains for correcting a mutation(e.g., G551D) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G551D). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 16D 4th Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G551D-31 − UUAAGAACUAUAAAUAA 17 495 CFTR-G551D-32 −UGGAAUUGAAAAAAUCC 17 492 CFTR-G551D-33 − UUUCUAUUUUUGGUAAU 17 487CFTR-G551D-34 − CUCUAAUUUUCUAUUUU 17 486 CFTR-G551D-35 −CAUUUAAGAACUAUAAAUAA 20 482 CFTR-G551D-36 − AUUGCUUUAUAUUCUGUUUC 20 476CFTR-G551D-37 − UCCUGGGGUUUUAUGGCUAG 20 480 CFTR-G551D-38 −AAUGUUCAAAAUUUCAACUG 20 470 CFTR-G551D-39 − AAUUUUCUAUUUUUGGUAAU 20 473CFTR-G551D-40 + AUUGUCUUUCUCUGCAAACU 20 483 CFTR-G551D-41 −UCUGGAAUUGAAAAAAUCCU 20 478 CFTR-G551D-42 − ACUCUCUAAUUUUCUAUUUU 20 472

Table 17A provides exemplary targeting domains for correcting a mutation(e.g., G55D) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G551D), have a high level of orthogonality, start with a 5′G, andPAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 17A 1st Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G551D-43 + GAUUUUUUCAAUUCCAGAAA 20  766 CFTR-G551D-44 +GGAUUUUUUCAAUUCCAGAAA 21 1898 CFTR-G551D-45 + GUCACUUUUAGUAUGCUCAAU 211899 CFTR-G551D-46 + GAGUCACUUUUAGUAUGCUCAAU 23 1900 CFTR-G551D-47 −GGAGAAGGUGGAAUCACA 18 2160 CFTR-G551D-48 − GUUCUUGGAGAAGGUGGAAUCACA 242161 CFTR-G551D-49 − GCAAGAAUUUCUUUAGCAAG 20  746 CFTR-G551D-50 −GAGCAAGAAUUUCUUUAGCAAG 22 1902 CFTR-G551D-51 − GACAAUAUAGUUCUUGGAGAAGG23 2162 CFTR-G551D-52 − GUUUUAUGGCUAGUGGGUU 19 1903 CFTR-G551D-53 −GGUUUUAUGGCUAGUGGGUU 20  751 CFTR-G551D-54 − GGGUUUUAUGGCUAGUGGGUU 211904 CFTR-G551D-55 − GGGGUUUUAUGGCUAGUGGGUU 22 1905

Table 17B provides exemplary targeting domains for correcting a mutation(e.g., G551D) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G55AD), have a high level of orthogonality and PAM is NNGRRT. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 17B 2nd Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G551D-56 + UUUUUUCAAUUCCAGAAA 18 1906 CFTR-G551D-57 +AUUUUUUCAAUUCCAGAAA 19 1907 CFTR-G551D-58 + AGGAUUUUUUCAAUUCCAGAAA 221908 CFTR-G551D-59 + CAGGAUUUUUUCAAUUCCAGAAA 23 1909 CFTR-G551D-60 +CCAGGAUUUUUUCAAUUCCAGAAA 24 1910 CFTR-G551D-61 + UGUCUGUAAUUUUUUUAC 181911 CFTR-G551D-62 + AUGUCUGUAAUUUUUUUAC 19 1912 CFTR-G551D-63 +AAUGUCUGUAAUUUUUUUAC 20  763 CFTR-G551D-64 + CCACUAGCCAUAAAACCC 18 1913CFTR-G551D-65 + CCCACUAGCCAUAAAACCC 19 1914 CFTR-G551D-66 +ACCCACUAGCCAUAAAACCC 20 1915 CFTR-G551D-67 + AACCCACUAGCCAUAAAACCC 211916 CFTR-G551D-68 + UAACCCACUAGCCAUAAAACCC 22 1917 CFTR-G551D-69 +UUAACCCACUAGCCAUAAAACCC 23 1918 CFTR-G551D-70 + CUUAACCCACUAGCCAUAAAACCC24 1919 CFTR-G551D-71 + ACUUUUAGUAUGCUCAAU 18 1920 CFTR-G551D-72 +CACUUUUAGUAUGCUCAAU 19 1921 CFTR-G551D-73 + UCACUUUUAGUAUGCUCAAU 20  756CFTR-G551D-74 + AGUCACUUUUAGUAUGCUCAAU 22 1922 CFTR-G551D-75 +AGAGUCACUUUUAGUAUGCUCAAU 24 1923 CFTR-G551D-76 − UGGAGAAGGUGGAAUCACA 192163 CFTR-G551D-77 − UUGGAGAAGGUGGAAUCACA 20  742 CFTR-G551D-78 −CUUGGAGAAGGUGGAAUCACA 21 2164 CFTR-G551D-79 − UCUUGGAGAAGGUGGAAUCACA 222165 CFTR-G551D-80 − UUCUUGGAGAAGGUGGAAUCACA 23 2166 CFTR-G551D-81 −CCUGGGGUUUUAUGGCUA 18 1924 CFTR-G551D-82 − UCCUGGGGUUUUAUGGCUA 19 1925CFTR-G551D-83 − AUCCUGGGGUUUUAUGGCUA 20  750 CFTR-G551D-84 −AAUCCUGGGGUUUUAUGGCUA 21 1926 CFTR-G551D-85 − AAAUCCUGGGGUUUUAUGGCUA 221927 CFTR-G551D-86 − AAAAUCCUGGGGUUUUAUGGCUA 23 1928 CFTR-G551D-87 −AAAAAUCCUGGGGUUUUAUGGCUA 24 1929 CFTR-G551D-88 − UGCUUUAUAUUCUGUUUC 181931 CFTR-G551D-89 − UUGCUUUAUAUUCUGUUUC 19 1932 CFTR-G551D-36 −AUUGCUUUAUAUUCUGUUUC 20  476 CFTR-G551D-90 − UAUUGCUUUAUAUUCUGUUUC 211933 CFTR-G551D-91 − CUAUUGCUUUAUAUUCUGUUUC 22 1934 CFTR-G551D-92 −UCUAUUGCUUUAUAUUCUGUUUC 23 1935 CFTR-G551D-93 − CUCUAUUGCUUUAUAUUCUGUUUC24 1936 CFTR-G551D-94 − AAGAAUUUCUUUAGCAAG 18 1937 CFTR-G551D-95 −CAAGAAUUUCUUUAGCAAG 19 1938 CFTR-G551D-96 − AGCAAGAAUUUCUUUAGCAAG 211939 CFTR-G551D-97 − CGAGCAAGAAUUUCUUUAGCAAG 23 1940 CFTR-G551D-98 −ACGAGCAAGAAUUUCUUUAGCAAG 24 1941 CFTR-G551D-99 − UAUAGUUCUUGGAGAAGG 182167 CFTR-G551D-100 − AUAUAGUUCUUGGAGAAGG 19 2168 CFTR-G551D-23 −AAUAUAGUUCUUGGAGAAGG 20  474 CFTR-G551D-101 − CAAUAUAGUUCUUGGAGAAGG 212169 CFTR-G551D-102 − ACAAUAUAGUUCUUGGAGAAGG 22 2170 CFTR-G551D-103 −AGACAAUAUAGUUCUUGGAGAAGG 24 2171 CFTR-G551D-104 − UUUUAUGGCUAGUGGGUU 181942 CFTR-G551D-105 − UGGGGUUUUAUGGCUAGUGGGUU 23 1943 CFTR-G551D-106 −CUGGGGUUUUAUGGCUAGUGGGUU 24 1944

Table 17C provides exemplary targeting domains for correcting a mutation(e.g., G551D) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G551D), start with a 5′G and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 17C 3rd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G551D-107 + GAAAUGUCUGUAAUUUUUUUAC 22 1945CFTR-G551D-108 + GAGAAAUGUCUGUAAUUUUUUUAC 24 1946 CFTR-G551D-109 −GUUUCUGGAAUUGAAAAAAUCC 22 1948 CFTR-G551D-110 − GAGUGGAGAUCAACGAGC 182172

Table 17D provides exemplary targeting domains for correcting a mutation(e.g., G55D) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G555D), and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 17D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G551D-111 + ACCAAAAAUAGAAAAUUA 18 1950CFTR-G551D-112 + UACCAAAAAUAGAAAAUUA 19 1951 CFTR-G551D-113 +UUACCAAAAAUAGAAAAUUA 20 757 CFTR-G551D-114 + AUUACCAAAAAUAGAAAAUUA 211952 CFTR-G551D-115 + UAUUACCAAAAAUAGAAAAUUA 22 1953 CFTR-G551D-116 +CUAUUACCAAAAAUAGAAAAUUA 23 1954 CFTR-G551D-117 +CCUAUUACCAAAAAUAGAAAAUUA 24 1955 CFTR-G551D-118 + AAAUGUCUGUAAUUUUUUUAC21 1956 CFTR-G551D-119 + AGAAAUGUCUGUAAUUUUUUUAC 23 1957 CFTR-G551D-120− CUGGAAUUGAAAAAAUCC 18 1964 CFTR-G551D-121 − UCUGGAAUUGAAAAAAUCC 191965 CFTR-G551D-22 − UUCUGGAAUUGAAAAAAUCC 20 477 CFTR-G551D-122 −UUUCUGGAAUUGAAAAAAUCC 21 1966 CFTR-G551D-123 − UGUUUCUGGAAUUGAAAAAAUCC23 1967 CFTR-G551D-124 − CUGUUUCUGGAAUUGAAAAAAUCC 24 1968 CFTR-G551D-125− UGAGUGGAGAUCAACGAGC 19 2173 CFTR-G551D-126 − CUGAGUGGAGAUCAACGAGC 202174 CFTR-G551D-127 − ACUGAGUGGAGAUCAACGAGC 21 2175 CFTR-G551D-128 −CACUGAGUGGAGAUCAACGAGC 22 2176 CFTR-G551D-129 − ACACUGAGUGGAGAUCAACGAGC23 2177 CFTR-G551D-130 − CACACUGAGUGGAGAUCAACGAGC 24 2178

Table 17E provides exemplary targeting domains for correcting a mutation(e.g., G551D) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G551D), and PAM is NNGRRV. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 17E 5th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G551D-131 + AUGUCCUAUUACCAAAAA 18 1978CFTR-G551D-132 + GAUGUCCUAUUACCAAAAA 19 1979 CFTR-G551D-133 +AGAUGUCCUAUUACCAAAAA 20 759 CFTR-G551D-134 + GAGAUGUCCUAUUACCAAAAA 211980 CFTR-G551D-135 + GGAGAUGUCCUAUUACCAAAAA 22 1981 CFTR-G551D-136 +UGGAGAUGUCCUAUUACCAAAAA 23 1982 CFTR-G551D-137 +UUGGAGAUGUCCUAUUACCAAAAA 24 1983 CFTR-G551D-138 + AAACAGAAUAUAAAGCAA 181984 CFTR-G551D-139 + GAAACAGAAUAUAAAGCAA 19 1985 CFTR-G551D-140 +AGAAACAGAAUAUAAAGCAA 20 765 CFTR-G551D-141 + CAGAAACAGAAUAUAAAGCAA 211986 CFTR-G551D-142 + CCAGAAACAGAAUAUAAAGCAA 22 1987 CFTR-G551D-143 +UCCAGAAACAGAAUAUAAAGCAA 23 1988 CFTR-G551D-144 +UUCCAGAAACAGAAUAUAAAGCAA 24 1989 CFTR-G551D-145 + ACAGAAUAUAAAGCAAUA 181997 CFTR-G551D-146 + AACAGAAUAUAAAGCAAUA 19 1998 CFTR-G551D-147 +AAACAGAAUAUAAAGCAAUA 20 764 CFTR-G551D-148 + GAAACAGAAUAUAAAGCAAUA 211999 CFTR-G551D-149 + AGAAACAGAAUAUAAAGCAAUA 22 2000 CFTR-G551D-150 +CAGAAACAGAAUAUAAAGCAAUA 23 2001 CFTR-G551D-151 +CCAGAAACAGAAUAUAAAGCAAUA 24 2002 CFTR-G551D-152 + UAGUUAUUCACCUUGCUA 182003 CFTR-G551D-153 + UUAGUUAUUCACCUUGCUA 19 2004 CFTR-G551D-154 +AUUAGUUAUUCACCUUGCUA 20 762 CFTR-G551D-155 + AAUUAGUUAUUCACCUUGCUA 212005 CFTR-G551D-156 + UAAUUAGUUAUUCACCUUGCUA 22 2006 CFTR-G551D-157 +AUAAUUAGUUAUUCACCUUGCUA 23 2007 CFTR-G551D-158 +AAUAAUUAGUUAUUCACCUUGCUA 24 2008 CFTR-G551D-159 + UUGUCUUUCUCUGCAAAC 182009 CFTR-G551D-160 + AUUGUCUUUCUCUGCAAAC 19 2010 CFTR-G551D-161 +UAUUGUCUUUCUCUGCAAAC 20 760 CFTR-G551D-162 + AUAUUGUCUUUCUCUGCAAAC 212011 CFTR-G551D-163 + UAUAUUGUCUUUCUCUGCAAAC 22 2012 CFTR-G551D-164 +CUAUAUUGUCUUUCUCUGCAAAC 23 2013 CFTR-G551D-165 +ACUAUAUUGUCUUUCUCUGCAAAC 24 2014 CFTR-G551D-166 + UGUGAUUCCACCUUCUCC 182179 CFTR-G551D-167 + GUGUGAUUCCACCUUCUCC 19 2180 CFTR-G551D-168 +AGUGUGAUUCCACCUUCUCC 20 761 CFTR-G551D-169 + CAGUGUGAUUCCACCUUCUCC 212181 CFTR-G551D-170 + UCAGUGUGAUUCCACCUUCUCC 22 2182 CFTR-G551D-171 +CUCAGUGUGAUUCCACCUUCUCC 23 2183 CFTR-G551D-172 +ACUCAGUGUGAUUCCACCUUCUCC 24 2184 CFTR-G551D-173 + CCAGGAUUUUUUCAAUUC 182015 CFTR-G551D-174 + CCCAGGAUUUUUUCAAUUC 19 2016 CFTR-G551D-175 +CCCCAGGAUUUUUUCAAUUC 20 767 CFTR-G551D-176 + ACCCCAGGAUUUUUUCAAUUC 212017 CFTR-G551D-177 + AACCCCAGGAUUUUUUCAAUUC 22 2018 CFTR-G551D-178 +AAACCCCAGGAUUUUUUCAAUUC 23 2019 CFTR-G551D-179 +AAAACCCCAGGAUUUUUUCAAUUC 24 2020 CFTR-G551D-180 + CUAUUGCUUUAACCACAG 182021 CFTR-G551D-181 + ACUAUUGCUUUAACCACAG 19 2022 CFTR-G551D-182 +CACUAUUGCUUUAACCACAG 20 754 CFTR-G551D-183 + ACACUAUUGCUUUAACCACAG 212023 CFTR-G551D-184 + CACACUAUUGCUUUAACCACAG 22 2024 CFTR-G551D-185 +UCACACUAUUGCUUUAACCACAG 23 2025 CFTR-G551D-186 +AUCACACUAUUGCUUUAACCACAG 24 2026 CFTR-G551D-187 + UUACCAAAAAUAGAAAAU 182027 CFTR-G551D-188 + AUUACCAAAAAUAGAAAAU 19 2028 CFTR-G551D-189 +UAUUACCAAAAAUAGAAAAU 20 758 CFTR-G551D-190 + CUAUUACCAAAAAUAGAAAAU 212029 CFTR-G551D-191 + CCUAUUACCAAAAAUAGAAAAU 22 2030 CFTR-G551D-192 +UCCUAUUACCAAAAAUAGAAAAU 23 2031 CFTR-G551D-193 +GUCCUAUUACCAAAAAUAGAAAAU 24 2032 CFTR-G551D-194 + AGUAUGCUCAAUCUGAAU 182033 CFTR-G551D-195 + UAGUAUGCUCAAUCUGAAU 19 2034 CFTR-G551D-196 +UUAGUAUGCUCAAUCUGAAU 20 755 CFTR-G551D-197 + UUUAGUAUGCUCAAUCUGAAU 212035 CFTR-G551D-198 + UUUUAGUAUGCUCAAUCUGAAU 22 2036 CFTR-G551D-199 +CUUUUAGUAUGCUCAAUCUGAAU 23 2037 CFTR-G551D-200 +ACUUUUAGUAUGCUCAAUCUGAAU 24 2038 CFTR-G551D-201 + UGUCUUUCUCUGCAAACU 182039 CFTR-G551D-202 + UUGUCUUUCUCUGCAAACU 19 2040 CFTR-G551D-40 +AUUGUCUUUCUCUGCAAACU 20 483 CFTR-G551D-203 + UAUUGUCUUUCUCUGCAAACU 212041 CFTR-G551D-204 + AUAUUGUCUUUCUCUGCAAACU 22 2042 CFTR-G551D-205 +UAUAUUGUCUUUCUCUGCAAACU 23 2043 CFTR-G551D-206 +CUAUAUUGUCUUUCUCUGCAAACU 24 2044 CFTR-G551D-207 + UUAACCACAGUUGAAAUU 182045 CFTR-G551D-208 + UUUAACCACAGUUGAAAUU 19 2046 CFTR-G551D-209 +CUUUAACCACAGUUGAAAUU 20 753 CFTR-G551D-210 + GCUUUAACCACAGUUGAAAUU 212047 CFTR-G551D-211 + UGCUUUAACCACAGUUGAAAUU 22 2048 CFTR-G551D-212 +UUGCUUUAACCACAGUUGAAAUU 23 2049 CFTR-G551D-213 +AUUGCUUUAACCACAGUUGAAAUU 24 2050 CFTR-G551D-214 − UAUAUUCUGUUUCUGGAA 182051 CFTR-G551D-215 − UUAUAUUCUGUUUCUGGAA 19 2052 CFTR-G551D-216 −UUUAUAUUCUGUUUCUGGAA 20 748 CFTR-G551D-217 − CUUUAUAUUCUGUUUCUGGAA 212053 CFTR-G551D-218 − GCUUUAUAUUCUGUUUCUGGAA 22 2054 CFTR-G551D-219 −UGCUUUAUAUUCUGUUUCUGGAA 23 2055 CFTR-G551D-220 −UUGCUUUAUAUUCUGUUUCUGGAA 24 2056 CFTR-G551D-221 − AUUUUCUAUUUUUGGUAA 182059 CFTR-G551D-222 − AAUUUUCUAUUUUUGGUAA 19 2060 CFTR-G551D-223 −UAAUUUUCUAUUUUUGGUAA 20 736 CFTR-G551D-224 − CUAAUUUUCUAUUUUUGGUAA 212061 CFTR-G551D-225 − UCUAAUUUUCUAUUUUUGGUAA 22 2062 CFTR-G551D-226 −CUCUAAUUUUCUAUUUUUGGUAA 23 2063 CFTR-G551D-227 −UCUCUAAUUUUCUAUUUUUGGUAA 24 2064 CFTR-G551D-228 − GACAUCUCCAAGUUUGCA 182065 CFTR-G551D-229 − GGACAUCUCCAAGUUUGCA 19 2066 CFTR-G551D-230 −AGGACAUCUCCAAGUUUGCA 20 738 CFTR-G551D-231 − UAGGACAUCUCCAAGUUUGCA 212067 CFTR-G551D-232 − AUAGGACAUCUCCAAGUUUGCA 22 2068 CFTR-G551D-233 −AAUAGGACAUCUCCAAGUUUGCA 23 2069 CFTR-G551D-234 −UAAUAGGACAUCUCCAAGUUUGCA 24 2070 CFTR-G551D-235 − CACACUGAGUGGAGAUCA 182185 CFTR-G551D-236 − UCACACUGAGUGGAGAUCA 19 2186 CFTR-G551D-237 −AUCACACUGAGUGGAGAUCA 20 2187 CFTR-G551D-238 − AAUCACACUGAGUGGAGAUCA 212188 CFTR-G551D-239 − GAAUCACACUGAGUGGAGAUCA 22 2189 CFTR-G551D-240 −GGAAUCACACUGAGUGGAGAUCA 23 2190 CFTR-G551D-241 −UGGAAUCACACUGAGUGGAGAUCA 24 2191 CFTR-G551D-242 − GUGCCUUUCAAAUUCAGA 182077 CFTR-G551D-243 − UGUGCCUUUCAAAUUCAGA 19 2078 CFTR-G551D-244 −AUGUGCCUUUCAAAUUCAGA 20 735 CFTR-G551D-245 − GAUGUGCCUUUCAAAUUCAGA 212079 CFTR-G551D-246 − AGAUGUGCCUUUCAAAUUCAGA 22 2080 CFTR-G551D-247 −AAGAUGUGCCUUUCAAAUUCAGA 23 2081 CFTR-G551D-248 −GAAGAUGUGCCUUUCAAAUUCAGA 24 2082 CFTR-G551D-249 − AUAUAUGAUUACAUUAGA 182083 CFTR-G551D-250 − GAUAUAUGAUUACAUUAGA 19 2084 CFTR-G551D-20 −UGAUAUAUGAUUACAUUAGA 20 471 CFTR-G551D-251 − GUGAUAUAUGAUUACAUUAGA 212085 CFTR-G551D-252 − UGUGAUAUAUGAUUACAUUAGA 22 2086 CFTR-G551D-253 −GUGUGAUAUAUGAUUACAUUAGA 23 2087 CFTR-G551D-254 −AGUGUGAUAUAUGAUUACAUUAGA 24 2088 CFTR-G551D-255 − AAGGUGGAAUCACACUGA 182089 CFTR-G551D-256 − GAAGGUGGAAUCACACUGA 19 2090 CFTR-G551D-257 −AGAAGGUGGAAUCACACUGA 20 743 CFTR-G551D-258 − GAGAAGGUGGAAUCACACUGA 212091 CFTR-G551D-259 − GGAGAAGGUGGAAUCACACUGA 22 2192 CFTR-G551D-260 −UGGAGAAGGUGGAAUCACACUGA 23 2193 CFTR-G551D-261 −UUGGAGAAGGUGGAAUCACACUGA 24 2194 CFTR-G551D-262 − UCUGGAAUUGAAAAAAUC 182098 CFTR-G551D-263 − UUCUGGAAUUGAAAAAAUC 19 2099 CFTR-G551D-264 −UUUCUGGAAUUGAAAAAAUC 20 749 CFTR-G551D-265 − GUUUCUGGAAUUGAAAAAAUC 212100 CFTR-G551D-266 − UGUUUCUGGAAUUGAAAAAAUC 22 2101 CFTR-G551D-267 −CUGUUUCUGGAAUUGAAAAAAUC 23 2102 CFTR-G551D-268 −UCUGUUUCUGGAAUUGAAAAAAUC 24 2103 CFTR-G551D-269 − AGAAAGACAAUAUAGUUC 182195 CFTR-G551D-270 − GAGAAAGACAAUAUAGUUC 19 2196 CFTR-G551D-271 −AGAGAAAGACAAUAUAGUUC 20 739 CFTR-G551D-272 − CAGAGAAAGACAAUAUAGUUC 212197 CFTR-G551D-273 − GCAGAGAAAGACAAUAUAGUUC 22 2198 CFTR-G551D-274 −UGCAGAGAAAGACAAUAUAGUUC 23 2199 CFTR-G551D-275 −UUGCAGAGAAAGACAAUAUAGUUC 24 2200 CFTR-G551D-276 − AUAUAGUUCUUGGAGAAG 182201 CFTR-G551D-277 − AAUAUAGUUCUUGGAGAAG 19 2202 CFTR-G551D-278 −CAAUAUAGUUCUUGGAGAAG 20 741 CFTR-G551D-279 − ACAAUAUAGUUCUUGGAGAAG 212203 CFTR-G551D-280 − GACAAUAUAGUUCUUGGAGAAG 22 2204 CFTR-G551D-281 −AGACAAUAUAGUUCUUGGAGAAG 23 2205 CFTR-G551D-282 −AAGACAAUAUAGUUCUUGGAGAAG 24 2206 CFTR-G551D-283 − AGGUGGAAUCACACUGAG 182111 CFTR-G551D-284 − AAGGUGGAAUCACACUGAG 19 2112 CFTR-G551D-8 −GAAGGUGGAAUCACACUGAG 20 461 CFTR-G551D-285 − AGAAGGUGGAAUCACACUGAG 212113 CFTR-G551D-286 − GAGAAGGUGGAAUCACACUGAG 22 2114 CFTR-G551D-287 −GGAGAAGGUGGAAUCACACUGAG 23 2207 CFTR-G551D-288 −UGGAGAAGGUGGAAUCACACUGAG 24 2208 CFTR-G551D-289 − GAUAUAUGAUUACAUUAG 182117 CFTR-G551D-290 − UGAUAUAUGAUUACAUUAG 19 2118 CFTR-G551D-291 −GUGAUAUAUGAUUACAUUAG 20 734 CFTR-G551D-292 − UGUGAUAUAUGAUUACAUUAG 212119 CFTR-G551D-293 − GUGUGAUAUAUGAUUACAUUAG 22 2120 CFTR-G551D-294 −AGUGUGAUAUAUGAUUACAUUAG 23 2121 CFTR-G551D-295 −UAGUGUGAUAUAUGAUUACAUUAG 24 2122 CFTR-G551D-296 − AAGACAAUAUAGUUCUUG 182209 CFTR-G551D-297 − AAAGACAAUAUAGUUCUUG 19 2210 CFTR-G551D-298 −GAAAGACAAUAUAGUUCUUG 20 740 CFTR-G551D-299 − AGAAAGACAAUAUAGUUCUUG 212211 CFTR-G551D-300 − GAGAAAGACAAUAUAGUUCUUG 22 2212 CFTR-G551D-301 −AGAGAAAGACAAUAUAGUUCUUG 23 2213 CFTR-G551D-302 −CAGAGAAAGACAAUAUAGUUCUUG 24 2214 CFTR-G551D-303 − AGGACAUCUCCAAGUUUG 182123 CFTR-G551D-304 − UAGGACAUCUCCAAGUUUG 19 2124 CFTR-G551D-305 −AUAGGACAUCUCCAAGUUUG 20 737 CFTR-G551D-306 − AAUAGGACAUCUCCAAGUUUG 212125 CFTR-G551D-307 − UAAUAGGACAUCUCCAAGUUUG 22 2126 CFTR-G551D-308 −GUAAUAGGACAUCUCCAAGUUUG 23 2127 CFTR-G551D-309 −GGUAAUAGGACAUCUCCAAGUUUG 24 2128 CFTR-G551D-310 − UGUGAUAUAUGAUUACAU 182129 CFTR-G551D-311 − GUGUGAUAUAUGAUUACAU 19 2130 CFTR-G551D-312 −AGUGUGAUAUAUGAUUACAU 20 733 CFTR-G551D-313 − UAGUGUGAUAUAUGAUUACAU 212131 CFTR-G551D-314 − AUAGUGUGAUAUAUGAUUACAU 22 2132 CFTR-G551D-315 −AAUAGUGUGAUAUAUGAUUACAU 23 2133 CFTR-G551D-316 −CAAUAGUGUGAUAUAUGAUUACAU 24 2134 CFTR-G551D-317 − GAAAGACAAUAUAGUUCU 182135 CFTR-G551D-318 − AGAAAGACAAUAUAGUUCU 19 2136 CFTR-G551D-9 −GAGAAAGACAAUAUAGUUCU 20 453 CFTR-G551D-319 − AGAGAAAGACAAUAUAGUUCU 212137 CFTR-G551D-320 − CAGAGAAAGACAAUAUAGUUCU 22 2138 CFTR-G551D-321 −GCAGAGAAAGACAAUAUAGUUCU 23 2139 CFTR-G551D-322 −UGCAGAGAAAGACAAUAUAGUUCU 24 2140 CFTR-G551D-323 − GGGUUAAGAAUCACAUUU 182215 CFTR-G551D-324 − UGGGUUAAGAAUCACAUUU 19 2216 CFTR-G551D-325 −GUGGGUUAAGAAUCACAUUU 20 752 CFTR-G551D-326 − AGUGGGUUAAGAAUCACAUUU 212217 CFTR-G551D-327 − UAGUGGGUUAAGAAUCACAUUU 22 2218 CFTR-G551D-328 −CUAGUGGGUUAAGAAUCACAUUU 23 2219 CFTR-G551D-329 −GCUAGUGGGUUAAGAAUCACAUUU 24 2220 CFTR-G551D-330 − UUGCUUUAUAUUCUGUUU 182148 CFTR-G551D-331 − AUUGCUUUAUAUUCUGUUU 19 2149 CFTR-G551D-332 −UAUUGCUUUAUAUUCUGUUU 20 747 CFTR-G551D-333 − CUAUUGCUUUAUAUUCUGUUU 212150 CFTR-G551D-334 − UCUAUUGCUUUAUAUUCUGUUU 22 2151 CFTR-G551D-335 −CUCUAUUGCUUUAUAUUCUGUUU 23 2152 CFTR-G551D-336 −UCUCUAUUGCUUUAUAUUCUGUUU 24 2153

Table 18A provides exemplary targeting domains for correcting a mutation(e.g., G551D) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G551D), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 18A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-G551D-337 + GUAAUCAUAUAUCACAC 17 2154 CFTR-G551D-338 −GGUUAAAGCAAUAGUGU 20 927 GAU

Table 18B provides exemplary targeting domains for correcting a mutation(e.g., G551D) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G551D) and have a high level of orthogonality. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a N. meningitidis Cas9 moleculethat generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 18B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G551D-339 + CCACUAGCCAUAAAACC 17 935 CFTR-G551D-340 +UGAAUGACAUUUACAGC 17 2155 CFTR-G551D-341 − UAAAGCAAUAGUGUGAU 17 932CFTR-G551D-342 − AGGAAGAUGUGCCUUUCAAA 20 928 CFTR-G551D-343 +AAUGUAAUCAUAUAUCACAC 20 2156 CFTR-G551D-344 + AACCCACUAGCCAUAAAACC 20930 CFTR-G551D-345 + ACAUGAAUGACAUUUACAGC 20 2157

Table 18C provides exemplary targeting domains for correcting a mutation(e.g., G55D) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., G55D). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha N. meningitidis Cas9 molecule that generates a double stranded break(Cas9 nuclease) or a single-stranded break (Cas9 nickase).

TABLE 18C 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-G551D-346 − AAGAUGUGCCUUUCAAA 17 933 CFTR-G551D-347 +UUAUUUAUAGUUCUUAA 17 936 CFTR-G551D-348 + UCGUUGAUCUCCACUCA 17 2221CFTR-G551D-349 − AAUUACAGACAUUUCUC 17 2158 CFTR-G551D-350 +CCAUUAUUUAUAGUUCUUAA 20 931 CFTR-G551D-351 + UGCUCGUUGAUCUCCACUCA 202222 CFTR-G551D-352 − AAAAAUUACAGACAUUUCUC 20 2159

Table 19A provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 19A 1st Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-N1303K-1 − GGAGUGAUCAAGAAAUA 17 2223 CFTR-N1303K-2 −GAGUACCCUAACAUACC 17 2224 CFTR-N1303K-3 − GUGUGUGCACAACUUUAA 20 2225 AACFTR-N1303K-4 − GGAAAGUUGCAGAUGAGG 20 2226 UA CFTR-N1303K-5 −GAACUUGAUGGUAAGUAC 20 2227 AU CFTR-N1303K-6 + GCUAUAUCAGCCAUUUGU 20 2228GU

Table 19B provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K) and have a high level of orthogonality. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 19B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-N1303K-7 − UGUGCACAACUUUAAAA 17 2229 CFTR-N1303K-8 −ACUUGAUGGUAAGUACA 17 2230 CFTR-N1303K-9 − AAUUUGAGAGAACUUGA 17 2231CFTR-N1303K-10 + UCACUCCACUGUUCAUA 17 2232 CFTR-N1303K-11 −AAGUUGCAGAUGAGGUA 17 2233 CFTR-N1303K-12 − UGGAUCCCUAUGAACAG 17 2234CFTR-N1303K-13 − AUGGAAAGUUGCAGAUG 17 2235 CFTR-N1303K-14 −CUUGAUGGUAAGUACAU 17 2236 CFTR-N1303K-15 + AUCACUCCACUGUUCAU 17 2237CFTR-N1303K-16 + AUAUCAGCCAUUUGUGU 17 2238 CFTR-N1303K-17 −AGAACUUGAUGGUAAGUACA 20 2239 CFTR-N1303K-18 − AGUGGAGUGAUCAAGAAAUA 202240 CFTR-N1303K-19 + UGAUCACUCCACUGUUCAUA 20 2241 CFTR-N1303K-20 −AAUAUGGAAAGUUGCAGAUG 20 2242 CFTR-N1303K-21 + UUGAUCACUCCACUGUUCAU 202243

Table 19C provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K) and start with a 5′G. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable can be used with a S. pyogenes Cas9 molecule that generates adouble stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 19C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-N1303K-22 − GUAACUCAUACCAACACA 20 2244 AA

Table 19D provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 19D 4th Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-N1303K-23 − ACUCAUACCAACACAAA 17 2245 CFTR-N1303K-24− CUGAAAUGAUUUUGAAA 17 2246 CFTR-N1303K-25 − ACUGAAAUGAUUUUGAA 17 2247CFTR-N1303K-26 − AUUUUACAAUACAAUAA 17 2248 CFTR-N1303K-27 −UAUUUUACAAUACAAUA 17 2249 CFTR-N1303K-28 + UUGCUCCAGGUAUGUUA 17 2250CFTR-N1303K-29 − AAAGUAUUUAUUUUUUC 17 2251 CFTR-N1303K-30 −UGAAAUGAUUUUGAAAG 17 2252 CFTR-N1303K-31 − AACAUUUAGAAAAAAGU 17 2253CFTR-N1303K-32 − UAACUGAAAUGAUUUUGAAA 20 2254 CFTR-N1303K-33 −CUAACUGAAAUGAUUUUGAA 20 2255 CFTR-N1303K-34 − AAUAUUUUACAAUACAAUAA 202256 CFTR-N1303K-35 − UAAAAUUUGAGAGAACUUGA 20 2257 CFTR-N1303K-36 −AAAUAUUUUACAAUACAAUA 20 2258 CFTR-N1303K-37 − AUGGAGUACCCUAACAUACC 202259 CFTR-N1303K-38 − UAGAAAGUAUUUAUUUUUUC 20 2260 CFTR-N1303K-39 −AACUGAAAUGAUUUUGAAAG 20 2261 CFTR-N1303K-40 − AGUUGGAUCCCUAUGAACAG 202262 CFTR-N1303K-41 − UGGAACAUUUAGAAAAAAGU 20 2263

Table 20A provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K), have a high level of orthogonality, start with a 5′G,and PAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 20A 1st Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-N1303K-42 + GAUCACUCCACUGUUCAU 18 2264 CFTR-N1303K-43− GUGUGCACAACUUUAAAA 18 2265 CFTR-N1303K-3 − GUGUGUGCACAACUUUAAAA 202225 CFTR-N1303K-44 − GCUAACUGAAAUGAUUUUGAA 21 2266 CFTR-N1303K-45 −GCUGCUAACUGAAAUGAUUUUGAA 24 2267 CFTR-N1303K-46 − GAACUUGAUGGUAAGUAC 182268 CFTR-N1303K-47 − GAGAACUUGAUGGUAAGUAC 20 2269 CFTR-N1303K-48 −GAGAGAACUUGAUGGUAAGUAC 22 2270

Table 20B provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K), have a high level of orthogonality and PAM is NNGRRT. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 20B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-N1303K-49 + UGAUCACUCCACUGUUCAU 19 2271CFTR-N1303K-21 + UUGAUCACUCCACUGUUCAU 20 2243 CFTR-N1303K-50 +CUUGAUCACUCCACUGUUCAU 21 2272 CFTR-N1303K-51 + UCUUGAUCACUCCACUGUUCAU 222273 CFTR-N1303K-52 + UUCUUGAUCACUCCACUGUUCAU 23 2274 CFTR-N1303K-53 +UUUCUUGAUCACUCCACUGUUCAU 24 2275 CFTR-N1303K-54 − UGUGUGCACAACUUUAAAA 192276 CFTR-N1303K-55 − UGCUAACUGAAAUGAUUUUGAA 22 2277 CFTR-N1303K-56 −CUGCUAACUGAAAUGAUUUUGAA 23 2278 CFTR-N1303K-57 − AGAACUUGAUGGUAAGUAC 192279 CFTR-N1303K-58 − AGAGAACUUGAUGGUAAGUAC 21 2280 CFTR-N1303K-59 −UGAGAGAACUUGAUGGUAAGUAC 23 2281 CFTR-N1303K-60 −UUGAGAGAACUUGAUGGUAAGUAC 24 2282

Table 20C provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K), start with a 5′G and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 20C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-N1303K-61 + GCUAUAUCAGCCAUUUG 24 2283 UGUUGGUCFTR-N1303K-62 − GUAUGUGUGUGCACAACU 24 2284 UUAAAA CFTR-N1303K-63 −GGAACAUUUAGAAAAAAG 18 2285 CFTR-N1303K-64 − GUUGGAUCCCUAUGAAC 19 2286 AG

Table 20D provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K), and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 20D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-N1303K-65 + ACAUGCACACAAAGUGUG 18 2287CFTR-N1303K-66 + UACAUGCACACAAAGUGUG 19 2288 CFTR-N1303K-67 +AUACAUGCACACAAAGUGUG 20 2289 CFTR-N1303K-68 + CAUACAUGCACACAAAGUGUG 212290 CFTR-N1303K-69 + ACAUACAUGCACACAAAGUGUG 22 2291 CFTR-N1303K-70 +CACAUACAUGCACACAAAGUGUG 23 2292 CFTR-N1303K-71 +ACACAUACAUGCACACAAAGUGUG 24 2293 CFTR-N1303K-72 + AGAAAAGAAGAAGAAAGU 182294 CFTR-N1303K-73 + AAGAAAAGAAGAAGAAAGU 19 2295 CFTR-N1303K-74 +AAAGAAAAGAAGAAGAAAGU 20 2296 CFTR-N1303K-75 + AAAAGAAAAGAAGAAGAAAGU 212297 CFTR-N1303K-76 + AAAAAGAAAAGAAGAAGAAAGU 22 2298 CFTR-N1303K-77 +AAAAAAGAAAAGAAGAAGAAAGU 23 2299 CFTR-N1303K-78 +CAAAAAAGAAAAGAAGAAGAAAGU 24 2300 CFTR-N1303K-79 + UCAGCCAUUUGUGUUGGU 182301 CFTR-N1303K-80 + AUCAGCCAUUUGUGUUGGU 19 2302 CFTR-N1303K-81 +UAUCAGCCAUUUGUGUUGGU 20 2303 CFTR-N1303K-82 + AUAUCAGCCAUUUGUGUUGGU 212304 CFTR-N1303K-83 + UAUAUCAGCCAUUUGUGUUGGU 22 2305 CFTR-N1303K-84 +CUAUAUCAGCCAUUUGUGUUGGU 23 2306 CFTR-N1303K-85 − UGUGUGUGCACAACUUUAAAA21 2307 CFTR-N1303K-86 − AUGUGUGUGCACAACUUUAAAA 22 2308 CFTR-N1303K-87 −UAUGUGUGUGCACAACUUUAAAA 23 2309 CFTR-N1303K-88 − AACUGAAAUGAUUUUGAA 182310 CFTR-N1303K-89 − UAACUGAAAUGAUUUUGAA 19 2311 CFTR-N1303K-33 −CUAACUGAAAUGAUUUUGAA 20 2255 CFTR-N1303K-90 − UGGAACAUUUAGAAAAAAG 192312 CFTR-N1303K-91 − CUGGAACAUUUAGAAAAAAG 20 2313 CFTR-N1303K-92 −UCUGGAACAUUUAGAAAAAAG 21 2314 CFTR-N1303K-93 − UUCUGGAACAUUUAGAAAAAAG 222315 CFTR-N1303K-94 − UUUCUGGAACAUUUAGAAAAAAG 23 2316 CFTR-N1303K-95 −UUUUCUGGAACAUUUAGAAAAAAG 24 2317 CFTR-N1303K-96 − UUGGAUCCCUAUGAACAG 182318 CFTR-N1303K-40 − AGUUGGAUCCCUAUGAACAG 20 2262 CFTR-N1303K-97 −AAGUUGGAUCCCUAUGAACAG 21 2319 CFTR-N1303K-98 − AAAGUUGGAUCCCUAUGAACAG 222320 CFTR-N1303K-99 − AAAAGUUGGAUCCCUAUGAACAG 23 2321 CFTR-N1303K-100 −AAAAAGUUGGAUCCCUAUGAACAG 24 2322

Table 20E provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K), and PAM is NNGRRV. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 20E 5th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-N1303K-101 + AUACUUUCUAUAGCAAAA 18 2323CFTR-N1303K-102 + AAUACUUUCUAUAGCAAAA 19 2324 CFTR-N1303K-103 +AAAUACUUUCUAUAGCAAAA 20 2325 CFTR-N1303K-104 + UAAAUACUUUCUAUAGCAAAA 212326 CFTR-N1303K-105 + AUAAAUACUUUCUAUAGCAAAA 22 2327 CFTR-N1303K-106 +AAUAAAUACUUUCUAUAGCAAAA 23 2328 CFTR-N1303K-107 +AAAUAAAUACUUUCUAUAGCAAAA 24 2329 CFTR-N1303K-108 + UUCUAUAGCAAAAAAGAA 182330 CFTR-N1303K-109 + UUUCUAUAGCAAAAAAGAA 19 2331 CFTR-N1303K-110 +CUUUCUAUAGCAAAAAAGAA 20 2332 CFTR-N1303K-111 + ACUUUCUAUAGCAAAAAAGAA 212333 CFTR-N1303K-112 + UACUUUCUAUAGCAAAAAAGAA 22 2334 CFTR-N1303K-113 +AUACUUUCUAUAGCAAAAAAGAA 23 2335 CFTR-N1303K-114 +AAUACUUUCUAUAGCAAAAAAGAA 24 2336 CFTR-N1303K-115 + UGAUCACUCCACUGUUCA 182337 CFTR-N1303K-116 + UUGAUCACUCCACUGUUCA 19 2338 CFTR-N1303K-117 +CUUGAUCACUCCACUGUUCA 20 2339 CFTR-N1303K-118 + UCUUGAUCACUCCACUGUUCA 212340 CFTR-N1303K-119 + UUCUUGAUCACUCCACUGUUCA 22 2341 CFTR-N1303K-120 +UUUCUUGAUCACUCCACUGUUCA 23 2342 CFTR-N1303K-121 +AUUUCUUGAUCACUCCACUGUUCA 24 2343 CFTR-N1303K-122 + ACUUUUUUCUAAAUGUUC 182344 CFTR-N1303K-123 + AACUUUUUUCUAAAUGUUC 19 2345 CFTR-N1303K-124 +CAACUUUUUUCUAAAUGUUC 20 2346 CFTR-N1303K-125 + CCAACUUUUUUCUAAAUGUUC 212347 CFTR-N1303K-126 + UCCAACUUUUUUCUAAAUGUUC 22 2348 CFTR-N1303K-127 +AUCCAACUUUUUUCUAAAUGUUC 23 2349 CFTR-N1303K-128 +GAUCCAACUUUUUUCUAAAUGUUC 24 2350 CFTR-N1303K-129 + UAUAGCAAAAAAGAAAAG 182351 CFTR-N1303K-130 + CUAUAGCAAAAAAGAAAAG 19 2352 CFTR-N1303K-131 +UCUAUAGCAAAAAAGAAAAG 20 2353 CFTR-N1303K-132 + UUCUAUAGCAAAAAAGAAAAG 212354 CFTR-N1303K-133 + UUUCUAUAGCAAAAAAGAAAAG 22 2355 CFTR-N1303K-134 +CUUUCUAUAGCAAAAAAGAAAAG 23 2356 CFTR-N1303K-135 +ACUUUCUAUAGCAAAAAAGAAAAG 24 2357 CFTR-N1303K-136 + AUUGUAAAAUAUUUCAAG 182358 CFTR-N1303K-137 + UAUUGUAAAAUAUUUCAAG 19 2359 CFTR-N1303K-138 +GUAUUGUAAAAUAUUUCAAG 20 2360 CFTR-N1303K-139 + UGUAUUGUAAAAUAUUUCAAG 212361 CFTR-N1303K-140 + UUGUAUUGUAAAAUAUUUCAAG 22 2362 CFTR-N1303K-141 +AUUGUAUUGUAAAAUAUUUCAAG 23 2363 CFTR-N1303K-142 +UAUUGUAUUGUAAAAUAUUUCAAG 24 2364 CFTR-N1303K-143 + AGCAAAAAAGAAAAGAAG 182365 CFTR-N1303K-144 + UAGCAAAAAAGAAAAGAAG 19 2366 CFTR-N1303K-145 +AUAGCAAAAAAGAAAAGAAG 20 2367 CFTR-N1303K-146 + UAUAGCAAAAAAGAAAAGAAG 212368 CFTR-N1303K-147 + CUAUAGCAAAAAAGAAAAGAAG 22 2369 CFTR-N1303K-148 +UCUAUAGCAAAAAAGAAAAGAAG 23 2370 CFTR-N1303K-149 +UUCUAUAGCAAAAAAGAAAAGAAG 24 2371 CFTR-N1303K-150 + GAAAAAUUAUUUUAAAAU 182372 CFTR-N1303K-151 + AGAAAAAUUAUUUUAAAAU 19 2373 CFTR-N1303K-152 +UAGAAAAAUUAUUUUAAAAU 20 2374 CFTR-N1303K-153 + GUAGAAAAAUUAUUUUAAAAU 212375 CFTR-N1303K-154 + AGUAGAAAAAUUAUUUUAAAAU 22 2376 CFTR-N1303K-155 +AAGUAGAAAAAUUAUUUUAAAAU 23 2377 CFTR-N1303K-156 +CAAGUAGAAAAAUUAUUUUAAAAU 24 2378 CFTR-N1303K-157 − UGUGUGCACAACUUUAAA 182379 CFTR-N1303K-158 − GUGUGUGCACAACUUUAAA 19 2380 CFTR-N1303K-159 −UGUGUGUGCACAACUUUAAA 20 2381 CFTR-N1303K-160 − AUGUGUGUGCACAACUUUAAA 212382 CFTR-N1303K-161 − UAUGUGUGUGCACAACUUUAAA 22 2383 CFTR-N1303K-162 −GUAUGUGUGUGCACAACUUUAAA 23 2384 CFTR-N1303K-163 −UGUAUGUGUGUGCACAACUUUAAA 24 2385 CFTR-N1303K-164 − UAUUUUACAAUACAAUAA 182386 CFTR-N1303K-165 − AUAUUUUACAAUACAAUAA 19 2387 CFTR-N1303K-34 −AAUAUUUUACAAUACAAUAA 20 2256 CFTR-N1303K-166 − AAAUAUUUUACAAUACAAUAA 212388 CFTR-N1303K-167 − GAAAUAUUUUACAAUACAAUAA 22 2389 CFTR-N1303K-168 −UGAAAUAUUUUACAAUACAAUAA 23 2390 CFTR-N1303K-169 −UUGAAAUAUUUUACAAUACAAUAA 24 2391 CFTR-N1303K-170 − AUGAGGUAAGGCUGCUAA 182392 CFTR-N1303K-171 − GAUGAGGUAAGGCUGCUAA 19 2393 CFTR-N1303K-172 −AGAUGAGGUAAGGCUGCUAA 20 2394 CFTR-N1303K-173 − CAGAUGAGGUAAGGCUGCUAA 212395 CFTR-N1303K-174 − GCAGAUGAGGUAAGGCUGCUAA 22 2396 CFTR-N1303K-175 −UGCAGAUGAGGUAAGGCUGCUAA 23 2397 CFTR-N1303K-176 −UUGCAGAUGAGGUAAGGCUGCUAA 24 2398 CFTR-N1303K-177 − GUUGGAUCCCUAUGAACA 182399 CFTR-N1303K-178 − AGUUGGAUCCCUAUGAACA 19 2400 CFTR-N1303K-179 −AAGUUGGAUCCCUAUGAACA 20 2401 CFTR-N1303K-180 − AAAGUUGGAUCCCUAUGAACA 212402 CFTR-N1303K-181 − AAAAGUUGGAUCCCUAUGAACA 22 2403 CFTR-N1303K-182 −AAAAAGUUGGAUCCCUAUGAACA 23 2404 CFTR-N1303K-183 −AAAAAAGUUGGAUCCCUAUGAACA 24 2405 CFTR-N1303K-184 − UAAAAUAUUAAAAUUUGA 182406 CFTR-N1303K-185 − AUAAAAUAUUAAAAUUUGA 19 2407 CFTR-N1303K-186 −GAUAAAAUAUUAAAAUUUGA 20 2408 CFTR-N1303K-187 − UGAUAAAAUAUUAAAAUUUGA 212409 CFTR-N1303K-188 − AUGAUAAAAUAUUAAAAUUUGA 22 2410 CFTR-N1303K-189 −CAUGAUAAAAUAUUAAAAUUUGA 23 2411 CFTR-N1303K-190 −ACAUGAUAAAAUAUUAAAAUUUGA 24 2412 CFTR-N1303K-191 − UAACUGAAAUGAUUUUGA 182413 CFTR-N1303K-192 − CUAACUGAAAUGAUUUUGA 19 2414 CFTR-N1303K-193 −GCUAACUGAAAUGAUUUUGA 20 2415 CFTR-N1303K-194 − UGCUAACUGAAAUGAUUUUGA 212416 CFTR-N1303K-195 − CUGCUAACUGAAAUGAUUUUGA 22 2417 CFTR-N1303K-196 −GCUGCUAACUGAAAUGAUUUUGA 23 2418 CFTR-N1303K-197 −GGCUGCUAACUGAAAUGAUUUUGA 24 2419 CFTR-N1303K-198 − UGGAGUGAUCAAGAAAUA 182420 CFTR-N1303K-199 − GUGGAGUGAUCAAGAAAUA 19 2421 CFTR-N1303K-18 −AGUGGAGUGAUCAAGAAAUA 20 2240 CFTR-N1303K-200 − CAGUGGAGUGAUCAAGAAAUA 212422 CFTR-N1303K-201 − ACAGUGGAGUGAUCAAGAAAUA 22 2423 CFTR-N1303K-202 −AACAGUGGAGUGAUCAAGAAAUA 23 2424 CFTR-N1303K-203 −GAACAGUGGAGUGAUCAAGAAAUA 24 2425 CFTR-N1303K-204 − AUAUUUUACAAUACAAUA 182426 CFTR-N1303K-205 − AAUAUUUUACAAUACAAUA 19 2427 CFTR-N1303K-36 −AAAUAUUUUACAAUACAAUA 20 2258 CFTR-N1303K-206 − GAAAUAUUUUACAAUACAAUA 212428 CFTR-N1303K-207 − UGAAAUAUUUUACAAUACAAUA 22 2429 CFTR-N1303K-208 −UUGAAAUAUUUUACAAUACAAUA 23 2430 CFTR-N1303K-209 −CUUGAAAUAUUUUACAAUACAAUA 24 2431 CFTR-N1303K-210 − UUCUUUUCUUUUUUGCUA 182432 CFTR-N1303K-211 − CUUCUUUUCUUUUUUGCUA 19 2433 CFTR-N1303K-212 −UCUUCUUUUCUUUUUUGCUA 20 2434 CFTR-N1303K-213 − UUCUUCUUUUCUUUUUUGCUA 212435 CFTR-N1303K-214 − CUUCUUCUUUUCUUUUUUGCUA 22 2436 CFTR-N1303K-215 −UCUUCUUCUUUUCUUUUUUGCUA 23 2437 CFTR-N1303K-216 −UUCUUCUUCUUUUCUUUUUUGCUA 24 2438 CFTR-N1303K-217 − UGGAGUACCCUAACAUAC 182439 CFTR-N1303K-218 − AUGGAGUACCCUAACAUAC 19 2440 CFTR-N1303K-219 −AAUGGAGUACCCUAACAUAC 20 2441 CFTR-N1303K-220 − AAAUGGAGUACCCUAACAUAC 212442 CFTR-N1303K-221 − AAAAUGGAGUACCCUAACAUAC 22 2443 CFTR-N1303K-222 −UAAAAUGGAGUACCCUAACAUAC 23 2444 CFTR-N1303K-223 −UUAAAAUGGAGUACCCUAACAUAC 24 2445 CFTR-N1303K-224 − UUAAAAUAAUUUUUCUAC 182446 CFTR-N1303K-225 − UUUAAAAUAAUUUUUCUAC 19 2447 CFTR-N1303K-226 −UUUUAAAAUAAUUUUUCUAC 20 2448 CFTR-N1303K-227 − AUUUUAAAAUAAUUUUUCUAC 212449 CFTR-N1303K-228 − UAUUUUAAAAUAAUUUUUCUAC 22 2450 CFTR-N1303K-229 −UUAUUUUAAAAUAAUUUUUCUAC 23 2451 CFTR-N1303K-230 −CUUAUUUUAAAAUAAUUUUUCUAC 24 2452 CFTR-N1303K-231 − GGAGUACCCUAACAUACC 182453 CFTR-N1303K-232 − UGGAGUACCCUAACAUACC 19 2454 CFTR-N1303K-37 −AUGGAGUACCCUAACAUACC 20 2259 CFTR-N1303K-233 − AAUGGAGUACCCUAACAUACC 212455 CFTR-N1303K-234 − AAAUGGAGUACCCUAACAUACC 22 2456 CFTR-N1303K-235 −AAAAUGGAGUACCCUAACAUACC 23 2457 CFTR-N1303K-236 −UAAAAUGGAGUACCCUAACAUACC 24 2458 CFTR-N1303K-237 − AUGAACAGUGGAGUGAUC 182459 CFTR-N1303K-238 − UAUGAACAGUGGAGUGAUC 19 2460 CFTR-N1303K-239 −CUAUGAACAGUGGAGUGAUC 20 2461 CFTR-N1303K-240 − CCUAUGAACAGUGGAGUGAUC 212462 CFTR-N1303K-241 − CCCUAUGAACAGUGGAGUGAUC 22 2463 CFTR-N1303K-242 −UCCCUAUGAACAGUGGAGUGAUC 23 2464 CFTR-N1303K-243 −AUCCCUAUGAACAGUGGAGUGAUC 24 2465 CFTR-N1303K-244 − GAAAGUAUUUAUUUUUUC 182466 CFTR-N1303K-245 − AGAAAGUAUUUAUUUUUUC 19 2467 CFTR-N1303K-38 −UAGAAAGUAUUUAUUUUUUC 20 2260 CFTR-N1303K-246 − AUAGAAAGUAUUUAUUUUUUC 212468 CFTR-N1303K-247 − UAUAGAAAGUAUUUAUUUUUUC 22 2469 CFTR-N1303K-248 −CUAUAGAAAGUAUUUAUUUUUUC 23 2470 CFTR-N1303K-249 −GCUAUAGAAAGUAUUUAUUUUUUC 24 2471 CFTR-N1303K-250 − AAAUAUGGAAAGUUGCAG 182472 CFTR-N1303K-251 − GAAAUAUGGAAAGUUGCAG 19 2473 CFTR-N1303K-252 −AGAAAUAUGGAAAGUUGCAG 20 2474 CFTR-N1303K-253 − AAGAAAUAUGGAAAGUUGCAG 212475 CFTR-N1303K-254 − CAAGAAAUAUGGAAAGUUGCAG 22 2476 CFTR-N1303K-255 −UCAAGAAAUAUGGAAAGUUGCAG 23 2477 CFTR-N1303K-256 −AUCAAGAAAUAUGGAAAGUUGCAG 24 2478 CFTR-N1303K-257 − AUGAUAAAAUAUUAAAAU 182479 CFTR-N1303K-258 − CAUGAUAAAAUAUUAAAAU 19 2480 CFTR-N1303K-259 −ACAUGAUAAAAUAUUAAAAU 20 2481 CFTR-N1303K-260 − GUGGAGUGAUCAAGAAAU 182482 CFTR-N1303K-261 − AGUGGAGUGAUCAAGAAAU 19 2483 CFTR-N1303K-262 −CAGUGGAGUGAUCAAGAAAU 20 2484 CFTR-N1303K-263 − ACAGUGGAGUGAUCAAGAAAU 212485 CFTR-N1303K-264 − AACAGUGGAGUGAUCAAGAAAU 22 2486 CFTR-N1303K-265 −GAACAGUGGAGUGAUCAAGAAAU 23 2487 CFTR-N1303K-266 −UGAACAGUGGAGUGAUCAAGAAAU 24 2488 CFTR-N1303K-267 − AAUAUUUUACAAUACAAU 182489 CFTR-N1303K-268 − AAAUAUUUUACAAUACAAU 19 2490 CFTR-N1303K-269 −GAAAUAUUUUACAAUACAAU 20 2491 CFTR-N1303K-270 − UGAAAUAUUUUACAAUACAAU 212492 CFTR-N1303K-271 − UUGAAAUAUUUUACAAUACAAU 22 2493 CFTR-N1303K-272 −CUUGAAAUAUUUUACAAUACAAU 23 2494 CFTR-N1303K-273 −ACUUGAAAUAUUUUACAAUACAAU 24 2495 CFTR-N1303K-274 − GAAAAAAGUUGGAUCCCU 182496 CFTR-N1303K-275 − AGAAAAAAGUUGGAUCCCU 19 2497 CFTR-N1303K-276 −UAGAAAAAAGUUGGAUCCCU 20 2498 CFTR-N1303K-277 − UUAGAAAAAAGUUGGAUCCCU 212499 CFTR-N1303K-278 − UUUAGAAAAAAGUUGGAUCCCU 22 2500 CFTR-N1303K-279 −AUUUAGAAAAAAGUUGGAUCCCU 23 2501 CFTR-N1303K-280 −CAUUUAGAAAAAAGUUGGAUCCCU 24 2502 CFTR-N1303K-281 − UAUUUUUUCUGGAACAUU 182503 CFTR-N1303K-282 − UUAUUUUUUCUGGAACAUU 19 2504 CFTR-N1303K-283 −UUUAUUUUUUCUGGAACAUU 20 2505 CFTR-N1303K-284 − AUUUAUUUUUUCUGGAACAUU 212506 CFTR-N1303K-285 − UAUUUAUUUUUUCUGGAACAUU 22 2507 CFTR-N1303K-286 −GUAUUUAUUUUUUCUGGAACAUU 23 2508 CFTR-N1303K-287 −AGUAUUUAUUUUUUCUGGAACAUU 24 2509 CFTR-N1303K-288 − CUGCUAACUGAAAUGAUU 182510 CFTR-N1303K-289 − GCUGCUAACUGAAAUGAUU 19 2511 CFTR-N1303K-290 −GGCUGCUAACUGAAAUGAUU 20 2512 CFTR-N1303K-291 − AGGCUGCUAACUGAAAUGAUU 212513 CFTR-N1303K-292 − AAGGCUGCUAACUGAAAUGAUU 22 2514 CFTR-N1303K-293 −UAAGGCUGCUAACUGAAAUGAUU 23 2515 CFTR-N1303K-294 −GUAAGGCUGCUAACUGAAAUGAUU 24 2516 CFTR-N1303K-295 − GAUAAAAUAUUAAAAUUU 182517 CFTR-N1303K-296 − UGAUAAAAUAUUAAAAUUU 19 2518 CFTR-N1303K-297 −AUGAUAAAAUAUUAAAAUUU 20 2519 CFTR-N1303K-298 − AGAAAGUAUUUAUUUUUU 182520 CFTR-N1303K-299 − UAGAAAGUAUUUAUUUUUU 19 2521 CFTR-N1303K-300 −AUAGAAAGUAUUUAUUUUUU 20 2522 CFTR-N1303K-301 − UAUAGAAAGUAUUUAUUUUUU 212523 CFTR-N1303K-302 − CUAUAGAAAGUAUUUAUUUUUU 22 2524 CFTR-N1303K-303 −GCUAUAGAAAGUAUUUAUUUUUU 23 2525 CFTR-N1303K-304 −UGCUAUAGAAAGUAUUUAUUUUUU 24 2526

Table 21A provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 21A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-N1303K-305 − GGUAAGGCUGCUAACUG 17 2527

Table 21B provides exemplary targeting domains for correcting a mutation(e.g., N1303K) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., N1303K) and have a high level of orthogonality. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 21B 2nd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-N1303K-306 − UGAGGUAAGGCUGCUAACUG 20 2528

Table 22A provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 22A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-1 + GUGAUGAAGGCCAAAAA 17 2529 CFTR-R117H-2 +GGUGACUUCCUACAAAA 17 2530 CFTR-R117H-3 + GCCAUGGGGCCUGUGCA 17 2531CFTR-R117H-4 + GCAUUCCAAUGUGAUGA 17 2532 CFTR-R117H-5 −GUAAUACUUCCUUGCAC 17 2533 CFTR-R117H-6 + GUGACUUCCUACAAAAG 17 2534CFTR-R117H-7 − GCCUUCUCUUUAUUGUG 17 2535 CFTR-R117H-8 −GCGAUUUAUCUAGGCAU 17 2536 CFTR-R117H-9 − GUACAGCCUCUCUUACU 17 2537CFTR-R117H-10 + GAAGGCCAAAAAUGGCU 17 2538 CFTR-R117H-11 +GAGAGGCUGUACUGCUU 17 2539 CFTR-R117H-12 + GAUACAGAAUAUAUGUGCCA 20 2540CFTR-R117H-13 − GUCUUGUGUUGAAAUUCUCA 20 2541 CFTR-R117H-14 +GUGUCCUCACAAUAAAGAGA 20 2542 CFTR-R117H-15 − GCAGUACAGCCUCUCUUACU 202543 CFTR-R117H-16 + GAUGAAGGCCAAAAAUGGCU 20 2544 CFTR-R117H-17 +GGCCAAAAAUGGCUGGGUGU 20 2545

Table 22B provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H) and have a high level of orthogonality. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. pyogenes Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 22B 2nd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-18 + UGGUGACUUCCUACAAA 17 2546 CFTR-R117H-19 −CUAUGACCCGGAUAACA 17 2547 CFTR-R117H-20 − UUGUGUUGAAAUUCUCA 17 2548CFTR-R117H-21 − UAGUUUGAUUUAUAAGA 17 2549 CFTR-R117H-22 +UCCUCACAAUAAAGAGA 17 2550 CFTR-R117H-23 − AGUACAGCCUCUCUUAC 17 2551CFTR-R117H-24 − CAUAGCUUCCUAUGACC 17 2552 CFTR-R117H-25 +UGAAGGCCAAAAAUGGC 17 2553 CFTR-R117H-26 + UGUUCCUCCUUGUUAUC 17 2554CFTR-R117H-27 − CUUGUGUUGAAAUUCUC 17 2555 CFTR-R117H-28 +AUUCUUCCCAGUAAGAG 17 2556 CFTR-R117H-29 + AGACUUUUCAUCUUUAG 17 2557CFTR-R117H-30 − UGACCCGGAUAACAAGG 17 2558 CFTR-R117H-31 −UUUGGCCUUCAUCACAU 17 2559 CFTR-R117H-32 + CAGAAUAUAUGUGCCAU 17 2560CFTR-R117H-33 + CUUGUUAUCCGGGUCAU 17 2561 CFTR-R117H-34 −UCUAUCGCGAUUUAUCU 17 2562 CFTR-R117H-35 + CAAAAAUGGCUGGGUGU 17 2563CFTR-R117H-36 − CUACACCCAGCCAUUUU 17 2564 CFTR-R117H-37 +AAUGUGAUGAAGGCCAAAAA 20 2565 CFTR-R117H-38 + UUUGGUGACUUCCUACAAAA 202566 CFTR-R117H-39 + CUUUGGUGACUUCCUACAAA 20 2567 CFTR-R117H-40 −UUCCUAUGACCCGGAUAACA 20 2568 CFTR-R117H-41 − ACUUCCUUGCACAGGCCCCA 202569 CFTR-R117H-42 + UGUGCCAUGGGGCCUGUGCA 20 2570 CFTR-R117H-43 +UCUGCAUUCCAAUGUGAUGA 20 2571 CFTR-R117H-44 − AAGGUAAUACUUCCUUGCAC 202572 CFTR-R117H-45 − AGCAGUACAGCCUCUCUUAC 20 2573 CFTR-R117H-46 −AAUCAUAGCUUCCUAUGACC 20 2574 CFTR-R117H-47 + UGAUGAAGGCCAAAAAUGGC 202575 CFTR-R117H-48 − AGUCUUGUGUUGAAAUUCUC 20 2576 CFTR-R117H-49 +UUGGUGACUUCCUACAAAAG 20 2577 CFTR-R117H-50 + AUGAUUCUUCCCAGUAAGAG 202578 CFTR-R117H-51 + CUUAAAAUGAGUUUAUAUAG 20 2579 CFTR-R117H-52 +ACAAGACUUUUCAUCUUUAG 20 2580 CFTR-R117H-53 − CUAUGACCCGGAUAACAAGG 202581 CFTR-R117H-54 + UACAGAAUAUAUGUGCCAUG 20 2582 CFTR-R117H-55 −UAUGCCUUCUCUUUAUUGUG 20 2583 CFTR-R117H-56 − AUUUUUGGCCUUCAUCACAU 202584 CFTR-R117H-57 + AUACAGAAUAUAUGUGCCAU 20 2585 CFTR-R117H-58 −AUCGCGAUUUAUCUAGGCAU 20 2586 CFTR-R117H-59 + CUCCUUGUUAUCCGGGUCAU 202587 CFTR-R117H-60 + UAAGAGAGGCUGUACUGCUU 20 2588 CFTR-R117H-61 −CUCCUACACCCAGCCAUUUU 20 2589

Table 22C provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H) and start with a 5′G. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. pyogenes Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 22C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-62 + GUUCCUCCUUGUUAUCC 17 2590 CFTR-R117H-63 −GUUUAGUUUGAUUUAUAAGA 20 2591 CFTR-R117H-64 + GAGUGUUCCUCCUUGUUAUC 202592

Table 22D provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 22D 4th Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-65 − UCCUUGCACAGGCCCCA 17 2593 CFTR-R117H-66 +ACAGAAUAUAUGUGCCA 17 2594 CFTR-R117H-67 + AAAUGAGUUUAUAUAGA 17 2595CFTR-R117H-68 + AAAAUGAGUUUAUAUAG 17 2596 CFTR-R117H-69 +AGAAUAUAUGUGCCAUG 17 2597 CFTR-R117H-70 − UGUUUUUCCCCUUUUGU 17 2598CFTR-R117H-71 + UUAAAAUGAGUUUAUAUAGA 20 2599 CFTR-R117H-72 +AGUGUUCCUCCUUGUUAUCC 20 2600 CFTR-R117H-73 − CACUCUAUCGCGAUUUAUCU 202601 CFTR-R117H-74 − CUCUGUUUUUCCCCUUUUGU 20 2602

Table 23A provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H), have a high level of orthogonality, start with a 5′G, andPAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 23A 1st Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-75 + GCCUAUGCCUAGAUAAAUCGCGA 23 2603CFTR-R117H-76 + GAUGAAGGCCAAAAAUGG 18 2604 CFTR-R117H-77 +GUGAUGAAGGCCAAAAAUGG 20 2605 CFTR-R117H-78 − GAAUCAUAGCUUCCUAUGAC 202606 CFTR-R117H-79 − GAAGAAUCAUAGCUUCCUAUGAC 23 2607 CFTR-R117H-80 −GGAAGAAUCAUAGCUUCCUAUGAC 24 2608 CFTR-R117H-81 − GUACAGCCUCUCUUACUGGG 202609 CFTR-R117H-82 − GCAGUACAGCCUCUCUUACUGGG 23 2610 CFTR-R117H-83 −GCCAUUUUUGGCCUUCAUCACAU 23 2611 CFTR-R117H-84 − GUCUUGUGUUGAAAUUCU 182612 CFTR-R117H-85 − GAAAAGUCUUGUGUUGAAAUUCU 23 2613

Table 23B provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H), have a high level of orthogonality and PAM is NNGRRT. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 23B 2nd Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-86 + CUUUAGAGGAGACUUAAA 18 2614 CFTR-R117H-87 +UCUUUAGAGGAGACUUAAA 19 2615 CFTR-R117H-88 + AUCUUUAGAGGAGACUUAAA 20 2616CFTR-R117H-89 + CAUCUUUAGAGGAGACUUAAA 21 2617 CFTR-R117H-90 +UCAUCUUUAGAGGAGACUUAAA 22 2618 CFTR-R117H-91 + UUCAUCUUUAGAGGAGACUUAAA23 2619 CFTR-R117H-92 + UUUCAUCUUUAGAGGAGACUUAAA 24 2620 CFTR-R117H-93 +UGCCUAGAUAAAUCGCGA 18 2621 CFTR-R117H-94 + AUGCCUAGAUAAAUCGCGA 19 2622CFTR-R117H-95 + UAUGCCUAGAUAAAUCGCGA 20 2623 CFTR-R117H-96 +CUAUGCCUAGAUAAAUCGCGA 21 2624 CFTR-R117H-97 + CCUAUGCCUAGAUAAAUCGCGA 222625 CFTR-R117H-98 + AGCCUAUGCCUAGAUAAAUCGCGA 24 2626 CFTR-R117H-99 +AUUAAAACAUGUACGAUA 18 2627 CFTR-R117H-100 + CAUUAAAACAUGUACGAUA 19 2628CFTR-R117H-101 + ACAUUAAAACAUGUACGAUA 20 2629 CFTR-R117H-102 +UUAAAAUGAGUUUAUAUA 18 2630 CFTR-R117H-103 + CUUAAAAUGAGUUUAUAUA 19 2631CFTR-R117H-104 + ACUUAAAAUGAGUUUAUAUA 20 2632 CFTR-R117H-105 +UGAUGAAGGCCAAAAAUGG 19 2633 CFTR-R117H-106 + UGUGAUGAAGGCCAAAAAUGG 212634 CFTR-R117H-107 + AUGUGAUGAAGGCCAAAAAUGG 22 2635 CFTR-R117H-108 +AAUGUGAUGAAGGCCAAAAAUGG 23 2636 CFTR-R117H-109 +CAAUGUGAUGAAGGCCAAAAAUGG 24 2637 CFTR-R117H-110 + UUUCUCAUAAAAUACCCU 182638 CFTR-R117H-111 + AUUUCUCAUAAAAUACCCU 19 2639 CFTR-R117H-112 +UAUUUCUCAUAAAAUACCCU 20 2640 CFTR-R117H-113 − AUCAUAGCUUCCUAUGAC 18 2641CFTR-R117H-114 − AAUCAUAGCUUCCUAUGAC 19 2642 CFTR-R117H-115 −AGAAUCAUAGCUUCCUAUGAC 21 2643 CFTR-R117H-116 − AAGAAUCAUAGCUUCCUAUGAC 222644 CFTR-R117H-117 − ACAGCCUCUCUUACUGGG 18 2645 CFTR-R117H-118 −UACAGCCUCUCUUACUGGG 19 2646 CFTR-R117H-119 − AGUACAGCCUCUCUUACUGGG 212647 CFTR-R117H-120 − CAGUACAGCCUCUCUUACUGGG 22 2648 CFTR-R117H-121 −AGCAGUACAGCCUCUCUUACUGGG 24 2649 CFTR-R117H-122 − UUUUGGCCUUCAUCACAU 182650 CFTR-R117H-123 − UUUUUGGCCUUCAUCACAU 19 2651 CFTR-R117H-56 −AUUUUUGGCCUUCAUCACAU 20 2584 CFTR-R117H-124 − CAUUUUUGGCCUUCAUCACAU 212652 CFTR-R117H-125 − CCAUUUUUGGCCUUCAUCACAU 22 2653 CFTR-R117H-126 −AGCCAUUUUUGGCCUUCAUCACAU 24 2654 CFTR-R117H-127 − AGUCUUGUGUUGAAAUUCU 192655 CFTR-R117H-128 − AAGUCUUGUGUUGAAAUUCU 20 2656 CFTR-R117H-129 −AAAGUCUUGUGUUGAAAUUCU 21 2657 CFTR-R117H-130 − AAAAGUCUUGUGUUGAAAUUCU 222658 CFTR-R117H-131 − UGAAAAGUCUUGUGUUGAAAUUCU 24 2659

Table 23C provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H), start with a 5′G and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 23C 3rd Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-132 + GACUUAAAAUGAGUUUAUAUA 21 2660CFTR-R117H-133 + GAGACUUAAAAUGAGUUUAUAUA 23 2661 CFTR-R117H-134 +GGAGACUUAAAAUGAGUUUAUAUA 24 2662 CFTR-R117H-135 + GAGUGUUCCUCCUUGUUAU 192663 CFTR-R117H-136 + GAUAGAGUGUUCCUCCUUGUUAU 23 2664

Table 23D provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H), and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 23D 4th Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-137 + AGACUUAAAAUGAGUUUAUAUA 22 2665CFTR-R117H-138 + AGUGUUCCUCCUUGUUAU 18 2666 CFTR-R117H-139 +AGAGUGUUCCUCCUUGUUAU 20 2667 CFTR-R117H-140 + UAGAGUGUUCCUCCUUGUUAU 212668 CFTR-R117H-141 + AUAGAGUGUUCCUCCUUGUUAU 22 2669 CFTR-R117H-142 +CGAUAGAGUGUUCCUCCUUGUUAU 24 2670 CFTR-R117H-143 + UUAUUUCUCAUAAAAUACCCU21 2671 CFTR-R117H-144 + UUUAUUUCUCAUAAAAUACCCU 22 2672 CFTR-R117H-145 +AUUUAUUUCUCAUAAAAUACCCU 23 2673 CFTR-R117H-146 +CAUUUAUUUCUCAUAAAAUACCCU 24 2674 CFTR-R117H-147 − UCACAUUGGAAUGCAGAU 182675 CFTR-R117H-148 − AUCACAUUGGAAUGCAGAU 19 2676 CFTR-R117H-149 −CAUCACAUUGGAAUGCAGAU 20 2677 CFTR-R117H-150 − UCAUCACAUUGGAAUGCAGAU 212678 CFTR-R117H-151 − UUCAUCACAUUGGAAUGCAGAU 22 2679 CFTR-R117H-152 −CUUCAUCACAUUGGAAUGCAGAU 23 2680 CFTR-R117H-153 −CCUUCAUCACAUUGGAAUGCAGAU 24 2681

Table 23E provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H), and PAM is NNGRRV. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 23E 5th Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-154 + CCUACAAAAGGGGAAAAA 18 2682 CFTR-R117H-155 +UCCUACAAAAGGGGAAAAA 19 2683 CFTR-R117H-156 + UUCCUACAAAAGGGGAAAAA 202684 CFTR-R117H-157 + CUUCCUACAAAAGGGGAAAAA 21 2685 CFTR-R117H-158 +ACUUCCUACAAAAGGGGAAAAA 22 2686 CFTR-R117H-159 + GACUUCCUACAAAAGGGGAAAAA23 2687 CFTR-R117H-160 + UGACUUCCUACAAAAGGGGAAAAA 24 2688CFTR-R117H-161 + UGGUGACUUCCUACAAAA 18 2689 CFTR-R117H-162 +UUGGUGACUUCCUACAAAA 19 2690 CFTR-R117H-38 + UUUGGUGACUUCCUACAAAA 20 2566CFTR-R117H-163 + CUUUGGUGACUUCCUACAAAA 21 2691 CFTR-R117H-164 +GCUUUGGUGACUUCCUACAAAA 22 2692 CFTR-R117H-165 + UGCUUUGGUGACUUCCUACAAAA23 2693 CFTR-R117H-166 + CUGCUUUGGUGACUUCCUACAAAA 24 2694CFTR-R117H-167 + UUGGUGACUUCCUACAAA 18 2695 CFTR-R117H-168 +UUUGGUGACUUCCUACAAA 19 2696 CFTR-R117H-39 + CUUUGGUGACUUCCUACAAA 20 2567CFTR-R117H-169 + GCUUUGGUGACUUCCUACAAA 21 2697 CFTR-R117H-170 +UGCUUUGGUGACUUCCUACAAA 22 2698 CFTR-R117H-171 + CUGCUUUGGUGACUUCCUACAAA23 2699 CFTR-R117H-172 + ACUGCUUUGGUGACUUCCUACAAA 24 2700CFTR-R117H-173 + CAGUGUCCUCACAAUAAA 18 2701 CFTR-R117H-174 +GCAGUGUCCUCACAAUAAA 19 2702 CFTR-R117H-175 + AGCAGUGUCCUCACAAUAAA 202703 CFTR-R117H-176 + GAGCAGUGUCCUCACAAUAAA 21 2704 CFTR-R117H-177 +GGAGCAGUGUCCUCACAAUAAA 22 2705 CFTR-R117H-178 + AGGAGCAGUGUCCUCACAAUAAA23 2706 CFTR-R117H-179 + UAGGAGCAGUGUCCUCACAAUAAA 24 2707CFTR-R117H-180 + UUUGGUGACUUCCUACAA 18 2708 CFTR-R117H-181 +CUUUGGUGACUUCCUACAA 19 2709 CFTR-R117H-182 + GCUUUGGUGACUUCCUACAA 202710 CFTR-R117H-183 + UGCUUUGGUGACUUCCUACAA 21 2711 CFTR-R117H-184 +CUGCUUUGGUGACUUCCUACAA 22 2712 CFTR-R117H-185 + ACUGCUUUGGUGACUUCCUACAA23 2713 CFTR-R117H-186 + UACUGCUUUGGUGACUUCCUACAA 24 2714CFTR-R117H-187 + UAUGAUUCUUCCCAGUAA 18 2715 CFTR-R117H-188 +CUAUGAUUCUUCCCAGUAA 19 2716 CFTR-R117H-189 + GCUAUGAUUCUUCCCAGUAA 202717 CFTR-R117H-190 + AGCUAUGAUUCUUCCCAGUAA 21 2718 CFTR-R117H-191 +AAGCUAUGAUUCUUCCCAGUAA 22 2719 CFTR-R117H-192 + GAAGCUAUGAUUCUUCCCAGUAA23 2720 CFTR-R117H-193 + GGAAGCUAUGAUUCUUCCCAGUAA 24 2721CFTR-R117H-194 + UACAAAAGGGGAAAAACA 18 2722 CFTR-R117H-195 +CUACAAAAGGGGAAAAACA 19 2723 CFTR-R117H-196 + CCUACAAAAGGGGAAAAACA 202724 CFTR-R117H-197 + UCCUACAAAAGGGGAAAAACA 21 2725 CFTR-R117H-198 +UUCCUACAAAAGGGGAAAAACA 22 2726 CFTR-R117H-199 + CUUCCUACAAAAGGGGAAAAACA23 2727 CFTR-R117H-200 + ACUUCCUACAAAAGGGGAAAAACA 24 2728CFTR-R117H-201 + UACAGAAUAUAUGUGCCA 18 2729 CFTR-R117H-202 +AUACAGAAUAUAUGUGCCA 19 2730 CFTR-R117H-12 + GAUACAGAAUAUAUGUGCCA 20 2540CFTR-R117H-203 + CGAUACAGAAUAUAUGUGCCA 21 2731 CFTR-R117H-204 +ACGAUACAGAAUAUAUGUGCCA 22 2732 CFTR-R117H-205 + UACGAUACAGAAUAUAUGUGCCA23 2733 CFTR-R117H-206 + GUACGAUACAGAAUAUAUGUGCCA 24 2734CFTR-R117H-207 + UGCCAUGGGGCCUGUGCA 18 2735 CFTR-R117H-208 +GUGCCAUGGGGCCUGUGCA 19 2736 CFTR-R117H-42 + UGUGCCAUGGGGCCUGUGCA 20 2570CFTR-R117H-209 + AUGUGCCAUGGGGCCUGUGCA 21 2737 CFTR-R117H-210 +UAUGUGCCAUGGGGCCUGUGCA 22 2738 CFTR-R117H-211 + AUAUGUGCCAUGGGGCCUGUGCA23 2739 CFTR-R117H-212 + UAUAUGUGCCAUGGGGCCUGUGCA 24 2740CFTR-R117H-213 + UCCUUGUUAUCCGGGUCA 18 2741 CFTR-R117H-214 +CUCCUUGUUAUCCGGGUCA 19 2742 CFTR-R117H-215 + CCUCCUUGUUAUCCGGGUCA 202743 CFTR-R117H-216 + UCCUCCUUGUUAUCCGGGUCA 21 2744 CFTR-R117H-217 +UUCCUCCUUGUUAUCCGGGUCA 22 2745 CFTR-R117H-218 + GUUCCUCCUUGUUAUCCGGGUCA23 2746 CFTR-R117H-219 + UGUUCCUCCUUGUUAUCCGGGUCA 24 2747CFTR-R117H-220 + AGCAGUGUCCUCACAAUA 18 2748 CFTR-R117H-221 +GAGCAGUGUCCUCACAAUA 19 2749 CFTR-R117H-222 + GGAGCAGUGUCCUCACAAUA 202750 CFTR-R117H-223 + AGGAGCAGUGUCCUCACAAUA 21 2751 CFTR-R117H-224 +UAGGAGCAGUGUCCUCACAAUA 22 2752 CFTR-R117H-225 + GUAGGAGCAGUGUCCUCACAAUA23 2753 CFTR-R117H-226 + UGUAGGAGCAGUGUCCUCACAAUA 24 2754CFTR-R117H-227 + ACUUAAAAUGAGUUUAUA 18 2755 CFTR-R117H-228 +GACUUAAAAUGAGUUUAUA 19 2756 CFTR-R117H-229 + AGACUUAAAAUGAGUUUAUA 202757 CFTR-R117H-230 + GAGACUUAAAAUGAGUUUAUA 21 2758 CFTR-R117H-231 +GGAGACUUAAAAUGAGUUUAUA 22 2759 CFTR-R117H-232 + AGGAGACUUAAAAUGAGUUUAUA23 2760 CFTR-R117H-233 + GAGGAGACUUAAAAUGAGUUUAUA 24 2761CFTR-R117H-234 + CAAGACUUUUCAUCUUUA 18 2762 CFTR-R117H-235 +ACAAGACUUUUCAUCUUUA 19 2763 CFTR-R117H-236 + CACAAGACUUUUCAUCUUUA 202764 CFTR-R117H-237 + ACACAAGACUUUUCAUCUUUA 21 2765 CFTR-R117H-238 +AACACAAGACUUUUCAUCUUUA 22 2766 CFTR-R117H-239 + CAACACAAGACUUUUCAUCUUUA23 2767 CFTR-R117H-240 + UCAACACAAGACUUUUCAUCUUUA 24 2768CFTR-R117H-241 + UAUUUCUCAUAAAAUACC 18 2769 CFTR-R117H-242 +UUAUUUCUCAUAAAAUACC 19 2770 CFTR-R117H-243 + UUUAUUUCUCAUAAAAUACC 202771 CFTR-R117H-244 + AUUUAUUUCUCAUAAAAUACC 21 2772 CFTR-R117H-245 +CAU UUAUUUCUCAUAAAAUACC 22 2773 CFTR-R117H-246 + UCAUUUAUUUCUCAUAAAAUACC23 2774 CFTR-R117H-247 + UUCAUUUAUUUCUCAUAAAAUACC 24 2775CFTR-R117H-248 + AUACAGAAUAUAUGUGCC 18 2776 CFTR-R117H-249 +GAUACAGAAUAUAUGUGCC 19 2777 CFTR-R117H-250 + CGAUACAGAAUAUAUGUGCC 202778 CFTR-R117H-251 + ACGAUACAGAAUAUAUGUGCC 21 2779 CFTR-R117H-252 +UACGAUACAGAAUAUAUGUGCC 22 2780 CFTR-R117H-253 + GUACGAUACAGAAUAUAUGUGCC23 2781 CFTR-R117H-254 + UGUACGAUACAGAAUAUAUGUGCC 24 2782CFTR-R117H-255 + GUGCCAUGGGGCCUGUGC 18 2783 CFTR-R117H-256 +UGUGCCAUGGGGCCUGUGC 19 2784 CFTR-R117H-257 + AUGUGCCAUGGGGCCUGUGC 202785 CFTR-R117H-258 + UAUGUGCCAUGGGGCCUGUGC 21 2786 CFTR-R117H-259 +AUAUGUGCCAUGGGGCCUGUGC 22 2787 CFTR-R117H-260 + UAUAUGUGCCAUGGGGCCUGUGC23 2788 CFTR-R117H-261 + AUAUAUGUGCCAUGGGGCCUGUGC 24 2789CFTR-R117H-262 + GGUGACUUCCUACAAAAG 18 2790 CFTR-R117H-263 +UGGUGACUUCCUACAAAAG 19 2791 CFTR-R117H-49 + UUGGUGACUUCCUACAAAAG 20 2577CFTR-R117H-264 + UUUGGUGACUUCCUACAAAAG 21 2792 CFTR-R117H-265 +CUUUGGUGACUUCCUACAAAAG 22 2793 CFTR-R117H-266 + GCUUUGGUGACUUCCUACAAAAG23 2794 CFTR-R117H-267 + UGCUUUGGUGACUUCCUACAAAAG 24 2795CFTR-R117H-268 + AAGACUUUUCAUCUUUAG 18 2796 CFTR-R117H-269 +CAAGACUUUUCAUCUUUAG 19 2797 CFTR-R117H-52 + ACAAGACUUUUCAUCUUUAG 20 2580CFTR-R117H-270 + CACAAGACUUUUCAUCUUUAG 21 2798 CFTR-R117H-271 +ACACAAGACUUUUCAUCUUUAG 22 2799 CFTR-R117H-272 + AACACAAGACUUUUCAUCUUUAG23 2800 CFTR-R117H-273 + CAACACAAGACUUUUCAUCUUUAG 24 2801CFTR-R117H-274 + GCCAAAAAUGGCUGGGUG 18 2802 CFTR-R117H-275 +GGCCAAAAAUGGCUGGGUG 19 2803 CFTR-R117H-276 + AGGCCAAAAAUGGCUGGGUG 202804 CFTR-R117H-277 + AAGGCCAAAAAUGGCUGGGUG 21 2805 CFTR-R117H-278 +GAAGGCCAAAAAUGGCUGGGUG 22 2806 CFTR-R117H-279 + UGAAGGCCAAAAAUGGCUGGGUG23 2807 CFTR-R117H-280 + AUGAAGGCCAAAAAUGGCUGGGUG 24 2808CFTR-R117H-281 + CAUCUGCAUUCCAAUGUG 18 2809 CFTR-R117H-282 +UCAUCUGCAUUCCAAUGUG 19 2810 CFTR-R117H-283 + CUCAUCUGCAUUCCAAUGUG 202811 CFTR-R117H-284 + UCUCAUCUGCAUUCCAAUGUG 21 2812 CFTR-R117H-285 +UUCUCAUCUGCAUUCCAAUGUG 22 2813 CFTR-R117H-286 + AUUCUCAUCUGCAUUCCAAUGUG23 2814 CFTR-R117H-287 + UAUUCUCAUCUGCAUUCCAAUGUG 24 2815CFTR-R117H-288 + CCUUGUUAUCCGGGUCAU 18 2816 CFTR-R117H-289 +UCCUUGUUAUCCGGGUCAU 19 2817 CFTR-R117H-59 + CUCCUUGUUAUCCGGGUCAU 20 2587CFTR-R117H-290 + CCUCCUUGUUAUCCGGGUCAU 21 2818 CFTR-R117H-291 +UCCUCCUUGUUAUCCGGGUCAU 22 2819 CFTR-R117H-292 + UUCCUCCUUGUUAUCCGGGUCAU23 2820 CFTR-R117H-293 + GUUCCUCCUUGUUAUCCGGGUCAU 24 2821CFTR-R117H-294 + GCUAUGAUUCUUCCCAGU 18 2822 CFTR-R117H-295 +AGCUAUGAUUCUUCCCAGU 19 2823 CFTR-R117H-296 + AAGCUAUGAUUCUUCCCAGU 202824 CFTR-R117H-297 + GAAGCUAUGAUUCUUCCCAGU 21 2825 CFTR-R117H-298 +GGAAGCUAUGAUUCUUCCCAGU 22 2826 CFTR-R117H-299 + AGGAAGCUAUGAUUCUUCCCAGU23 2827 CFTR-R117H-300 + UAGGAAGCUAUGAUUCUUCCCAGU 24 2828CFTR-R117H-301 + CCAAAAAUGGCUGGGUGU 18 2829 CFTR-R117H-302 +GCCAAAAAUGGCUGGGUGU 19 2830 CFTR-R117H-17 + GGCCAAAAAUGGCUGGGUGU 20 2545CFTR-R117H-303 + AGGCCAAAAAUGGCUGGGUGU 21 2831 CFTR-R117H-304 +AAGGCCAAAAAUGGCUGGGUGU 22 2832 CFTR-R117H-305 + GAAGGCCAAAAAUGGCUGGGUGU23 2833 CFTR-R117H-306 + UGAAGGCCAAAAAUGGCUGGGUGU 24 2834CFTR-R117H-307 + CACAAGACUUUUCAUCUU 18 2835 CFTR-R117H-308 +ACACAAGACUUUUCAUCUU 19 2836 CFTR-R117H-309 + AACACAAGACUUUUCAUCUU 202837 CFTR-R117H-310 + CAACACAAGACUUUUCAUCUU 21 2838 CFTR-R117H-311 +UCAACACAAGACUUUUCAUCUU 22 2839 CFTR-R117H-312 + UUCAACACAAGACUUUUCAUCUU23 2840 CFTR-R117H-313 + UUUCAACACAAGACUUUUCAUCUU 24 2841 CFTR-R117H-314− GUAUUUUAUGAGAAAUAA 18 2842 CFTR-R117H-315 − GGUAUUUUAUGAGAAAUAA 192843 CFTR-R117H-316 − GGGUAUUUUAUGAGAAAUAA 20 2844 CFTR-R117H-317 −AGGGUAUUUUAUGAGAAAUAA 21 2845 CFTR-R117H-318 − CAGGGUAUUUUAUGAGAAAUAA 222846 CFTR-R117H-319 − UCAGGGUAUUUUAUGAGAAAUAA 23 2847 CFTR-R117H-320 −CUCAGGGUAUUUUAUGAGAAAUAA 24 2848 CFTR-R117H-321 − CCUAUGACCCGGAUAACA 182849 CFTR-R117H-322 − UCCUAUGACCCGGAUAACA 19 2850 CFTR-R117H-40 −UUCCUAUGACCCGGAUAACA 20 2568 CFTR-R117H-323 − CUUCCUAUGACCCGGAUAACA 212851 CFTR-R117H-324 − GCUUCCUAUGACCCGGAUAACA 22 2852 CFTR-R117H-325 −AGCUUCCUAUGACCCGGAUAACA 23 2853 CFTR-R117H-326 −UAGCUUCCUAUGACCCGGAUAACA 24 2854 CFTR-R117H-327 − UUUUUGGCCUUCAUCACA 182855 CFTR-R117H-328 − AUUUUUGGCCUUCAUCACA 19 2856 CFTR-R117H-329 −CAUUUUUGGCCUUCAUCACA 20 2857 CFTR-R117H-330 − CCAUUUUUGGCCUUCAUCACA 212858 CFTR-R117H-331 − GCCAUUUUUGGCCUUCAUCACA 22 2859 CFTR-R117H-332 −AGCCAUUUUUGGCCUUCAUCACA 23 2860 CFTR-R117H-333 −CAGCCAUUUUUGGCCUUCAUCACA 24 2861 CFTR-R117H-334 − GCAGUACAGCCUCUCUUA 182862 CFTR-R117H-335 − AGCAGUACAGCCUCUCUUA 19 2863 CFTR-R117H-336 −AAGCAGUACAGCCUCUCUUA 20 2864 CFTR-R117H-337 − AAAGCAGUACAGCCUCUCUUA 212865 CFTR-R117H-338 − CAAAGCAGUACAGCCUCUCUUA 22 2866 CFTR-R117H-339 −CCAAAGCAGUACAGCCUCUCUUA 23 2867 CFTR-R117H-340 −ACCAAAGCAGUACAGCCUCUCUUA 24 2868 CFTR-R117H-341 − UCCUAUGACCCGGAUAAC 182869 CFTR-R117H-342 − UUCCUAUGACCCGGAUAAC 19 2870 CFTR-R117H-343 −CUUCCUAUGACCCGGAUAAC 20 2871 CFTR-R117H-344 − GCUUCCUAUGACCCGGAUAAC 212872 CFTR-R117H-345 − AGCUUCCUAUGACCCGGAUAAC 22 2873 CFTR-R117H-346 −UAGCUUCCUAUGACCCGGAUAAC 23 2874 CFTR-R117H-347 −AUAGCUUCCUAUGACCCGGAUAAC 24 2875 CFTR-R117H-348 − CAGUACAGCCUCUCUUAC 182876 CFTR-R117H-349 − GCAGUACAGCCUCUCUUAC 19 2877 CFTR-R117H-45 −AGCAGUACAGCCUCUCUUAC 20 2573 CFTR-R117H-350 − AAGCAGUACAGCCUCUCUUAC 212878 CFTR-R117H-351 − AAAGCAGUACAGCCUCUCUUAC 22 2879 CFTR-R117H-352 −CAAAGCAGUACAGCCUCUCUUAC 23 2880 CFTR-R117H-353 −CCAAAGCAGUACAGCCUCUCUUAC 24 2881 CFTR-R117H-354 − UUUAAGUCUCCUCUAAAG 182882 CFTR-R117H-355 − UUUUAAGUCUCCUCUAAAG 19 2883 CFTR-R117H-356 −AUUUUAAGUCUCCUCUAAAG 20 2884 CFTR-R117H-357 − CAUUUUAAGUCUCCUCUAAAG 212885 CFTR-R117H-358 − UCAUUUUAAGUCUCCUCUAAAG 22 2886 CFTR-R117H-359 −CUCAUUUUAAGUCUCCUCUAAAG 23 2887 CFTR-R117H-360 −ACUCAUUUUAAGUCUCCUCUAAAG 24 2888 CFTR-R117H-361 − UAUGACCCGGAUAACAAG 182889 CFTR-R117H-362 − CUAUGACCCGGAUAACAAG 19 2890 CFTR-R117H-363 −CCUAUGACCCGGAUAACAAG 20 2891 CFTR-R117H-364 − UCCUAUGACCCGGAUAACAAG 212892 CFTR-R117H-365 − UUCCUAUGACCCGGAUAACAAG 22 2893 CFTR-R117H-366 −CUUCCUAUGACCCGGAUAACAAG 23 2894 CFTR-R117H-367 −GCUUCCUAUGACCCGGAUAACAAG 24 2895 CFTR-R117H-368 − CAUCACAUUGGAAUGCAG 182896 CFTR-R117H-369 − UCAUCACAUUGGAAUGCAG 19 2897 CFTR-R117H-370 −UUCAUCACAUUGGAAUGCAG 20 2898 CFTR-R117H-371 − CUUCAUCACAUUGGAAUGCAG 212899 CFTR-R117H-372 − CCUUCAUCACAUUGGAAUGCAG 22 2900 CFTR-R117H-373 −GCCUUCAUCACAUUGGAAUGCAG 23 2901 CFTR-R117H-374 −GGCCUUCAUCACAUUGGAAUGCAG 24 2902 CFTR-R117H-375 − AUGACCCGGAUAACAAGG 182903 CFTR-R117H-376 − UAUGACCCGGAUAACAAGG 19 2904 CFTR-R117H-53 −CUAUGACCCGGAUAACAAGG 20 2581 CFTR-R117H-377 − CCUAUGACCCGGAUAACAAGG 212905 CFTR-R117H-378 − UCCUAUGACCCGGAUAACAAGG 22 2906 CFTR-R117H-379 −UUCCUAUGACCCGGAUAACAAGG 23 2907 CFTR-R117H-380 −CUUCCUAUGACCCGGAUAACAAGG 24 2908 CFTR-R117H-381 − AAGAUGAAAAGUCUUGUG 182909 CFTR-R117H-382 − AAAGAUGAAAAGUCUUGUG 19 2910 CFTR-R117H-383 −UAAAGAUGAAAAGUCUUGUG 20 2911 CFTR-R117H-384 − CUAAAGAUGAAAAGUCUUGUG 212912 CFTR-R117H-385 − UCUAAAGAUGAAAAGUCUUGUG 22 2913 CFTR-R117H-386 −CUCUAAAGAUGAAAAGUCUUGUG 23 2914 CFTR-R117H-387 −CCUCUAAAGAUGAAAAGUCUUGUG 24 2915 CFTR-R117H-388 − UCUGUUUUUCCCCUUUUG 182916 CFTR-R117H-389 − CUCUGUUUUUCCCCUUUUG 19 2917 CFTR-R117H-390 −UCUCUGUUUUUCCCCUUUUG 20 2918 CFTR-R117H-391 − UUCUCUGUUUUUCCCCUUUUG 212919 CFTR-R117H-392 − UUUCUCUGUUUUUCCCCUUUUG 22 2920 CFTR-R117H-393 −AUUUCUCUGUUUUUCCCCUUUUG 23 2921 CFTR-R117H-394 −AAUUUCUCUGUUUUUCCCCUUUUG 24 2922 CFTR-R117H-395 − AUGUUUAGUUUGAUUUAU 182923 CFTR-R117H-396 − UAUGUUUAGUUUGAUUUAU 19 2924 CFTR-R117H-397 −CUAUGUUUAGUUUGAUUUAU 20 2925 CFTR-R117H-398 − GCUAUGUUUAGUUUGAUUUAU 212926 CFTR-R117H-399 − AGCUAUGUUUAGUUUGAUUUAU 22 2927 CFTR-R117H-400 −UAGCUAUGUUUAGUUUGAUUUAU 23 2928 CFTR-R117H-401 −AUAGCUAUGUUUAGUUUGAUUUAU 24 2929 CFTR-R117H-402 − AUUCUCAGGGUAUUUUAU 182930 CFTR-R117H-403 − AAUUCUCAGGGUAUUUUAU 19 2931 CFTR-R117H-404 −AAAUUCUCAGGGUAUUUUAU 20 2932 CFTR-R117H-405 − GAAAUUCUCAGGGUAUUUUAU 212933 CFTR-R117H-406 − UGAAAUUCUCAGGGUAUUUUAU 22 2934 CFTR-R117H-407 −UUGAAAUUCUCAGGGUAUUUUAU 23 2935 CFTR-R117H-408 −GUUGAAAUUCUCAGGGUAUUUUAU 24 2936 CFTR-R117H-409 − AGUACAGCCUCUCUUACU 182937 CFTR-R117H-410 − CAGUACAGCCUCUCUUACU 19 2938 CFTR-R117H-15 −GCAGUACAGCCUCUCUUACU 20 2543 CFTR-R117H-411 − AGCAGUACAGCCUCUCUUACU 212939 CFTR-R117H-412 − AAGCAGUACAGCCUCUCUUACU 22 2940 CFTR-R117H-413 −AAAGCAGUACAGCCUCUCUUACU 23 2941 CFTR-R117H-414 −CAAAGCAGUACAGCCUCUCUUACU 24 2942 CFTR-R117H-415 − AUGCCUUCUCUUUAUUGU 182943 CFTR-R117H-416 − UAUGCCUUCUCUUUAUUGU 19 2944 CFTR-R117H-417 −UUAUGCCUUCUCUUUAUUGU 20 2945 CFTR-R117H-418 − CUUAUGCCUUCUCUUUAUUGU 212946 CFTR-R117H-419 − GCUUAUGCCUUCUCUUUAUUGU 22 2947 CFTR-R117H-420 −GGCUUAUGCCUUCUCUUUAUUGU 23 2948 CFTR-R117H-421 −AGGCUUAUGCCUUCUCUUUAUUGU 24 2949 CFTR-R117H-422 − CUGUUUUUCCCCUUUUGU 182950 CFTR-R117H-423 − UCUGUUUUUCCCCUUUUGU 19 2951 CFTR-R117H-74 −CUCUGUUUUUCCCCUUUUGU 20 2602 CFTR-R117H-424 − UCUCUGUUUUUCCCCUUUUGU 212952 CFTR-R117H-425 − UUCUCUGUUUUUCCCCUUUUGU 22 2953 CFTR-R117H-426 −UUUCUCUGUUUUUCCCCUUUUGU 23 2954 CFTR-R117H-427 −AUUUCUCUGUUUUUCCCCUUUUGU 24 2955 CFTR-R117H-428 − UUAUGCCUUCUCUUUAUU 182956 CFTR-R117H-429 − CUUAUGCCUUCUCUUUAUU 19 2957 CFTR-R117H-430 −GCUUAUGCCUUCUCUUUAUU 20 2958 CFTR-R117H-431 − GGCUUAUGCCUUCUCUUUAUU 212959 CFTR-R117H-432 − AGGCUUAUGCCUUCUCUUUAUU 22 2960 CFTR-R117H-433 −UAGGCUUAUGCCUUCUCUUUAUU 23 2961 CFTR-R117H-434 −AUAGGCUUAUGCCUUCUCUUUAUU 24 2962 CFTR-R117H-435 − AAAUUCUCAGGGUAUUUU 182963 CFTR-R117H-436 − GAAAUUCUCAGGGUAUUUU 19 2964 CFTR-R117H-437 −UGAAAUUCUCAGGGUAUUUU 20 2965 CFTR-R117H-438 − UUGAAAUUCUCAGGGUAUUUU 212966 CFTR-R117H-439 − GUUGAAAUUCUCAGGGUAUUUU 22 2967 CFTR-R117H-440 −UGUUGAAAUUCUCAGGGUAUUUU 23 2968 CFTR-R117H-441 −GUGUUGAAAUUCUCAGGGUAUUUU 24 2969

Table 24A provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 24A 1st Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-442 + GUUAUCCGGGUCAUAGGAAG 20 2970

Table 24B provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H) and have a high level of orthogonality. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a N. meningitidis Cas9 moleculethat generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 24B 2nd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-443 − UCGCGAUUUAUCUAGGC 17 2971 CFTR-R117H-444 +AUCCGGGUCAUAGGAAG 17 2972 CFTR-R117H-445 − CUCUUACUGGGAAGAAU 17 2973CFTR-R117H-446 − CUAUCGCGAUUUAUCUAGGC 20 2974 CFTR-R117H-447 +CUUCCCAGUAAGAGAGGCUG 20 2975 CFTR-R117H-448 − CCUCUCUUACUGGGAAGAAU 202976

Table 24C provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H) and start with a 5′G. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a N. meningitidis Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 24C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-R117H-449 − GAGAAUAGCUAUGUUUA 17 2977 CFTR-R117H-450 −GAUGAGAAUAGCUAUGUUUA 20 2978

Table 24D provides exemplary targeting domains for correcting a mutation(e.g., R117H) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R117H). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha N. meningitidis Cas9 molecule that generates a double stranded break(Cas9 nuclease) or a single-stranded break (Cas9 nickase).

TABLE 24D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R117H-451 - CAAGGAGGAACACUCUA 17 2979CFTR-R117H-452 + CCCAGUAAGAGAGGCUG 17 2980 CFTR-R117H-453 −UAACAAGGAGGAACACUCUA 20 2981

Table 25A provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 25A 1st Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-1 - GCUUUAUAUUCUGUUUC 17 466 CFTR-R553X-2 -GGUGGAAUCACACUGAG 17 456 CFTR-R553X-3 - GGAAUCACACUGAGUGG 17 457CFTR-R553X-4 - GUUCAAAAUUUCAACUG 17 464 CFTR-R553X-5 - GGUGAAUAACUAAUUAU17 465 CFTR-R553X-6 - GGGGUUUUAUGGCUAGU 17 458 CFTR-R553X-7 -GAGCAAGAAUUUCUUUAGCA 20 462 CFTR-R553X-8 - GACAAUAUAGUUCUUGGAGA 20 460CFTR-R553X-9 - GAAGGUGGAAUCACACUGAG 20 461 CFTR-R553X-10 -GGUGGAAUCACACUGAGUGG 20 454 CFTR-R553X-11 - GAGAAAGACAAUAUAGUUCU 20 453

Table 25B provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X) and have a high level of orthogonality. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. pyogenes Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 25B 2nd Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-R553X-12 + CUCAAUCUGAAUUUGAA 17 496 CFTR-R553X-13 -CAAGAAUUUCUUUAGCA 17 491 CFTR-R553X-14 - AAUAUAGUUCUUGGAGA 17 489CFTR-R553X-15 - UAUAUGAUUACAUUAGA 17 485 CFTR-R553X-16 -AAAAUCCUGGGGUUUUA 17 493 CFTR-R553X-17 + ACUAGCCAUAAAACCCC 17 459CFTR-R553X-18 - UGGGGUUUUAUGGCUAG 17 494 CFTR-R553X-19 -AUAGUUCUUGGAGAAGG 17 490 CFTR-R553X-20 - AAAGACAAUAUAGUUCU 17 488CFTR-R553X-21 + AUGCUCAAUCUGAAUUUGAA 20 484 CFTR-R553X-22 -UGAUAUAUGAUUACAUUAGA 20 471 CFTR-R553X-23 + CCCACUAGCCAUAAAACCCC 20 455CFTR-R553X-24 - UUCUGGAAUUGAAAAAAUCC 20 477 CFTR-R553X-25 -AAUAUAGUUCUUGGAGAAGG 20 474 CFTR-R553X-26 - CUGGAAUUGAAAAAAUCCUG 20 479CFTR-R553X-27 - CAAGGUGAAUAACUAAUUAU 20 475 CFTR-R553X-28 -CCUGGGGUUUUAUGGCUAGU 20 481

Table 25C provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X) and start with a 5′G. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. pyogenes Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 25C 3rd Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-R553X-29 - GAAUUGAAAAAAUCCUG 17 468 CFTR-R553X-30 +GUCUUUCUCUGCAAACU 17 469 CFTR-R553X-31 - GGAAUUGAAAAAAUCCU 17 467CFTR-R553X-32 - GAAAAAAUCCUGGGGUUUUA 20 463

Table 25D provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 25D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-33 - UUAAGAACUAUAAAUAA 17 495 CFTR-R553X-34 -UGGAAUUGAAAAAAUCC 17 492 CFTR-R553X-35 - UUUCUAUUUUUGGUAAU 17 487CFTR-R553X-36 - CUCUAAUUUUCUAUUUU 17 486 CFTR-R553X-37 -CAUUUAAGAACUAUAAAUAA 20 482 CFTR-R553X-38 - AUUGCUUUAUAUUCUGUUUC 20 476CFTR-R553X-39 - UCCUGGGGUUUUAUGGCUAG 20 480 CFTR-R553X-40 -AAUUUUCUAUUUUUGGUAAU 20 473 CFTR-R553X-41 + AUUGUCUUUCUCUGCAAACU 20 483CFTR-R553X-42 - UCUGGAAUUGAAAAAAUCCU 20 478 CFTR-R553X-43 -ACUCUCUAAUUUUCUAUUUU 20 472

Table 26A provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X), have a high level of orthogonality, start with a 5′G, andPAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 26A 1st Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-44 + GAUUUUUUCAAUUCCAGAAA 20 766CFTR-R553X-45 + GGAUUUUUUCAAUUCCAGAAA 21 1898 CFTR-R553X-46 +GUCACUUUUAGUAUGCUCAAU 21 1899 CFTR-R553X-47 + GAGUCACUUUUAGUAUGCUCAAU 231900 CFTR-R553X-48 - GGAGAAGGUGGAAUCACA 18 2160 CFTR-R553X-49 -GUUCUUGGAGAAGGUGGAAUCACA 24 2161 CFTR-R553X-50 - GCAAGAAUUUCUUUAGCAAG 20746 CFTR-R553X-51 - GACAAUAUAGUUCUUGGAGAAGG 23 2162 CFTR-R553X-52 -GUUUUAUGGCUAGUGGGUU 19 1903 CFTR-R553X-53 - GGUUUUAUGGCUAGUGGGUU 20 751CFTR-R553X-54 - GGGUUUUAUGGCUAGUGGGUU 21 1904 CFTR-R553X-55 -GGGGUUUUAUGGCUAGUGGGUU 22 1905

Table 26B provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X), have a high level of orthogonality and PAM is NNGRRT. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 26B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-56 + UUUUUUCAAUUCCAGAAA 18 1906 CFTR-R553X-57 +AUUUUUUCAAUUCCAGAAA 19 1907 CFTR-R553X-58 + AGGAUUUUUUCAAUUCCAGAAA 221908 CFTR-R553X-59 + CAGGAUUUUUUCAAUUCCAGAAA 23 1909 CFTR-R553X-60 +CCAGGAUUUUUUCAAUUCCAGAAA 24 1910 CFTR-R553X-61 + UGUCUGUAAUUUUUUUAC 181911 CFTR-R553X-62 + AUGUCUGUAAUUUUUUUAC 19 1912 CFTR-R553X-63 +AAUGUCUGUAAUUUUUUUAC 20 763 CFTR-R553X-64 + CCACUAGCCAUAAAACCC 18 1913CFTR-R553X-65 + CCCACUAGCCAUAAAACCC 19 1914 CFTR-R553X-66 +ACCCACUAGCCAUAAAACCC 20 1915 CFTR-R553X-67 + AACCCACUAGCCAUAAAACCC 211916 CFTR-R553X-68 + UAACCCACUAGCCAUAAAACCC 22 1917 CFTR-R553X-69 +UUAACCCACUAGCCAUAAAACCC 23 1918 CFTR-R553X-70 + CUUAACCCACUAGCCAUAAAACCC24 1919 CFTR-R553X-71 + ACUUUUAGUAUGCUCAAU 18 1920 CFTR-R553X-72 +CACUUUUAGUAUGCUCAAU 19 1921 CFTR-R553X-73 + UCACUUUUAGUAUGCUCAAU 20 756CFTR-R553X-74 + AGUCACUUUUAGUAUGCUCAAU 22 1922 CFTR-R553X-75 +AGAGUCACUUUUAGUAUGCUCAAU 24 1923 CFTR-R553X-76 - UGGAGAAGGUGGAAUCACA 192163 CFTR-R553X-77 - UUGGAGAAGGUGGAAUCACA 20 742 CFTR-R553X-78 -CUUGGAGAAGGUGGAAUCACA 21 2164 CFTR-R553X-79 - UCUUGGAGAAGGUGGAAUCACA 222165 CFTR-R553X-80 - UUCUUGGAGAAGGUGGAAUCACA 23 2166 CFTR-R553X-81 -CCUGGGGUUUUAUGGCUA 18 1924 CFTR-R553X-82 - UCCUGGGGUUUUAUGGCUA 19 1925CFTR-R553X-83 - AUCCUGGGGUUUUAUGGCUA 20 750 CFTR-R553X-84 -AAUCCUGGGGUUUUAUGGCUA 21 1926 CFTR-R553X-85 - AAAUCCUGGGGUUUUAUGGCUA 221927 CFTR-R553X-86 - AAAAUCCUGGGGUUUUAUGGCUA 23 1928 CFTR-R553X-87 -AAAAAUCCUGGGGUUUUAUGGCUA 24 1929 CFTR-R553X-88 - UGCUUUAUAUUCUGUUUC 181931 CFTR-R553X-89 - UUGCUUUAUAUUCUGUUUC 19 1932 CFTR-R553X-38 -AUUGCUUUAUAUUCUGUUUC 20 476 CFTR-R553X-90 - UAUUGCUUUAUAUUCUGUUUC 211933 CFTR-R553X-91 - CUAUUGCUUUAUAUUCUGUUUC 22 1934 CFTR-R553X-92 -UCUAUUGCUUUAUAUUCUGUUUC 23 1935 CFTR-R553X-93 - CUCUAUUGCUUUAUAUUCUGUUUC24 1936 CFTR-R553X-94 - AAGAAUUUCUUUAGCAAG 18 1937 CFTR-R553X-95 -CAAGAAUUUCUUUAGCAAG 19 1938 CFTR-R553X-96 - UAUAGUUCUUGGAGAAGG 18 2167CFTR-R553X-97 - AUAUAGUUCUUGGAGAAGG 19 2168 CFTR-R553X-25 -AAUAUAGUUCUUGGAGAAGG 20 474 CFTR-R553X-98 - CAAUAUAGUUCUUGGAGAAGG 212169 CFTR-R553X-99 - ACAAUAUAGUUCUUGGAGAAGG 22 2170 CFTR-R553X-100 -AGACAAUAUAGUUCUUGGAGAAGG 24 2171 CFTR-R553X-101 - UUUUAUGGCUAGUGGGUU 181942 CFTR-R553X-102 - UGGGGUUUUAUGGCUAGUGGGUU 23 1943 CFTR-R553X-103 -CUGGGGUUUUAUGGCUAGUGGGUU 24 1944

Table 26C provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X), start with a 5′G and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 26C 3rd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-104 + GAAAUGUCUGUAAUUUUUUUAC 22 1945CFTR-R553X-105 + GAGAAAUGUCUGUAAUUUUUUUAC 24 1946 CFTR-R553X-106 -GUUUCUGGAAUUGAAAAAAUCC 22 1948 CFTR-R553X-107 - GAGUGGAGGUCAAUGAGC 182982 CFTR-R553X-108 - GAGCAAGAAUUUCUUUAGCAAG 22 1902

Table 26D provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X), and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 26D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-109 + ACCAAAAAUAGAAAAUUA 18 1950CFTR-R553X-110 + UACCAAAAAUAGAAAAUUA 19 1951 CFTR-R553X-111 +UUACCAAAAAUAGAAAAUUA 20 757 CFTR-R553X-112 + AUUACCAAAAAUAGAAAAUUA 211952 CFTR-R553X-113 + UAUUACCAAAAAUAGAAAAUUA 22 1953 CFTR-R553X-114 +CUAUUACCAAAAAUAGAAAAUUA 23 1954 CFTR-R553X-115 +CCUAUUACCAAAAAUAGAAAAUUA 24 1955 CFTR-R553X-116 + AAAUGUCUGUAAUUUUUUUAC21 1956 CFTR-R553X-117 + AGAAAUGUCUGUAAUUUUUUUAC 23 1957CFTR-R553X-118 - CUGGAAUUGAAAAAAUCC 18 1964 CFTR-R553X-119 -UCUGGAAUUGAAAAAAUCC 19 1965 CFTR-R553X-24 - UUCUGGAAUUGAAAAAAUCC 20 477CFTR-R553X-120 - UUUCUGGAAUUGAAAAAAUCC 21 1966 CFTR-R553X-121 -UGUUUCUGGAAUUGAAAAAAUCC 23 1967 CFTR-R553X-122 -CUGUUUCUGGAAUUGAAAAAAUCC 24 1968 CFTR-R553X-123 - UGAGUGGAGGUCAAUGAGC 192983 CFTR-R553X-124 - CUGAGUGGAGGUCAAUGAGC 20 2984 CFTR-R553X-125 -ACUGAGUGGAGGUCAAUGAGC 21 2985 CFTR-R553X-126 - CACUGAGUGGAGGUCAAUGAGC 222986 CFTR-R553X-127 - ACACUGAGUGGAGGUCAAUGAGC 23 2987 CFTR-R553X-128 -CACACUGAGUGGAGGUCAAUGAGC 24 2988 CFTR-R553X-129 - AGCAAGAAUUUCUUUAGCAAG21 1939 CFTR-R553X-130 - UGAGCAAGAAUUUCUUUAGCAAG 23 2989CFTR-R553X-131 - AUGAGCAAGAAUUUCUUUAGCAAG 24 2990

Table 26E provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X), and PAM is NNGRRV. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 26E 5th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-132 + AUGUCCUAUUACCAAAAA 18 1978CFTR-R553X-133 + GAUGUCCUAUUACCAAAAA 19 1979 CFTR-R553X-134 +AGAUGUCCUAUUACCAAAAA 20 759 CFTR-R553X-135 + GAGAUGUCCUAUUACCAAAAA 211980 CFTR-R553X-136 + GGAGAUGUCCUAUUACCAAAAA 22 1981 CFTR-R553X-137 +UGGAGAUGUCCUAUUACCAAAAA 23 1982 CFTR-R553X-138 +UUGGAGAUGUCCUAUUACCAAAAA 24 1983 CFTR-R553X-139 + AAACAGAAUAUAAAGCAA 181984 CFTR-R553X-140 + GAAACAGAAUAUAAAGCAA 19 1985 CFTR-R553X-141 +AGAAACAGAAUAUAAAGCAA 20 765 CFTR-R553X-142 + CAGAAACAGAAUAUAAAGCAA 211986 CFTR-R553X-143 + CCAGAAACAGAAUAUAAAGCAA 22 1987 CFTR-R553X-144 +UCCAGAAACAGAAUAUAAAGCAA 23 1988 CFTR-R553X-145 +UUCCAGAAACAGAAUAUAAAGCAA 24 1989 CFTR-R553X-146 + ACAGAAUAUAAAGCAAUA 181997 CFTR-R553X-147 + AACAGAAUAUAAAGCAAUA 19 1998 CFTR-R553X-148 +AAACAGAAUAUAAAGCAAUA 20 764 CFTR-R553X-149 + GAAACAGAAUAUAAAGCAAUA 211999 CFTR-R553X-150 + AGAAACAGAAUAUAAAGCAAUA 22 2000 CFTR-R553X-151 +CAGAAACAGAAUAUAAAGCAAUA 23 2001 CFTR-R553X-152 +CCAGAAACAGAAUAUAAAGCAAUA 24 2002 CFTR-R553X-153 + UAGUUAUUCACCUUGCUA 182003 CFTR-R553X-154 + UUAGUUAUUCACCUUGCUA 19 2004 CFTR-R553X-155 +AUUAGUUAUUCACCUUGCUA 20 762 CFTR-R553X-156 + AAUUAGUUAUUCACCUUGCUA 212005 CFTR-R553X-157 + UAAUUAGUUAUUCACCUUGCUA 22 2006 CFTR-R553X-158 +AUAAUUAGUUAUUCACCUUGCUA 23 2007 CFTR-R553X-159 +AAUAAUUAGUUAUUCACCUUGCUA 24 2008 CFTR-R553X-160 + UUGUCUUUCUCUGCAAAC 182009 CFTR-R553X-161 + AUUGUCUUUCUCUGCAAAC 19 2010 CFTR-R553X-162 +UAUUGUCUUUCUCUGCAAAC 20 760 CFTR-R553X-163 + AUAUUGUCUUUCUCUGCAAAC 212011 CFTR-R553X-164 + UAUAUUGUCUUUCUCUGCAAAC 22 2012 CFTR-R553X-165 +CUAUAUUGUCUUUCUCUGCAAAC 23 2013 CFTR-R553X-166 +ACUAUAUUGUCUUUCUCUGCAAAC 24 2014 CFTR-R553X-167 + UGUGAUUCCACCUUCUCC 182179 CFTR-R553X-168 + GUGUGAUUCCACCUUCUCC 19 2180 CFTR-R553X-169 +AGUGUGAUUCCACCUUCUCC 20 761 CFTR-R553X-170 + CAGUGUGAUUCCACCUUCUCC 212181 CFTR-R553X-171 + UCAGUGUGAUUCCACCUUCUCC 22 2182 CFTR-R553X-172 +CUCAGUGUGAUUCCACCUUCUCC 23 2183 CFTR-R553X-173 +ACUCAGUGUGAUUCCACCUUCUCC 24 2184 CFTR-R553X-174 + CCAGGAUUUUUUCAAUUC 182015 CFTR-R553X-175 + CCCAGGAUUUUUUCAAUUC 19 2016 CFTR-R553X-176 +CCCCAGGAUUUUUUCAAUUC 20 767 CFTR-R553X-177 + ACCCCAGGAUUUUUUCAAUUC 212017 CFTR-R553X-178 + AACCCCAGGAUUUUUUCAAUUC 22 2018 CFTR-R553X-179 +AAACCCCAGGAUUUUUUCAAUUC 23 2019 CFTR-R553X-180 +AAAACCCCAGGAUUUUUUCAAUUC 24 2020 CFTR-R553X-181 + CUAUUGCUUUAACCACAG 182021 CFTR-R553X-182 + ACUAUUGCUUUAACCACAG 19 2022 CFTR-R553X-183 +CACUAUUGCUUUAACCACAG 20 754 CFTR-R553X-184 + ACACUAUUGCUUUAACCACAG 212023 CFTR-R553X-185 + CACACUAUUGCUUUAACCACAG 22 2024 CFTR-R553X-186 +UCACACUAUUGCUUUAACCACAG 23 2025 CFTR-R553X-187 +AUCACACUAUUGCUUUAACCACAG 24 2026 CFTR-R553X-188 + UUACCAAAAAUAGAAAAU 182027 CFTR-R553X-189 + AUUACCAAAAAUAGAAAAU 19 2028 CFTR-R553X-190 +UAUUACCAAAAAUAGAAAAU 20 758 CFTR-R553X-191 + CUAUUACCAAAAAUAGAAAAU 212029 CFTR-R553X-192 + CCUAUUACCAAAAAUAGAAAAU 22 2030 CFTR-R553X-193 +UCCUAUUACCAAAAAUAGAAAAU 23 2031 CFTR-R553X-194 +GUCCUAUUACCAAAAAUAGAAAAU 24 2032 CFTR-R553X-195 + AGUAUGCUCAAUCUGAAU 182033 CFTR-R553X-196 + UAGUAUGCUCAAUCUGAAU 19 2034 CFTR-R553X-197 +UUAGUAUGCUCAAUCUGAAU 20 755 CFTR-R553X-198 + UUUAGUAUGCUCAAUCUGAAU 212035 CFTR-R553X-199 + UUUUAGUAUGCUCAAUCUGAAU 22 2036 CFTR-R553X-200 +CUUUUAGUAUGCUCAAUCUGAAU 23 2037 CFTR-R553X-201 +ACUUUUAGUAUGCUCAAUCUGAAU 24 2038 CFTR-R553X-202 + UGUCUUUCUCUGCAAACU 182039 CFTR-R553X-203 + UUGUCUUUCUCUGCAAACU 19 2040 CFTR-R553X-41 +AUUGUCUUUCUCUGCAAACU 20 483 CFTR-R553X-204 + UAUUGUCUUUCUCUGCAAACU 212041 CFTR-R553X-205 + AUAUUGUCUUUCUCUGCAAACU 22 2042 CFTR-R553X-206 +UAUAUUGUCUUUCUCUGCAAACU 23 2043 CFTR-R553X-207 +CUAUAUUGUCUUUCUCUGCAAACU 24 2044 CFTR-R553X-208 + UUAACCACAGUUGAAAUU 182045 CFTR-R553X-209 + UUUAACCACAGUUGAAAUU 19 2046 CFTR-R553X-210 +CUUUAACCACAGUUGAAAUU 20 753 CFTR-R553X-211 + GCUUUAACCACAGUUGAAAUU 212047 CFTR-R553X-212 + UGCUUUAACCACAGUUGAAAUU 22 2048 CFTR-R553X-213 +UUGCUUUAACCACAGUUGAAAUU 23 2049 CFTR-R553X-214 +AUUGCUUUAACCACAGUUGAAAUU 24 2050 CFTR-R553X-215 - UAUAUUCUGUUUCUGGAA 182051 CFTR-R553X-216 - UUAUAUUCUGUUUCUGGAA 19 2052 CFTR-R553X-217 -UUUAUAUUCUGUUUCUGGAA 20 748 CFTR-R553X-218 - CUUUAUAUUCUGUUUCUGGAA 212053 CFTR-R553X-219 - GCUUUAUAUUCUGUUUCUGGAA 22 2054 CFTR-R553X-220 -UGCUUUAUAUUCUGUUUCUGGAA 23 2055 CFTR-R553X-221 -UUGCUUUAUAUUCUGUUUCUGGAA 24 2056 CFTR-R553X-222 - AUUUUCUAUUUUUGGUAA 182059 CFTR-R553X-223 - AAUUUUCUAUUUUUGGUAA 19 2060 CFTR-R553X-224 -UAAUUUUCUAUUUUUGGUAA 20 736 CFTR-R553X-225 - CUAAUUUUCUAUUUUUGGUAA 212061 CFTR-R553X-226 - UCUAAUUUUCUAUUUUUGGUAA 22 2062 CFTR-R553X-227 -CUCUAAUUUUCUAUUUUUGGUAA 23 2063 CFTR-R553X-228 -UCUCUAAUUUUCUAUUUUUGGUAA 24 2064 CFTR-R553X-229 - GACAUCUCCAAGUUUGCA 182065 CFTR-R553X-230 - GGACAUCUCCAAGUUUGCA 19 2066 CFTR-R553X-231 -AGGACAUCUCCAAGUUUGCA 20 738 CFTR-R553X-232 - UAGGACAUCUCCAAGUUUGCA 212067 CFTR-R553X-233 - AUAGGACAUCUCCAAGUUUGCA 22 2068 CFTR-R553X-234 -AAUAGGACAUCUCCAAGUUUGCA 23 2069 CFTR-R553X-235 -UAAUAGGACAUCUCCAAGUUUGCA 24 2070 CFTR-R553X-236 - CACACUGAGUGGAGGUCA 182071 CFTR-R553X-237 - UCACACUGAGUGGAGGUCA 19 2072 CFTR-R553X-238 -AUCACACUGAGUGGAGGUCA 20 744 CFTR-R553X-239 - AAUCACACUGAGUGGAGGUCA 212073 CFTR-R553X-240 - GAAUCACACUGAGUGGAGGUCA 22 2074 CFTR-R553X-241 -GGAAUCACACUGAGUGGAGGUCA 23 2075 CFTR-R553X-242 -UGGAAUCACACUGAGUGGAGGUCA 24 2076 CFTR-R553X-243 - GUGCCUUUCAAAUUCAGA 182077 CFTR-R553X-244 - UGUGCCUUUCAAAUUCAGA 19 2078 CFTR-R553X-245 -AUGUGCCUUUCAAAUUCAGA 20 735 CFTR-R553X-246 - GAUGUGCCUUUCAAAUUCAGA 212079 CFTR-R553X-247 - AGAUGUGCCUUUCAAAUUCAGA 22 2080 CFTR-R553X-248 -AAGAUGUGCCUUUCAAAUUCAGA 23 2081 CFTR-R553X-249 -GAAGAUGUGCCUUUCAAAUUCAGA 24 2082 CFTR-R553X-250 - AUAUAUGAUUACAUUAGA 182083 CFTR-R553X-251 - GAUAUAUGAUUACAUUAGA 19 2084 CFTR-R553X-22 -UGAUAUAUGAUUACAUUAGA 20 471 CFTR-R553X-252 - GUGAUAUAUGAUUACAUUAGA 212085 CFTR-R553X-253 - UGUGAUAUAUGAUUACAUUAGA 22 2086 CFTR-R553X-254 -GUGUGAUAUAUGAUUACAUUAGA 23 2087 CFTR-R553X-255 -AGUGUGAUAUAUGAUUACAUUAGA 24 2088 CFTR-R553X-256 - AAGGUGGAAUCACACUGA 182089 CFTR-R553X-257 - GAAGGUGGAAUCACACUGA 19 2090 CFTR-R553X-258 -AGAAGGUGGAAUCACACUGA 20 743 CFTR-R553X-259 - GAGAAGGUGGAAUCACACUGA 212091 CFTR-R553X-260 - GGAGAAGGUGGAAUCACACUGA 22 2192 CFTR-R553X-261 -UGGAGAAGGUGGAAUCACACUGA 23 2193 CFTR-R553X-262 -UUGGAGAAGGUGGAAUCACACUGA 24 2194 CFTR-R553X-263 - UCUGGAAUUGAAAAAAUC 182098 CFTR-R553X-264 - UUCUGGAAUUGAAAAAAUC 19 2099 CFTR-R553X-265 -UUUCUGGAAUUGAAAAAAUC 20 749 CFTR-R553X-266 - GUUUCUGGAAUUGAAAAAAUC 212100 CFTR-R553X-267 - UGUUUCUGGAAUUGAAAAAAUC 22 2101 CFTR-R553X-268 -CUGUUUCUGGAAUUGAAAAAAUC 23 2102 CFTR-R553X-269 -UCUGUUUCUGGAAUUGAAAAAAUC 24 2103 CFTR-R553X-270 - AGAAAGACAAUAUAGUUC 182195 CFTR-R553X-271 - GAGAAAGACAAUAUAGUUC 19 2196 CFTR-R553X-272 -AGAGAAAGACAAUAUAGUUC 20 739 CFTR-R553X-273 - CAGAGAAAGACAAUAUAGUUC 212197 CFTR-R553X-274 - GCAGAGAAAGACAAUAUAGUUC 22 2198 CFTR-R553X-275 -UGCAGAGAAAGACAAUAUAGUUC 23 2199 CFTR-R553X-276 -UUGCAGAGAAAGACAAUAUAGUUC 24 2200 CFTR-R553X-277 - AUAUAGUUCUUGGAGAAG 182201 CFTR-R553X-278 - AAUAUAGUUCUUGGAGAAG 19 2202 CFTR-R553X-279 -CAAUAUAGUUCUUGGAGAAG 20 741 CFTR-R553X-280 - ACAAUAUAGUUCUUGGAGAAG 212203 CFTR-R553X-281 - GACAAUAUAGUUCUUGGAGAAG 22 2204 CFTR-R553X-282 -AGACAAUAUAGUUCUUGGAGAAG 23 2205 CFTR-R553X-283 -AAGACAAUAUAGUUCUUGGAGAAG 24 2206 CFTR-R553X-284 - AGGUGGAAUCACACUGAG 182111 CFTR-R553X-285 - AAGGUGGAAUCACACUGAG 19 2112 CFTR-R553X-9 -GAAGGUGGAAUCACACUGAG 20 461 CFTR-R553X-286 - AGAAGGUGGAAUCACACUGAG 212113 CFTR-R553X-287 - GAGAAGGUGGAAUCACACUGAG 22 2114 CFTR-R553X-288 -GGAGAAGGUGGAAUCACACUGAG 23 2207 CFTR-R553X-289 -UGGAGAAGGUGGAAUCACACUGAG 24 2208 CFTR-R553X-290 - GAUAUAUGAUUACAUUAG 182117 CFTR-R553X-291 - UGAUAUAUGAUUACAUUAG 19 2118 CFTR-R553X-292 -GUGAUAUAUGAUUACAUUAG 20 734 CFTR-R553X-293 - UGUGAUAUAUGAUUACAUUAG 212119 CFTR-R553X-294 - GUGUGAUAUAUGAUUACAUUAG 22 2120 CFTR-R553X-295 -AGUGUGAUAUAUGAUUACAUUAG 23 2121 CFTR-R553X-296 -UAGUGUGAUAUAUGAUUACAUUAG 24 2122 CFTR-R553X-297 - AAGACAAUAUAGUUCUUG 182209 CFTR-R553X-298 - AAAGACAAUAUAGUUCUUG 19 2210 CFTR-R553X-299 -GAAAGACAAUAUAGUUCUUG 20 740 CFTR-R553X-300 - AGAAAGACAAUAUAGUUCUUG 212211 CFTR-R553X-301 - GAGAAAGACAAUAUAGUUCUUG 22 2212 CFTR-R553X-302 -AGAGAAAGACAAUAUAGUUCUUG 23 2213 CFTR-R553X-303 -CAGAGAAAGACAAUAUAGUUCUUG 24 2214 CFTR-R553X-304 - AGGACAUCUCCAAGUUUG 182123 CFTR-R553X-305 - UAGGACAUCUCCAAGUUUG 19 2124 CFTR-R553X-306 -AUAGGACAUCUCCAAGUUUG 20 737 CFTR-R553X-307 - AAUAGGACAUCUCCAAGUUUG 212125 CFTR-R553X-308 - UAAUAGGACAUCUCCAAGUUUG 22 2126 CFTR-R553X-309 -GUAAUAGGACAUCUCCAAGUUUG 23 2127 CFTR-R553X-310 -GGUAAUAGGACAUCUCCAAGUUUG 24 2128 CFTR-R553X-311 - UGUGAUAUAUGAUUACAU 182129 CFTR-R553X-312 - GUGUGAUAUAUGAUUACAU 19 2130 CFTR-R553X-313 -AGUGUGAUAUAUGAUUACAU 20 733 CFTR-R553X-314 - UAGUGUGAUAUAUGAUUACAU 212131 CFTR-R553X-315 - AUAGUGUGAUAUAUGAUUACAU 22 2132 CFTR-R553X-316 -AAUAGUGUGAUAUAUGAUUACAU 23 2133 CFTR-R553X-317 -CAAUAGUGUGAUAUAUGAUUACAU 24 2134 CFTR-R553X-318 - GAAAGACAAUAUAGUUCU 182135 CFTR-R553X-319 - AGAAAGACAAUAUAGUUCU 19 2136 CFTR-R553X-11 -GAGAAAGACAAUAUAGUUCU 20 453 CFTR-R553X-320 - AGAGAAAGACAAUAUAGUUCU 212137 CFTR-R553X-321 - CAGAGAAAGACAAUAUAGUUCU 22 2138 CFTR-R553X-322 -GCAGAGAAAGACAAUAUAGUUCU 23 2139 CFTR-R553X-323 -UGCAGAGAAAGACAAUAUAGUUCU 24 2140 CFTR-R553X-324 - GGGUUAAGAAUCACAUUU 182215 CFTR-R553X-325 - UGGGUUAAGAAUCACAUUU 19 2216 CFTR-R553X-326 -GUGGGUUAAGAAUCACAUUU 20 752 CFTR-R553X-327 - AGUGGGUUAAGAAUCACAUUU 212217 CFTR-R553X-328 - UAGUGGGUUAAGAAUCACAUUU 22 2218 CFTR-R553X-329 -CUAGUGGGUUAAGAAUCACAUUU 23 2219 CFTR-R553X-330 -GCUAGUGGGUUAAGAAUCACAUUU 24 2220 CFTR-R553X-331 - UUGCUUUAUAUUCUGUUU 182148 CFTR-R553X-332 - AUUGCUUUAUAUUCUGUUU 19 2149 CFTR-R553X-333 -UAUUGCUUUAUAUUCUGUUU 20 747 CFTR-R553X-334 - CUAUUGCUUUAUAUUCUGUUU 212150 CFTR-R553X-335 - UCUAUUGCUUUAUAUUCUGUUU 22 2151 CFTR-R553X-336 -CUCUAUUGCUUUAUAUUCUGUUU 23 2152 CFTR-R553X-337 -UCUCUAUUGCUUUAUAUUCUGUUU 24 2153

Table 27A provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 27A 1st Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-338 + GUAAUCAUAUAUCACAC 17 2154CFTR-R553X-339 - GGUUAAAGCAAUAGUGUGAU 20 927

Table 27B provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X) and have a high level of orthogonality. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a N. meningitidis Cas9 moleculethat generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 27B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-340 + CCACUAGCCAUAAAACC 17 935 CFTR-R553X-341 +UGAAUGACAUUUACAGC 17 2155 CFTR-R553X-342 - UAAAGCAAUAGUGUGAU 17 932CFTR-R553X-343 - AGGAAGAUGUGCCUUUCAAA 20 928 CFTR-R553X-344 +AAUGUAAUCAUAUAUCACAC 20 2156 CFTR-R553X-345 + AACCCACUAGCCAUAAAACC 20930 CFTR-R553X-346 + ACAUGAAUGACAUUUACAGC 20 2157

Table 27C provides exemplary targeting domains for correcting a mutation(e.g., R553X) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., R553X). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha N. meningitidis Cas9 molecule that generates a double stranded break(Cas9 nuclease) or a single-stranded break (Cas9 nickase).

TABLE 27C 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-R553X-347 - AAGAUGUGCCUUUCAAA 17 933 CFTR-R553X-348 +UUAUUUAUAGUUCUUAA 17 936 CFTR-R553X-349 + UCAUUGACCUCCACUCA 17 2991CFTR-R553X-350 - AAUUACAGACAUUUCUC 17 2158 CFTR-R553X-351 +CCAUUAUUUAUAGUUCUUAA 20 931 CFTR-R553X-352 + UGCUCAUUGACCUCCACUCA 202992 CFTR-R553X-353 - AAAAAUUACAGACAUUUCUC 20 2159

Table 28A provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table lean be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 28A 1st Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-W1282X-1 - GAAUUAUGUUUAUGGCA 17 2993 CFTR-W1282X-2 -GGAGAAAUCCAGAUCGA 17 2994 CFTR-W1282X-3 - GGCCUCUUGGGAAGAAC 17 2995CFTR-W1282X-4 + GUCCUUUUGCUCACCUG 17 2996 CFTR-W1282X-5 -GAUCGAUGGUGUGUCUU 17 2997 CFTR-W1282X-6 - GAAGGAGAAAUCCAGAUCGA 20 2998CFTR-W1282X-7 - GUGGGCCUCUUGGGAAGAAC 20 2999

Table 28B provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X) and have a high level of orthogonality. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table 1 can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 28B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-W1282X-8 - UACCACAGGUGAGCAAA 17 3000 CFTR-W1282X-9 +CUGUGGUAUCACUCCAA 17 3001 CFTR-W1282X-10 - AGACUACUGAACACUGA 17 3002CFTR-W1282X-11 + CUAUAAGGUAAAAGUGA 17 3003 CFTR-W1282X-12 -UAACUUUGCAACAGUGA 17 3004 CFTR-W1282X-13 + CAAGAGGCCCACCUAUA 17 3005CFTR-W1282X-14 - CUUUGGAGUGAUACCAC 17 3006 CFTR-W1282X-15 +CUAUGAGAAAACUGCAC 17 3007 CFTR-W1282X-16 + AAGACACACCAUCGAUC 17 3008CFTR-W1282X-17 - UUGGGAAGAACUGGAUC 17 3009 CFTR-W1282X-18 +AUCCAGUUCUUCCCAAG 17 3010 CFTR-W1282X-19 - CACUUUUACCUUAUAGG 17 3011CFTR-W1282X-20 - CAGUGCAGUUUUCUCAU 17 3012 CFTR-W1282X-21 +UAUAAGGUAAAAGUGAU 17 3013 CFTR-W1282X-22 + UCACUUCUGUGACAUAU 17 3014CFTR-W1282X-23 - CAUCACUUUUACCUUAU 17 3015 CFTR-W1282X-24 -CUUAUAGGUGGGCCUCU 17 3016 CFTR-W1282X-25 - AGAUCGAUGGUGUGUCU 17 3017CFTR-W1282X-26 - ACUUUUACCUUAUAGGU 17 3018 CFTR-W1282X-27 -UUAUAGGUGGGCCUCUU 17 3019 CFTR-W1282X-28 - AAAGGACUUAGCCAGAAAAA 20 3020CFTR-W1282X-29 + CACCUGUGGUAUCACUCCAA 20 3021 CFTR-W1282X-30 -ACUGAAUUAUGUUUAUGGCA 20 3022 CFTR-W1282X-31 - UCUUGGGAAGAACUGGAUCA 203023 CFTR-W1282X-32 - UUGAGACUACUGAACACUGA 20 3024 CFTR-W1282X-33 +CACCUAUAAGGUAAAAGUGA 20 3025 CFTR-W1282X-34 + UCCCAAGAGGCCCACCUAUA 203026 CFTR-W1282X-35 - ACAAUACUGAAUUAUGUUUA 20 3027 CFTR-W1282X-36 -AGCCUUUGGAGUGAUACCAC 20 3028 CFTR-W1282X-37 + UGCCUAUGAGAAAACUGCAC 203029 CFTR-W1282X-38 + CCCAAGACACACCAUCGAUC 20 3030 CFTR-W1282X-39 -CUCUUGGGAAGAACUGGAUC 20 3031 CFTR-W1282X-40 + UAAUUUAGUUGCCUUUUUUC 203032 CFTR-W1282X-41 + CUGAUCCAGUUCUUCCCAAG 20 3033 CFTR-W1282X-42 -CAUCACUUUUACCUUAUAGG 20 3034 CFTR-W1282X-43 + UAAGUCCUUUUGCUCACCUG 203035 CFTR-W1282X-44 - CUCCAGUGCAGUUUUCUCAU 20 3036 CFTR-W1282X-45 +ACCUAUAAGGUAAAAGUGAU 20 3037 CFTR-W1282X-46 - UCCCAUCACUUUUACCUUAU 203038 CFTR-W1282X-47 - UACCUUAUAGGUGGGCCUCU 20 3039 CFTR-W1282X-48 -UCCAGAUCGAUGGUGUGUCU 20 3040 CFTR-W1282X-49 - AUCACUUUUACCUUAUAGGU 203041 CFTR-W1282X-50 - CCAGAUCGAUGGUGUGUCUU 20 3042

Table 28C provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X) and start with a 5′G. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable 1 can be used with a S. pyogenes Cas9 molecule that generates adouble stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 28C  3rd Tier   Target DNA Site Seq gRNA Name StrandTargeting Domain Length  ID CFTR-W1282X-51 − GGACUUAGCCAGAAAAA 17 3043CFTR-W1282X-52 + GGAUCACUUCUGUGACAUAU 20 3044

Table 28D provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X). It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table 1 can be usedwith a S. pyogenes Cas9 molecule that generates a double stranded break(Cas9 nuclease) or a single-stranded break (Cas9 nickase).

TABLE 28D  4th Tier Tar-  get DNA Site Seq  gRNA Name StrandTargeting Domain Length ID CFTR-W1282X-53 − UGGGAAGAACUGGAUCA 17 3045CFTR-W1282X-54 − AUACUGAAUUAUGUUUA 17 3046 CFTR-W1282X-55 +UUUAGUUGCCUUUUUUC 17 3047 CFTR-W1282X-56 − CAGUGAAGGAAAGCCUU 17 3048CFTR-W1282X-57 − UGAUACCACAGGUGAGCAAA 20 3049 CFTR-W1282X-58 −CAAUAACUUUGCAACAGUGA 20 3050 CFTR-W1282X-59 − CAACAGUGAAGGAAAGCCUU 203051 CFTR-W1282X-60 − ACCUUAUAGGUGGGCCUCUU 20 3052

Table 29A provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X), have a high level of orthogonality, start with a 5′G,and PAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table 1 can be usedwith a S. aureus Cas9 molecule that generates a double stranded break(Cas9 nuclease) or a single-stranded break (Cas9 nickase).

TABLE 29A  1st Tier DNA Target Seq  gRNA Name Strand Targeting DomainSite Length ID CFTR-W1282X-61 + GCCCACCUAUAAGGUAAAAGUGA 23 3053CFTR-W1282X-62 + GGCCCACCUAUAAGGUAAAAGUGA 24 3054 CFTR-W1282X-63 +GCAUAACAAAUAUAUUUUG 19 3055 CFTR-W1282X-64 + GAAUCCCAAGACACACCAUCGAU 233056 CFTR-W1282X-65 − GUGGGCCUCUUGGGAAGAA 19 3057 CFTR-W1282X-66 −GGUGGGCCUCUUGGGAAGAA 20 3058 CFTR-W1282X-67 − GGAAGAACUGGAUCAGGG 18 3059CFTR-W1282X-68 − GGGAAGAACUGGAUCAGGG 19 3060 CFTR-W1282X-69 −GAAAUCCAGAUCGAUGGUGUGUCU 24 3061

Table 29B provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X), have a high level of orthogonality and PAM is NNGRRT. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table 1 can be used with a S. aureusCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 29B 2nd Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-W1282X-70 + CCUAUAAGGUAAAAGUGA 18 3062 CFTR-W1282X-71 +ACCUAUAAGGUAAAAGUGA 19 3063 CFTR-W1282X-33 + CACCUAUAAGGUAAAAGUGA 203025 CFTR-W1282X-72 + CCACCUAUAAGGUAAAAGUGA 21 3064 CFTR-W1282X-73 +CCCACCUAUAAGGUAAAAGUGA 22 3065 CFTR-W1282X-74 + UUGCAGAGUAAUAUGAAUUUC 213066 CFTR-W1282X-75 + UUUGCAGAGUAAUAUGAAUUUC 22 3067 CFTR-W1282X-76 +UUUUGCAGAGUAAUAUGAAUUUC 23 3068 CFTR-W1282X-77 +AUUUUGCAGAGUAAUAUGAAUUUC 24 3069 CFTR-W1282X-78 + CAUAACAAAUAUAUUUUG 183070 CFTR-W1282X-79 + UGCAUAACAAAUAUAUUUUG 20 3071 CFTR-W1282X-80 +UAUAUUUUGCAGAGUAAU 18 3072 CFTR-W1282X-81 + AUAUAUUUUGCAGAGUAAU 19 3073CFTR-W1282X-82 + AAUAUAUUUUGCAGAGUAAU 20 3074 CFTR-W1282X-83 +CCAAGACACACCAUCGAU 18 3075 CFTR-W1282X-84 + CCCAAGACACACCAUCGAU 19 3076CFTR-W1282X-85 + UCCCAAGACACACCAUCGAU 20 3077 CFTR-W1282X-86 +AUCCCAAGACACACCAUCGAU 21 3078 CFTR-W1282X-87 + AAUCCCAAGACACACCAUCGAU 223079 CFTR-W1282X-88 + UGAAUCCCAAGACACACCAUCGAU 24 3080 CFTR-W1282X-89 −UGGGCCUCUUGGGAAGAA 18 3081 CFTR-W1282X-90 − AGGUGGGCCUCUUGGGAAGAA 213082 CFTR-W1282X-91 − UAGGUGGGCCUCUUGGGAAGAA 22 3083 CFTR-W1282X-92 −AUAGGUGGGCCUCUUGGGAAGAA 23 3084 CFTR-W1282X-93 −UAUAGGUGGGCCUCUUGGGAAGAA 24 3085 CFTR-W1282X-94 − UGGGAAGAACUGGAUCAGGG20 3086 CFTR-W1282X-95 − UUGGGAAGAACUGGAUCAGGG 21 3087 CFTR-W1282X-96 −CUUGGGAAGAACUGGAUCAGGG 22 3088 CFTR-W1282X-97 − UCUUGGGAAGAACUGGAUCAGGG23 3089 CFTR-W1282X-98 − CUCUUGGGAAGAACUGGAUCAGGG 24 3090 CFTR-W1282X-99− CAGAUCGAUGGUGUGUCU 18 3091 CFTR-W1282X-100 − CCAGAUCGAUGGUGUGUCU 193092 CFTR-W1282X-48 − UCCAGAUCGAUGGUGUGUCU 20 3040 CFTR-W1282X-101 −AUCCAGAUCGAUGGUGUGUCU 21 3093 CFTR-W1282X-102 − AAUCCAGAUCGAUGGUGUGUCU22 3094 CFTR-W1282X-103 − AAAUCCAGAUCGAUGGUGUGUCU 23 3095

Table 29C provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X), start with a 5′G and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table 1 can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 29C  3rd Tier DNA Target Site Seq gRNA Name StrandTargeting Domain Length ID CFTR-W1282X-104 + GCAGAGUAAUAUGAAUUUC 19 3096CFTR-W1282X-105 + GCAAUGCAUAACAAAUAUAUUUUG 24 3097 CFTR-W1282X-106 -GCAACAGUGAAGGAAAGCCUU 21 3098

Table 29D provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the fourth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X), and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Table 1can be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 29D  4th Tier DNA Target Site Seq gRNA Name StrandTargeting Domain Length ID CFTR-W1282X-107 + UUCACUGUUGCAAAGUUA 18 3099CFTR-W1282X-108 + CUUCACUGUUGCAAAGUUA 19 3100 CFTR-W1282X-109 +CCUUCACUGUUGCAAAGUUA 20 3101 CFTR-W1282X-110 + UCCUUCACUGUUGCAAAGUUA 213102 CFTR-W1282X-111 + UUCCUUCACUGUUGCAAAGUUA 22 3103 CFTR-W1282X-112 +UUUCCUUCACUGUUGCAAAGUUA 23 3104 CFTR-W1282X-113 +CUUUCCUUCACUGUUGCAAAGUUA 24 3105 CFTR-W1282X-114 + CAGAGUAAUAUGAAUUUC 183106 CFTR-W1282X-115 + UGCAGAGUAAUAUGAAUUUC 20 3107 CFTR-W1282X-116 +AUGCAUAACAAAUAUAUUUUG 21 3108 CFTR-W1282X-117 + AAUGCAUAACAAAUAUAUUUUG22 3109 CFTR-W1282X-118 + CAAUGCAUAACAAAUAUAUUUUG 23 3110CFTR-W1282X-119 + AAAUAUAUUUUGCAGAGUAAU 21 3111 CFTR-W1282X-120 +CAAAUAUAUUUUGCAGAGUAAU 22 3112 CFTR-W1282X-121 + ACAAAUAUAUUUUGCAGAGUAAU23 3113 CFTR-W1282X-122 + AACAAAUAUAUUUUGCAGAGUAAU 24 3114CFTR-W1282X-123 - ACAGUGAAGGAAAGCCUU 18 3115 CFTR-W1282X-124 -AACAGUGAAGGAAAGCCUU 19 3116 CFTR-W1282X-59 - CAACAGUGAAGGAAAGCCUU 203051 CFTR-W1282X-125 - UGCAACAGUGAAGGAAAGCCUU 22 3117 CFTR-W1282X-126 -UUGCAACAGUGAAGGAAAGCCUU 23 3118 CFTR-W1282X-127 -UUUGCAACAGUGAAGGAAAGCCUU 24 3119

Table 29E provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X), and PAM is NNGRRV. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablelean be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 29E  5th Tier DNA Target Site Seq gRNA Name StrandTargeting Domain Length ID CFTR-W1282X-128 + GCCUAUGAGAAAACUGCA 18 3120CFTR-W1282X-129 + UGCCUAUGAGAAAACUGCA 19 3121 CFTR-W1282X-130 +CUGCCUAUGAGAAAACUGCA 20 3122 CFTR-W1282X-131 + UCUGCCUAUGAGAAAACUGCA 213123 CFTR-W1282X-132 + UUCUGCCUAUGAGAAAACUGCA 22 3124 CFTR-W1282X-133 +UUUCUGCCUAUGAGAAAACUGCA 23 3125 CFTR-W1282X-134 +UUUUCUGCCUAUGAGAAAACUGCA 24 3126 CFTR-W1282X-135 + CCUAUGAGAAAACUGCAC 183127 CFTR-W1282X-136 + GCCUAUGAGAAAACUGCAC 19 3128 CFTR-W1282X-37 +UGCCUAUGAGAAAACUGCAC 20 3029 CFTR-W1282X-137 + CUGCCUAUGAGAAAACUGCAC 213129 CFTR-W1282X-138 + UCUGCCUAUGAGAAAACUGCAC 22 3130 CFTR-W1282X-139 +UUCUGCCUAUGAGAAAACUGCAC 23 3131 CFTR-W1282X-140 +UUUCUGCCUAUGAGAAAACUGCAC 24 3132 CFTR-W1282X-141 + CCUGAUCCAGUUCUUCCC 183133 CFTR-W1282X-142 + CCCUGAUCCAGUUCUUCCC 19 3134 CFTR-W1282X-143 +UCCCUGAUCCAGUUCUUCCC 20 3135 CFTR-W1282X-144 + UUCCCUGAUCCAGUUCUUCCC 213136 CFTR-W1282X-145 + CUUCCCUGAUCCAGUUCUUCCC 22 3137 CFTR-W1282X-146 +UCUUCCCUGAUCCAGUUCUUCCC 23 3138 CFTR-W1282X-147 +CUCUUCCCUGAUCCAGUUCUUCCC 24 3139 CFTR-W1282X-148 + UAUGAGAAAACUGCACUG 183140 CFTR-W1282X-149 + CUAUGAGAAAACUGCACUG 19 3141 CFTR-W1282X-150 +CCUAUGAGAAAACUGCACUG 20 3142 CFTR-W1282X-151 + GCCUAUGAGAAAACUGCACUG 213143 CFTR-W1282X-152 + UGCCUAUGAGAAAACUGCACUG 22 3144 CFTR-W1282X-153 +CUGCCUAUGAGAAAACUGCACUG 23 3145 CFTR-W1282X-154 +UCUGCCUAUGAGAAAACUGCACUG 24 3146 CFTR-W1282X-155 + ACCUAUAAGGUAAAAGUG 183147 CFTR-W1282X-156 + CACCUAUAAGGUAAAAGUG 19 3148 CFTR-W1282X-157 +CCACCUAUAAGGUAAAAGUG 20 3149 CFTR-W1282X-158 + CCCACCUAUAAGGUAAAAGUG 213150 CFTR-W1282X-159 + GCCCACCUAUAAGGUAAAAGUG 22 3151 CFTR-W1282X-160 +GGCCCACCUAUAAGGUAAAAGUG 23 3152 CFTR-W1282X-161 +AGGCCCACCUAUAAGGUAAAAGUG 24 3153 CFTR-W1282X-162 + GACAUCUUUUCUGCCUAU 183154 CFTR-W1282X-163 + AGACAUCUUUUCUGCCUAU 19 3155 CFTR-W1282X-164 +GAGACAUCUUUUCUGCCUAU 20 3156 CFTR-W1282X-165 + AGAGACAUCUUUUCUGCCUAU 213157 CFTR-W1282X-166 + UAGAGACAUCUUUUCUGCCUAU 22 3158 CFTR-W1282X-167 +UUAGAGACAUCUUUUCUGCCUAU 23 3159 CFTR-W1282X-168 +UUUAGAGACAUCUUUUCUGCCUAU 24 3160 CFTR-W1282X-169 + GAGACAUCUUUUCUGCCU 183161 CFTR-W1282X-170 + AGAGACAUCUUUUCUGCCU 19 3162 CFTR-W1282X-171 +UAGAGACAUCUUUUCUGCCU 20 3163 CFTR-W1282X-172 + UUAGAGACAUCUUUUCUGCCU 213164 CFTR-W1282X-173 + UUUAGAGACAUCUUUUCUGCCU 22 3165 CFTR-W1282X-174 +UUUUAGAGACAUCUUUUCUGCCU 23 3166 CFTR-W1282X-175 +CUUUUAGAGACAUCUUUUCUGCCU 24 3167 CFTR-W1282X-176 - GAUACCACAGGUGAGCAA 183168 CFTR-W1282X-177 - UGAUACCACAGGUGAGCAA 19 3169 CFTR-W1282X-178 -GUGAUACCACAGGUGAGCAA 20 3170 CFTR-W1282X-179 - AGUGAUACCACAGGUGAGCAA 213171 CFTR-W1282X-180 - GAGUGAUACCACAGGUGAGCAA 22 3172 CFTR-W1282X-181 -GGAGUGAUACCACAGGUGAGCAA 23 3173 CFTR-W1282X-182 -UGGAGUGAUACCACAGGUGAGCAA 24 3174 CFTR-W1282X-183 - UUCAAUAACUUUGCAACA 183175 CFTR-W1282X-184 - AUUCAAUAACUUUGCAACA 19 3176 CFTR-W1282X-185 -GAUUCAAUAACUUUGCAACA 20 3177 CFTR-W1282X-186 - GGAUUCAAUAACUUUGCAACA 213178 CFTR-W1282X-187 - GGGAUUCAAUAACUUUGCAACA 22 3179 CFTR-W1282X-188 -UGGGAUUCAAUAACUUUGCAACA 23 3180 CFTR-W1282X-189 -UUGGGAUUCAAUAACUUUGCAACA 24 3181 CFTR-W1282X-190 - UUUUGAGACUACUGAACA 183182 CFTR-W1282X-191 - UUUUUGAGACUACUGAACA 19 3183 CFTR-W1282X-192 -UUUUUUGAGACUACUGAACA 20 3184 CFTR-W1282X-193 - CUUUUUUGAGACUACUGAACA 213185 CFTR-W1282X-194 - GCUUUUUUGAGACUACUGAACA 22 3186 CFTR-W1282X-195 -AGCUUUUUUGAGACUACUGAACA 23 3187 CFTR-W1282X-196 -CAGCUUUUUUGAGACUACUGAACA 24 3188 CFTR-W1282X-197 - UUGGGAAGAACUGGAUCA 183189 CFTR-W1282X-198 - CUUGGGAAGAACUGGAUCA 19 3190 CFTR-W1282X-31 -UCUUGGGAAGAACUGGAUCA 20 3023 CFTR-W1282X-199 - CUCUUGGGAAGAACUGGAUCA 213191 CFTR-W1282X-200 - CCUCUUGGGAAGAACUGGAUCA 22 3192 CFTR-W1282X-201 -GCCUCUUGGGAAGAACUGGAUCA 23 3193 CFTR-W1282X-202 -GGCCUCUUGGGAAGAACUGGAUCA 24 3194 CFTR-W1282X-203 - CAUGGUACCUAUAUGUCA 183195 CFTR-W1282X-204 - GCAUGGUACCUAUAUGUCA 19 3196 CFTR-W1282X-205 -GGCAUGGUACCUAUAUGUCA 20 3197 CFTR-W1282X-206 - UGGCAUGGUACCUAUAUGUCA 213198 CFTR-W1282X-207 - AUGGCAUGGUACCUAUAUGUCA 22 3199 CFTR-W1282X-208 -UAUGGCAUGGUACCUAUAUGUCA 23 3200 CFTR-W1282X-209 -UUAUGGCAUGGUACCUAUAUGUCA 24 3201 CFTR-W1282X-210 - GAGACUACUGAACACUGA 183202 CFTR-W1282X-211 - UGAGACUACUGAACACUGA 19 3203 CFTR-W1282X-32 -UUGAGACUACUGAACACUGA 20 3024 CFTR-W1282X-212 - UUUGAGACUACUGAACACUGA 213204 CFTR-W1282X-213 - UUUUGAGACUACUGAACACUGA 22 3205 CFTR-W1282X-214 -UUUUUGAGACUACUGAACACUGA 23 3206 CFTR-W1282X-215 -UUUUUUGAGACUACUGAACACUGA 24 3207 CFTR-W1282X-216 - AUAACUUUGCAACAGUGA 183208 CFTR-W1282X-217 - AAUAACUUUGCAACAGUGA 19 3209 CFTR-W1282X-58 -CAAUAACUUUGCAACAGUGA 20 3050 CFTR-W1282X-218 - UCAAUAACUUUGCAACAGUGA 213210 CFTR-W1282X-219 - UUCAAUAACUUUGCAACAGUGA 22 3211 CFTR-W1282X-220 -AUUCAAUAACUUUGCAACAGUGA 23 3212 CFTR-W1282X-221 -GAUUCAAUAACUUUGCAACAGUGA 24 3213 CFTR-W1282X-222 - UCAGCUUUUUUGAGACUA 183214 CFTR-W1282X-223 - AUCAGCUUUUUUGAGACUA 19 3215 CFTR-W1282X-224 -UAUCAGCUUUUUUGAGACUA 20 3216 CFTR-W1282X-225 - UUAUCAGCUUUUUUGAGACUA 213217 CFTR-W1282X-226 - GUUAUCAGCUUUUUUGAGACUA 22 3218 CFTR-W1282X-227 -UGUUAUCAGCUUUUUUGAGACUA 23 3219 CFTR-W1282X-228 -UUGUUAUCAGCUUUUUUGAGACUA 24 3220 CFTR-W1282X-229 - UGAGCAAAAGGACUUAGC 183221 CFTR-W1282X-230 - GUGAGCAAAAGGACUUAGC 19 3222 CFTR-W1282X-231 -GGUGAGCAAAAGGACUUAGC 20 3223 CFTR-W1282X-232 - AGGUGAGCAAAAGGACUUAGC 213224 CFTR-W1282X-233 - CAGGUGAGCAAAAGGACUUAGC 22 3225 CFTR-W1282X-234 -ACAGGUGAGCAAAAGGACUUAGC 23 3226 CFTR-W1282X-235 -CACAGGUGAGCAAAAGGACUUAGC 24 3227 CFTR-W1282X-236 - CUUGGGAAGAACUGGAUC 183228 CFTR-W1282X-237 - UCUUGGGAAGAACUGGAUC 19 3229 CFTR-W1282X-39 -CUCUUGGGAAGAACUGGAUC 20 3031 CFTR-W1282X-238 - CCUCUUGGGAAGAACUGGAUC 213230 CFTR-W1282X-239 - GCCUCUUGGGAAGAACUGGAUC 22 3231 CFTR-W1282X-240 -GGCCUCUUGGGAAGAACUGGAUC 23 3232 CFTR-W1282X-241 -GGGCCUCUUGGGAAGAACUGGAUC 24 3233 CFTR-W1282X-242 - UAUUUGAUACUUGUACUC 183234 CFTR-W1282X-243 - CUAUUUGAUACUUGUACUC 19 3235 CFTR-W1282X-244 -GCUAUUUGAUACUUGUACUC 20 3236 CFTR-W1282X-245 - UGCUAUUUGAUACUUGUACUC 213237 CFTR-W1282X-246 - CUGCUAUUUGAUACUUGUACUC 22 3238 CFTR-W1282X-247 -ACUGCUAUUUGAUACUUGUACUC 23 3239 CFTR-W1282X-248 -UACUGCUAUUUGAUACUUGUACUC 24 3240 CFTR-W1282X-249 - ACCUUAUAGGUGGGCCUC 183241 CFTR-W1282X-250 - UACCUUAUAGGUGGGCCUC 19 3242 CFTR-W1282X-251 -UUACCUUAUAGGUGGGCCUC 20 3243 CFTR-W1282X-252 - UUUACCUUAUAGGUGGGCCUC 213244 CFTR-W1282X-253 - UUUUACCUUAUAGGUGGGCCUC 22 3245 CFTR-W1282X-254 -CUUUUACCUUAUAGGUGGGCCUC 23 3246 CFTR-W1282X-255 -ACUUUUACCUUAUAGGUGGGCCUC 24 3247 CFTR-W1282X-256 - CCAGAUCGAUGGUGUGUC 183248 CFTR-W1282X-257 - UCCAGAUCGAUGGUGUGUC 19 3249 CFTR-W1282X-258 -AUCCAGAUCGAUGGUGUGUC 20 3250 CFTR-W1282X-259 - AAUCCAGAUCGAUGGUGUGUC 213251 CFTR-W1282X-260 - AAAUCCAGAUCGAUGGUGUGUC 22 3252 CFTR-W1282X-261 -GAAAUCCAGAUCGAUGGUGUGUC 23 3253 CFTR-W1282X-262 -AGAAAUCCAGAUCGAUGGUGUGUC 24 3254 CFTR-W1282X-263 - GACUACUGAACACUGAAG 183255 CFTR-W1282X-264 - AGACUACUGAACACUGAAG 19 3256 CFTR-W1282X-265 -GAGACUACUGAACACUGAAG 20 3257 CFTR-W1282X-266 - UGAGACUACUGAACACUGAAG 213258 CFTR-W1282X-267 - UUGAGACUACUGAACACUGAAG 22 3259 CFTR-W1282X-268 -UUUGAGACUACUGAACACUGAAG 23 3260 CFTR-W1282X-269 -UUUUGAGACUACUGAACACUGAAG 24 3261 CFTR-W1282X-270 - UUUGGAGUGAUACCACAG 183262 CFTR-W1282X-271 - CUUUGGAGUGAUACCACAG 19 3263 CFTR-W1282X-272 -CCUUUGGAGUGAUACCACAG 20 3264 CFTR-W1282X-273 - GCCUUUGGAGUGAUACCACAG 213265 CFTR-W1282X-274 - AGCCUUUGGAGUGAUACCACAG 22 3266 CFTR-W1282X-275 -AAGCCUUUGGAGUGAUACCACAG 23 3267 CFTR-W1282X-276 -AAAGCCUUUGGAGUGAUACCACAG 24 3268 CFTR-W1282X-277 - AUCACUUUUACCUUAUAG 183269 CFTR-W1282X-278 - CAUCACUUUUACCUUAUAG 19 3270 CFTR-W1282X-279 -CCAUCACUUUUACCUUAUAG 20 3271 CFTR-W1282X-280 - CCCAUCACUUUUACCUUAUAG 213272 CFTR-W1282X-281 - UCCCAUCACUUUUACCUUAUAG 22 3273 CFTR-W1282X-282 -AUCCCAUCACUUUUACCUUAUAG 23 3274 CFTR-W1282X-283 -GAUCCCAUCACUUUUACCUUAUAG 24 3275 CFTR-W1282X-284 - GUGCAGUUUUCUCAUAGG 183276 CFTR-W1282X-285 - AGUGCAGUUUUCUCAUAGG 19 3277 CFTR-W1282X-286 -CAGUGCAGUUUUCUCAUAGG 20 3278 CFTR-W1282X-287 - CCAGUGCAGUUUUCUCAUAGG 213279 CFTR-W1282X-288 - UCCAGUGCAGUUUUCUCAUAGG 22 3280 CFTR-W1282X-289 -CUCCAGUGCAGUUUUCUCAUAGG 23 3281 CFTR-W1282X-290 -UCUCCAGUGCAGUUUUCUCAUAGG 24 3282 CFTR-W1282X-291 - AUAGGUGGGCCUCUUGGG 183283 CFTR-W1282X-292 - UAUAGGUGGGCCUCUUGGG 19 3284 CFTR-W1282X-293 -UUAUAGGUGGGCCUCUUGGG 20 3285 CFTR-W1282X-294 - CUUAUAGGUGGGCCUCUUGGG 213286 CFTR-W1282X-295 - CCUUAUAGGUGGGCCUCUUGGG 22 3287 CFTR-W1282X-296 -ACCUUAUAGGUGGGCCUCUUGGG 23 3288 CFTR-W1282X-297 -UACCUUAUAGGUGGGCCUCUUGGG 24 3289 CFTR-W1282X-298 - UGAGACUACUGAACACUG 183290 CFTR-W1282X-299 - UUGAGACUACUGAACACUG 19 3291 CFTR-W1282X-300 -UUUGAGACUACUGAACACUG 20 3292 CFTR-W1282X-301 - UUUUGAGACUACUGAACACUG 213293 CFTR-W1282X-302 - UUUUUGAGACUACUGAACACUG 22 3294 CFTR-W1282X-303 -UUUUUUGAGACUACUGAACACUG 23 3295 CFTR-W1282X-304 -CUUUUUUGAGACUACUGAACACUG 24 3296 CFTR-W1282X-305 - AAUAACUUUGCAACAGUG 183297 CFTR-W1282X-306 - CAAUAACUUUGCAACAGUG 19 3298 CFTR-W1282X-307 -UCAAUAACUUUGCAACAGUG 20 3299 CFTR-W1282X-308 - UUCAAUAACUUUGCAACAGUG 213300 CFTR-W1282X-309 - AUUCAAUAACUUUGCAACAGUG 22 3301 CFTR-W1282X-310 -GAUUCAAUAACUUUGCAACAGUG 23 3302 CFTR-W1282X-311 -GGAUUCAAUAACUUUGCAACAGUG 24 3303 CFTR-W1282X-312 - UCUUGGGAAGAACUGGAU 183304 CFTR-W1282X-313 - CUCUUGGGAAGAACUGGAU 19 3305 CFTR-W1282X-314 -CCUCUUGGGAAGAACUGGAU 20 3306 CFTR-W1282X-315 - GCCUCUUGGGAAGAACUGGAU 213307 CFTR-W1282X-316 - GGCCUCUUGGGAAGAACUGGAU 22 3308 CFTR-W1282X-317 -GGGCCUCUUGGGAAGAACUGGAU 23 3309 CFTR-W1282X-318 -UGGGCCUCUUGGGAAGAACUGGAU 24 3310 CFTR-W1282X-319 - AACAGUGAAGGAAAGCCU 183311 CFTR-W1282X-320 - CAACAGUGAAGGAAAGCCU 19 3312 CFTR-W1282X-321 -GCAACAGUGAAGGAAAGCCU 20 3313 CFTR-W1282X-322 - UGCAACAGUGAAGGAAAGCCU 213314 CFTR-W1282X-323 - UUGCAACAGUGAAGGAAAGCCU 22 3315 CFTR-W1282X-324 -UUUGCAACAGUGAAGGAAAGCCU 23 3316 CFTR-W1282X-325 -CUUUGCAACAGUGAAGGAAAGCCU 24 3317 CFTR-W1282X-326 - CCUUAUAGGUGGGCCUCU 183318 CFTR-W1282X-327 - ACCUUAUAGGUGGGCCUCU 19 3319 CFTR-W1282X-47 -UACCUUAUAGGUGGGCCUCU 20 3039 CFTR-W1282X-328 - UUACCUUAUAGGUGGGCCUCU 213320 CFTR-W1282X-329 - UUUACCUUAUAGGUGGGCCUCU 22 3321 CFTR-W1282X-330 -UUUUACCUUAUAGGUGGGCCUCU 23 3322 CFTR-W1282X-331 -CUUUUACCUUAUAGGUGGGCCUCU 24 3323 CFTR-W1282X-332 - CUUAUAGGUGGGCCUCUU 183324 CFTR-W1282X-333 - CCUUAUAGGUGGGCCUCUU 19 3325 CFTR-W1282X-60 -ACCUUAUAGGUGGGCCUCUU 20 3052 CFTR-W1282X-334 - UACCUUAUAGGUGGGCCUCUU 213326 CFTR-W1282X-335 - UUACCUUAUAGGUGGGCCUCUU 22 3327 CFTR-W1282X-336 -UUUACCUUAUAGGUGGGCCUCUU 23 3328 CFTR-W1282X-337 -UUUUACCUUAUAGGUGGGCCUCUU 24 3329 CFTR-W1282X-338 - ACUUUGUUAUCAGCUUUU 183330 CFTR-W1282X-339 - UACUUUGUUAUCAGCUUUU 19 3331 CFTR-W1282X-340 -GUACUUUGUUAUCAGCUUUU 20 3332 CFTR-W1282X-341 - AGUACUUUGUUAUCAGCUUUU 213333 CFTR-W1282X-342 - GAGUACUUUGUUAUCAGCUUUU 22 3334 CFTR-W1282X-343 -AGAGUACUUUGUUAUCAGCUUUU 23 3335 CFTR-W1282X-344 -AAGAGUACUUUGUUAUCAGCUUUU 24 3336

Table 30A provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X), have a high level of orthogonality and start with a 5′G.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table 1 can be used with a N.meningitidis Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 30A  1st Tier DNA Target Site Seq  gRNA Name StrandTargeting Domain Length ID CFTR-W1282X-345 - GGGAAGAGUACUUUGUU 17 3337

Table 30B provides exemplary targeting domains for correcting a mutation(e.g., W1282X) in the CFTR gene selected according to the second tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., W1282X) and have a high level of orthogonality. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table 1 can be used with a N.meningitidis Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 30B  2nd Tier Target Site Seq gRNA Name DNA StrandTargeting Domain Length ID CFTR-W1282X-346 + CCAAGACACACCAUCGA 17 3338CFTR-W1282X-347 + ACCUGUGGUAUCACUCC 17 3339 CFTR-W1282X-348 -CAGAUCGAUGGUGUGUC 17 3340 CFTR-W1282X-349 + AUCCCAAGACACACCAUCGA 20 3341CFTR-W1282X-350 + CUCACCUGUGGUAUCACUCC 20 3342 CFTR-W1282X-258 -AUCCAGAUCGAUGGUGUGUC 20 3250 CFTR-W1282X-351 - UCAGGGAAGAGUACUUUGUU 203343

Table 31A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 3272-26->G), have a high level of orthogonality and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 31A  1st Tier Tar-  DNA get Seq Site gRNA Name StrandTargeting Domain Length ID CFTR-3272-1 + GUAAGGCUGCCGUCCGA 17 1282CFTR-3272-2 - GGAAAUAUUUCACAGGC 17 1283 CFTR-3272-3 + GUAAAUUCAGAGCUUUG17 1284 CFTR-3272-4 - GGACACUUCGUGCCUUCGGA 20 1285 CFTR-3272-5 +GGAACCAGCGCAGUGUUGAC 20 1286 CFTR-3272-6 + GUAACAAGAUGAGUGAAAAU 20 1287

Table 31B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26->G) and have a high level of orthogonality. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 31B  2nd Tier Target DNA Site Seq  gRNA Name StrandTargeting Domain Length ID CFTR-3272-7 - CUUGUUACAAGCUUAAA 17 1288CFTR-3272-8 - CAUAUCUAUUCAAAGAA 17 1289 CFTR-3272-9 + UACUUGGCUACCAGAGA17 1290 CFTR-3272-10 - CACUUCGUGCCUUCGGA 17 1291 CFTR-3272-11 -CAAGCUUAAAAGGACUA 17 1292 CFTR-3272-12 - AUUUACAUACUGCCAAC 17 1293CFTR-3272-13 + AAAGCUUUUUUUCACAC 17 1294 CFTR-3272-14 -CUAUGGAAAUAUUUCAC 17 1295 CFTR-3272-15 + ACCAGCGCAGUGUUGAC 17 1296CFTR-3272-16 - ACCUGUCAACACUGCGC 17 1297 CFTR-3272-17 -CUAAUUUAGUCUUUUUC 17 1298 CFTR-3272-18 + CAUAUCACAAAUGUCAU 17 1299CFTR-3272-19 + ACUUGGCUACCAGAGAU 17 1300 CFTR-3272-20 +UACCCUCUUUUUUUACU 17 1301 CFTR-3272-21 + CAGGUACAAGAACCAGU 17 1302CFTR-3272-22 - UGGACACUUCGUGCCUU 17 1303 CFTR-3272-23 -CAUCUUGUUACAAGCUUAAA 20 1304 CFTR-3272-24 - AAUCAUAUCUAUUCAAAGAA 20 1305CFTR-3272-25 + UUUUACUUGGCUACCAGAGA 20 1306 CFTR-3272-26 +AAAGUAAGGCUGCCGUCCGA 20 1307 CFTR-3272-27 - UUACAAGCUUAAAAGGACUA 20 1308CFTR-3272-28 + UGGAACAGAGUUUCAAAGUA 20 1309 CFTR-3272-29 -UGAAUUUACAUACUGCCAAC 20 1310 CFTR-3272-30 + UAAAAAGCUUUUUUUCACAC 20 1311CFTR-3272-31 - UUUCUAUGGAAAUAUUUCAC 20 1312 CFTR-3272-32 -UGUACCUGUCAACACUGCGC 20 1313 CFTR-3272-33 - UAUGGAAAUAUUUCACAGGC 20 1314CFTR-3272-34 - UGGUAGCCAAGUAAAAAAAG 20 1315 CFTR-3272-35 +UAUGUAAAUUCAGAGCUUUG 20 1316 CFTR-3272-36 + AAUCAUAUCACAAAUGUCAU 20 1317CFTR-3272-37 + UUUACUUGGCUACCAGAGAU 20 1318 CFTR-3272-38 +AGUUACCCUCUUUUUUUACU 20 1319 CFTR-3272-39 + UGACAGGUACAAGAACCAGU 20 1320CFTR-3272-40 - CUAUGGACACUUCGUGCCUU 20 1321

Table 31C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 3272-26->G) and start with a 5′G. It is contemplated herein thatin an embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable can be used with a S. pyogenes Cas9 molecule that generates adouble stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 31C  3rd Tier Target  DNA Site Seq gRNA Name StrandTargeting Domain Length ID CFTR-3272- - GGUAGCCAAGUAAAAAAAGA 20 1322 41CFTR-3272- - GUUAUUUGCAGUGUUUUCUA 20 1323 42

Table 31D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26->G). It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. pyogenes Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 31D  4th Tier Target Site Seq  gRNA Name DNA StrandTargeting Domain Length ID CFTR-3272-43 - AGCCAAGUAAAAAAAGA 17 1324CFTR-3272-44 - AUUUGCAGUGUUUUCUA 17 1325 CFTR-3272-45 +AACAGAGUUUCAAAGUA 17 1326 CFTR-3272-46 - UAGCCAAGUAAAAAAAG 17 1327CFTR-3272-47 + ACAAGAUGAGUGAAAAU 17 1328 CFTR-3272-48 -AUUCUAAUUUAGUCUUUUUC 20 1329

Table 32A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 3272-26->G), have a high level of orthogonality, start with a5′G, and PAM is NNGRRT. It is contemplated herein that in an embodimentthe targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 32A  1st Tier DNA Target Site Seq  gRNA Name StrandTargeting Domain Length ID CFTR-3272-49 + GUCCUUUUAAGCUUGUAACAAG 22 1330CFTR-3272-50 + GUACCUGAAAAAGACUAAAU 20 1331 CFTR-3272-51 -GUCAACACUGCGCUGGUUCCAAAU 24 1332

Table 32B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26->G), have a high level of orthogonality and PAMis NNGRRT. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 32B  2nd Tier Target DNA Site Seq gRNA Name StrandTargeting Domain Length ID CFTR-3272-52 + UUUUAAGCUUGUAACAAG 18 1333CFTR-3272-53 + CUUUUAAGCUUGUAACAAG 19 1334 CFTR-3272-54 +CCUUUUAAGCUUGUAACAAG 20 1335 CFTR-3272-55 + UCCUUUUAAGCUUGUAACAAG 211336 CFTR-3272-56 + AGUCCUUUUAAGCUUGUAACAAG 23 1337 CFTR-3272-57 +UAGUCCUUUUAAGCUUGUAACAAG 24 1338 CFTR-3272-58 + ACCUGAAAAAGACUAAAU 181339 CFTR-3272-59 + UACCUGAAAAAGACUAAAU 19 1340 CFTR-3272-60 +UGUACCUGAAAAAGACUAAAU 21 1341 CFTR-3272-61 + UUGUACCUGAAAAAGACUAAAU 221342 CFTR-3272-62 + CUUGUACCUGAAAAAGACUAAAU 23 1343 CFTR-3272-63 +UCUUGUACCUGAAAAAGACUAAAU 24 1344 CFTR-3272-64 + UCACACUGGUGCCAUUCU 181345 CFTR-3272-65 + UUCACACUGGUGCCAUUCU 19 1346 CFTR-3272-66 +UUUCACACUGGUGCCAUUCU 20 1347 CFTR-3272-67 + UUUUCACACUGGUGCCAUUCU 211348 CFTR-3272-68 + UUUUUCACACUGGUGCCAUUCU 22 1349 CFTR-3272-69 +UUUUUUCACACUGGUGCCAUUCU 23 1350 CFTR-3272-70 + UUUUUUUCACACUGGUGCCAUUCU24 1351 CFTR-3272-71 - ACAAAUCAUAUCUAUUCA 18 1352 CFTR-3272-72 -AACAAAUCAUAUCUAUUCA 19 1353 CFTR-3272-73 - UAACAAAUCAUAUCUAUUCA 20 1354CFTR-3272-74 - AUAACAAAUCAUAUCUAUUCA 21 1355 CFTR-3272-75 -AAUAACAAAUCAUAUCUAUUCA 22 1356 CFTR-3272-76 - AAAUAACAAAUCAUAUCUAUUCA 231357 CFTR-3272-77 - AAAAUAACAAAUCAUAUCUAUUCA 24 1358 CFTR-3272-78 -UGGAAAUAUUUCACAGGC 18 1359 CFTR-3272-79 - AUGGAAAUAUUUCACAGGC 19 1360CFTR-3272-33 - UAUGGAAAUAUUUCACAGGC 20 1314 CFTR-3272-80 -ACUGCGCUGGUUCCAAAU 18 1361 CFTR-3272-81 - CACUGCGCUGGUUCCAAAU 19 1362CFTR-3272-82 - ACACUGCGCUGGUUCCAAAU 20 1363 CFTR-3272-83 -AACACUGCGCUGGUUCCAAAU 21 1364 CFTR-3272-84 - CAACACUGCGCUGGUUCCAAAU 221365 CFTR-3272-85 - UCAACACUGCGCUGGUUCCAAAU 23 1366 CFTR-3272-86 -ACUCUGUUCCACAAAGCU 18 1367 CFTR-3272-87 - AACUCUGUUCCACAAAGCU 19 1368CFTR-3272-88 - AAACUCUGUUCCACAAAGCU 20 1369

Table 32C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26->G), and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 32C 3rd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3272-89 + AUUCAGAGCUUUGUGGAA 18 1374 CFTR-3272-90 +AAUUCAGAGCUUUGUGGAA 19 1375 CFTR-3272-91 + AAAUUCAGAGCUUUGUGGAA 20 1376CFTR-3272-92 + UAAAUUCAGAGCUUUGUGGAA 21 1377 CFTR-3272-93 +GUAAAUUCAGAGCUUUGUGGAA 22 1370 CFTR-3272-94 + UGUAAAUUCAGAGCUUUGUGGAA 231378 CFTR-3272-95 + AUGUAAAUUCAGAGCUUUGUGGAA 24 1379 CFTR-3272-96 +UGAUUUGUUAUUUUAUUA 18 1380 CFTR-3272-97 + AUGAUUUGUUAUUUUAUUA 19 1381CFTR-3272-98 + UAUGAUUUGUUAUUUUAUUA 20 1382 CFTR-3272-99 +AUAUGAUUUGUUAUUUUAUUA 21 1383 CFTR-3272-100 + GAUAUGAUUUGUUAUUUUAUUA 221371 CFTR-3272-101 + AGAUAUGAUUUGUUAUUUUAUUA 23 1384 CFTR-3272-102 +UAGAUAUGAUUUGUUAUUUUAUUA 24 1385 CFTR-3272-103 − GGUAGCCAAGUAAAAAAA 181372 CFTR-3272-104 − UGGUAGCCAAGUAAAAAAA 19 1386 CFTR-3272-105 −CUGGUAGCCAAGUAAAAAAA 20 1387 CFTR-3272-106 − UCUGGUAGCCAAGUAAAAAAA 211388 CFTR-3272-107 − CUCUGGUAGCCAAGUAAAAAAA 22 1389 CFTR-3272-108 −UCUCUGGUAGCCAAGUAAAAAAA 23 1390 CFTR-3272-109 − AUCUCUGGUAGCCAAGUAAAAAAA24 1391 CFTR-3272-110 − CUAUGGAAAUAUUUCACAGGC 21 1392 CFTR-3272-111 −UCUAUGGAAAUAUUUCACAGGC 22 1393 CFTR-3272-112 − UUCUAUGGAAAUAUUUCACAGGC23 1394 CFTR-3272-113 − UUUCUAUGGAAAUAUUUCACAGGC 24 1395 CFTR-3272-114 −GAAACUCUGUUCCACAAAGCU 21 1373 CFTR-3272-115 − UGAAACUCUGUUCCACAAAGCU 221396 CFTR-3272-116 − UUGAAACUCUGUUCCACAAAGCU 23 1397 CFTR-3272-117 −UUUGAAACUCUGUUCCACAAAGCU 24 1398

Table 32D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within 200 bp from a mutation(e.g., 3272-26->G), and PAM is NNGRRV. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable can be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 32D 4th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3272-118 + UAACAAGAUGAGUGAAAA 18 1399 CFTR-3272-119 +GUAACAAGAUGAGUGAAAA 19 1400 CFTR-3272-120 + UGUAACAAGAUGAGUGAAAA 20 1401CFTR-3272-121 + UUGUAACAAGAUGAGUGAAAA 21 1402 CFTR-3272-122 +CUUGUAACAAGAUGAGUGAAAA 22 1403 CFTR-3272-123 + GCUUGUAACAAGAUGAGUGAAAA23 1404 CFTR-3272-124 + AGCUUGUAACAAGAUGAGUGAAAA 24 1405 CFTR-3272-125 +GCCUGUGAAAUAUUUCCA 18 1406 CFTR-3272-126 + UGCCUGUGAAAUAUUUCCA 19 1407CFTR-3272-127 + CUGCCUGUGAAAUAUUUCCA 20 1408 CFTR-3272-128 +CCUGCCUGUGAAAUAUUUCCA 21 1409 CFTR-3272-129 + UCCUGCCUGUGAAAUAUUUCCA 221410 CFTR-3272-130 + CUCCUGCCUGUGAAAUAUUUCCA 23 1411 CFTR-3272-131 +ACUCCUGCCUGUGAAAUAUUUCCA 24 1412 CFTR-3272-132 + UUACUUGGCUACCAGAGA 181413 CFTR-3272-133 + UUUACUUGGCUACCAGAGA 19 1414 CFTR-3272-25 +UUUUACUUGGCUACCAGAGA 20 1306 CFTR-3272-134 + UUUUUACUUGGCUACCAGAGA 211415 CFTR-3272-135 + UUUUUUACUUGGCUACCAGAGA 22 1416 CFTR-3272-136 +UUUUUUUACUUGGCUACCAGAGA 23 1417 CFTR-3272-137 + CUUUUUUUACUUGGCUACCAGAGA24 1418 CFTR-3272-138 + AAGCUUGUAACAAGAUGA 18 1419 CFTR-3272-139 +UAAGCUUGUAACAAGAUGA 19 1420 CFTR-3272-140 + UUAAGCUUGUAACAAGAUGA 20 1421CFTR-3272-141 + UUUAAGCUUGUAACAAGAUGA 21 1422 CFTR-3272-142 +UUUUAAGCUUGUAACAAGAUGA 22 1423 CFTR-3272-143 + CUUUUAAGCUUGUAACAAGAUGA23 1424 CFTR-3272-144 + CCUUUUAAGCUUGUAACAAGAUGA 24 1425 CFTR-3272-145 +CUUUUUUUACUUGGCUAC 18 1426 CFTR-3272-146 + UCUUUUUUUACUUGGCUAC 19 1427CFTR-3272-147 + CUCUUUUUUUACUUGGCUAC 20 1428 CFTR-3272-148 +CCUCUUUUUUUACUUGGCUAC 21 1429 CFTR-3272-149 + CCCUCUUUUUUUACUUGGCUAC 221430 CFTR-3272-150 + ACCCUCUUUUUUUACUUGGCUAC 23 1431 CFTR-3272-151 +UACCCUCUUUUUUUACUUGGCUAC 24 1432 CFTR-3272-152 + CGCAGUGUUGACAGGUAC 181433 CFTR-3272-153 + GCGCAGUGUUGACAGGUAC 19 1434 CFTR-3272-154 +AGCGCAGUGUUGACAGGUAC 20 1435 CFTR-3272-155 + CAGCGCAGUGUUGACAGGUAC 211436 CFTR-3272-156 + CCAGCGCAGUGUUGACAGGUAC 22 1437 CFTR-3272-157 +ACCAGCGCAGUGUUGACAGGUAC 23 1438 CFTR-3272-158 + AACCAGCGCAGUGUUGACAGGUAC24 1439 CFTR-3272-159 + UUUCAUAAUAUCUUGUAC 18 1440 CFTR-3272-160 +AUUUCAUAAUAUCUUGUAC 19 1441 CFTR-3272-161 + AAUUUCAUAAUAUCUUGUAC 20 1442CFTR-3272-162 + UAAUUUCAUAAUAUCUUGUAC 21 1443 CFTR-3272-163 +GUAAUUUCAUAAUAUCUUGUAC 22 1444 CFTR-3272-164 + UGUAAUUUCAUAAUAUCUUGUAC23 1445 CFTR-3272-165 + AUGUAAUUUCAUAAUAUCUUGUAC 24 1446 CFTR-3272-166 +AGGCUGCCGUCCGAAGGC 18 1447 CFTR-3272-167 + AAGGCUGCCGUCCGAAGGC 19 1448CFTR-3272-168 + UAAGGCUGCCGUCCGAAGGC 20 1449 CFTR-3272-169 +GUAAGGCUGCCGUCCGAAGGC 21 1450 CFTR-3272-170 + AGUAAGGCUGCCGUCCGAAGGC 221451 CFTR-3272-171 + AAGUAAGGCUGCCGUCCGAAGGC 23 1452 CFTR-3272-172 +AAAGUAAGGCUGCCGUCCGAAGGC 24 1453 CFTR-3272-173 + UUUACUUGGCUACCAGAG 181454 CFTR-3272-174 + UUUUACUUGGCUACCAGAG 19 1455 CFTR-3272-175 +UUUUUACUUGGCUACCAGAG 20 1456 CFTR-3272-176 + UUUUUUACUUGGCUACCAGAG 211457 CFTR-3272-177 + UUUUUUUACUUGGCUACCAGAG 22 1458 CFTR-3272-178 +CUUUUUUUACUUGGCUACCAGAG 23 1459 CFTR-3272-179 + UCUUUUUUUACUUGGCUACCAGAG24 1460 CFTR-3272-180 + UGUAAAUUCAGAGCUUUG 18 1461 CFTR-3272-181 +AUGUAAAUUCAGAGCUUUG 19 1462 CFTR-3272-35 + UAUGUAAAUUCAGAGCUUUG 20 1316CFTR-3272-182 + GUAUGUAAAUUCAGAGCUUUG 21 1463 CFTR-3272-183 +AGUAUGUAAAUUCAGAGCUUUG 22 1464 CFTR-3272-184 + CAGUAUGUAAAUUCAGAGCUUUG23 1465 CFTR-3272-185 + GCAGUAUGUAAAUUCAGAGCUUUG 24 1466 CFTR-3272-186 +UACUUGGCUACCAGAGAU 18 1467 CFTR-3272-187 + UUACUUGGCUACCAGAGAU 19 1468CFTR-3272-37 + UUUACUUGGCUACCAGAGAU 20 1318 CFTR-3272-188 +UUUUACUUGGCUACCAGAGAU 21 1469 CFTR-3272-189 + UUUUUACUUGGCUACCAGAGAU 221470 CFTR-3272-190 + UUUUUUACUUGGCUACCAGAGAU 23 1471 CFTR-3272-191 +UUUUUUUACUUGGCUACCAGAGAU 24 1472 CFTR-3272-192 + AAAAUUGGACUCCUGCCU 181473 CFTR-3272-193 + GAAAAUUGGACUCCUGCCU 19 1474 CFTR-3272-194 +UGAAAAUUGGACUCCUGCCU 20 1475 CFTR-3272-195 + GUGAAAAUUGGACUCCUGCCU 211476 CFTR-3272-196 + AGUGAAAAUUGGACUCCUGCCU 22 1477 CFTR-3272-197 +GAGUGAAAAUUGGACUCCUGCCU 23 1478 CFTR-3272-198 + UGAGUGAAAAUUGGACUCCUGCCU24 1479 CFTR-3272-199 + UCAAAGUAAGGCUGCCGU 18 1480 CFTR-3272-200 +UUCAAAGUAAGGCUGCCGU 19 1481 CFTR-3272-201 + UUUCAAAGUAAGGCUGCCGU 20 1482CFTR-3272-202 + GUUUCAAAGUAAGGCUGCCGU 21 1483 CFTR-3272-203 +AGUUUCAAAGUAAGGCUGCCGU 22 1484 CFTR-3272-204 + GAGUUUCAAAGUAAGGCUGCCGU23 1485 CFTR-3272-205 + AGAGUUUCAAAGUAAGGCUGCCGU 24 1486 CFTR-3272-206 +GUUGGCAGUAUGUAAAUU 18 1487 CFTR-3272-207 + AGUUGGCAGUAUGUAAAUU 19 1488CFTR-3272-208 + CAGUUGGCAGUAUGUAAAUU 20 1489 CFTR-3272-209 +CCAGUUGGCAGUAUGUAAAUU 21 1490 CFTR-3272-210 + ACCAGUUGGCAGUAUGUAAAUU 221491 CFTR-3272-211 + AACCAGUUGGCAGUAUGUAAAUU 23 1492 CFTR-3272-212 +GAACCAGUUGGCAGUAUGUAAAUU 24 1493 CFTR-3272-213 + AUGUAAAUUCAGAGCUUU 181494 CFTR-3272-214 + UAUGUAAAUUCAGAGCUUU 19 1495 CFTR-3272-215 +GUAUGUAAAUUCAGAGCUUU 20 1496 CFTR-3272-216 + AGUAUGUAAAUUCAGAGCUUU 211497 CFTR-3272-217 + CAGUAUGUAAAUUCAGAGCUUU 22 1498 CFTR-3272-218 +GCAGUAUGUAAAUUCAGAGCUUU 23 1499 CFTR-3272-219 + GGCAGUAUGUAAAUUCAGAGCUUU24 1500 CFTR-3272-220 − CUGGUAGCCAAGUAAAAA 18 1501 CFTR-3272-221 −UCUGGUAGCCAAGUAAAAA 19 1502 CFTR-3272-222 − CUCUGGUAGCCAAGUAAAAA 20 1503CFTR-3272-223 − UCUCUGGUAGCCAAGUAAAAA 21 1504 CFTR-3272-224 −AUCUCUGGUAGCCAAGUAAAAA 22 1505 CFTR-3272-225 − CAUCUCUGGUAGCCAAGUAAAAA23 1506 CFTR-3272-226 − CCAUCUCUGGUAGCCAAGUAAAAA 24 1507 CFTR-3272-227 −ACACUGCGCUGGUUCCAA 18 1508 CFTR-3272-228 − AACACUGCGCUGGUUCCAA 19 1509CFTR-3272-229 − CAACACUGCGCUGGUUCCAA 20 1510 CFTR-3272-230 −UCAACACUGCGCUGGUUCCAA 21 1511 CFTR-3272-231 − GUCAACACUGCGCUGGUUCCAA 221512 CFTR-3272-232 − UGUCAACACUGCGCUGGUUCCAA 23 1513 CFTR-3272-233 −CUGUCAACACUGCGCUGGUUCCAA 24 1514 CFTR-3272-234 − GCUGGUUCCAAAUGAGAA 181515 CFTR-3272-235 − CGCUGGUUCCAAAUGAGAA 19 1516 CFTR-3272-236 −GCGCUGGUUCCAAAUGAGAA 20 1517 CFTR-3272-237 − UGCGCUGGUUCCAAAUGAGAA 211518 CFTR-3272-238 − CUGCGCUGGUUCCAAAUGAGAA 22 1519 CFTR-3272-239 −ACUGCGCUGGUUCCAAAUGAGAA 23 1520 CFTR-3272-240 − CACUGCGCUGGUUCCAAAUGAGAA24 1521 CFTR-3272-241 − AUCUUGUUACAAGCUUAA 18 1522 CFTR-3272-242 −CAUCUUGUUACAAGCUUAA 19 1523 CFTR-3272-243 − UCAUCUUGUUACAAGCUUAA 20 1524CFTR-3272-244 − CUCAUCUUGUUACAAGCUUAA 21 1525 CFTR-3272-245 −ACUCAUCUUGUUACAAGCUUAA 22 1526 CFTR-3272-246 − CACUCAUCUUGUUACAAGCUUAA23 1527 CFTR-3272-247 − UCACUCAUCUUGUUACAAGCUUAA 24 1528 CFTR-3272-248 −UAUUUGCAGUGUUUUCUA 18 1529 CFTR-3272-249 − UUAUUUGCAGUGUUUUCUA 19 1530CFTR-3272-42 − GUUAUUUGCAGUGUUUUCUA 20 1323 CFTR-3272-250 −UGUUAUUUGCAGUGUUUUCUA 21 1531 CFTR-3272-251 − AUGUUAUUUGCAGUGUUUUCUA 221532 CFTR-3272-252 − UAUGUUAUUUGCAGUGUUUUCUA 23 1533 CFTR-3272-253 −UUAUGUUAUUUGCAGUGUUUUCUA 24 1534 CFTR-3272-254 − AUGGAAAUAUUUCACAGG 181535 CFTR-3272-255 − UAUGGAAAUAUUUCACAGG 19 1536 CFTR-3272-256 −CUAUGGAAAUAUUUCACAGG 20 1537 CFTR-3272-257 − UCUAUGGAAAUAUUUCACAGG 211538 CFTR-3272-258 − UUCUAUGGAAAUAUUUCACAGG 22 1539 CFTR-3272-259 −UUUCUAUGGAAAUAUUUCACAGG 23 1540 CFTR-3272-260 − UUUUCUAUGGAAAUAUUUCACAGG24 1541 CFTR-3272-261 − UACAAGCUUAAAAGGACU 18 1542 CFTR-3272-262 −UUACAAGCUUAAAAGGACU 19 1543 CFTR-3272-263 − GUUACAAGCUUAAAAGGACU 20 1544CFTR-3272-264 − UGUUACAAGCUUAAAAGGACU 21 1545 CFTR-3272-265 −UUGUUACAAGCUUAAAAGGACU 22 1546 CFTR-3272-266 − CUUGUUACAAGCUUAAAAGGACU23 1547 CFTR-3272-267 − UCUUGUUACAAGCUUAAAAGGACU 24 1548 CFTR-3272-268 −UCGGACGGCAGCCUUACU 18 1549 CFTR-3272-269 − UUCGGACGGCAGCCUUACU 19 1550CFTR-3272-270 − CUUCGGACGGCAGCCUUACU 20 1551 CFTR-3272-271 −CCUUCGGACGGCAGCCUUACU 21 1552 CFTR-3272-272 − GCCUUCGGACGGCAGCCUUACU 221553 CFTR-3272-273 − UGCCUUCGGACGGCAGCCUUACU 23 1554 CFTR-3272-274 −GUGCCUUCGGACGGCAGCCUUACU 24 1555 CFTR-3272-275 − UAUGGACACUUCGUGCCU 181556 CFTR-3272-276 − CUAUGGACACUUCGUGCCU 19 1557 CFTR-3272-277 −ACUAUGGACACUUCGUGCCU 20 1558 CFTR-3272-278 − GACUAUGGACACUUCGUGCCU 211559 CFTR-3272-279 − GGACUAUGGACACUUCGUGCCU 22 1560 CFTR-3272-280 −AGGACUAUGGACACUUCGUGCCU 23 1561 CFTR-3272-281 − AAGGACUAUGGACACUUCGUGCCU24 1562 CFTR-3272-282 − UUAUUUGCAGUGUUUUCU 18 1563 CFTR-3272-283 −GUUAUUUGCAGUGUUUUCU 19 1564 CFTR-3272-284 − UGUUAUUUGCAGUGUUUUCU 20 1565CFTR-3272-285 − AUGUUAUUUGCAGUGUUUUCU 21 1566 CFTR-3272-286 −UAUGUUAUUUGCAGUGUUUUCU 22 1567 CFTR-3272-287 − UUAUGUUAUUUGCAGUGUUUUCU23 1568 CFTR-3272-288 − UUUAUGUUAUUUGCAGUGUUUUCU 24 1569 CFTR-3272-289 −UCAAAGAAUGGCACCAGU 18 1570 CFTR-3272-290 − UUCAAAGAAUGGCACCAGU 19 1571CFTR-3272-291 − AUUCAAAGAAUGGCACCAGU 20 1572 CFTR-3272-292 −UAUUCAAAGAAUGGCACCAGU 21 1573 CFTR-3272-293 − CUAUUCAAAGAAUGGCACCAGU 221574 CFTR-3272-294 − UCUAUUCAAAGAAUGGCACCAGU 23 1575 CFTR-3272-295 −AUCUAUUCAAAGAAUGGCACCAGU 24 1576 CFTR-3272-296 − UUUCAGGUACAAGAUAUU 181577 CFTR-3272-297 − UUUUCAGGUACAAGAUAUU 19 1578 CFTR-3272-298 −UUUUUCAGGUACAAGAUAUU 20 1579 CFTR-3272-299 − CUUUUUCAGGUACAAGAUAUU 211580 CFTR-3272-300 − UCUUUUUCAGGUACAAGAUAUU 22 1581 CFTR-3272-301 −GUCUUUUUCAGGUACAAGAUAUU 23 1582 CFTR-3272-302 − AGUCUUUUUCAGGUACAAGAUAUU24 1583

Table 33A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26->G) and have a high level of orthogonality. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 33A 2nd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3272-303 − AUGGCACCAGUGUGAAA 17 1584 CFTR-3272-304 +UGCCAUUCUUUGAAUAG 17 1585 CFTR-3272-305 + UUGGCAGUAUGUAAAUU 17 1586CFTR-3272-306 + AAGUGUCCAUAGUCCUU 17 1587 CFTR-3272-307 −AGAAUGGCACCAGUGUGAAA 20 1588 CFTR-3272-308 + UGGUGCCAUUCUUUGAAUAG 201589 CFTR-3272-309 + ACGAAGUGUCCAUAGUCCUU 20 1590

Table 33B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within 200 bp from amutation (e.g., 3272-26->G). It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a N. meningitidis Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 33B 4th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3272-310 + ACAAAUGUCAUUGGUUA 17 1591 CFTR-3272-311 −AACCAAUGACAUUUGUG 17 1592 CFTR-3272-312 − UUUUCACUCAUCUUGUU 17 1593CFTR-3272-313 + AUCACAAAUGUCAUUGGUUA 20 1594 CFTR-3272-314 −UUUAACCAAUGACAUUUGUG 20 1595 CFTR-3272-208 + CAGUUGGCAGUAUGUAAAUU 201489 CFTR-3272-315 − CAAUUUUCACUCAUCUUGUU 20 1596

Table 34A provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the firsttier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+10kbC->T), have a high level of orthogonality andstart with a 5′G. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 34A 1st Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-1 − GAGUAAGACACCCUGAA 17 3344 CFTR-3849-2 −GAUUUCUGGAGACCACA 17 3345 CFTR-3849-3 + GGUUUUAGCUAUUACUC 17 3346CFTR-3849-4 − GUAGUUGAAUCAUUCAG 17 3347 CFTR-3849-5 + GAACUCAGUUUUUAGGU17 3348 CFTR-3849-6 − GAAAGGAAAUGUUCUAUUCA 20 3349 CFTR-3849-7 +GUUUUUAGGUUGGGAAAGAC 20 3350 CFTR-3849-8 + GCACAUAAUAAUUAGUUUCC 20 3351CFTR-3849-9 + GAGAACUCAGUUUUUAGGUU 20 3352 CFTR-3849-10 −GAAAACACUGACUUAGAUUU 20 3353

Table 34B provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+17kbC->T) and have a high level of orthogonality.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 34B 2nd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-11 + UCUGACACAUUUUUCAA 17 3354 CFTR-3849-12 +CUUUGGUUUAGCUUUAA 17 3355 CFTR-3849-13 + UGAAAUUUAGAUCCACA 17 3356CFTR-3849-14 − UUGAUCCAACAUUCUCA 17 3357 CFTR-3849-15 −AGGAAAUGUUCUAUUCA 17 3358 CFTR-3849-16 + UUUAAUACUGCAACAGA 17 3359CFTR-3849-17 + CAGUGAUCUGUUGAAUA 17 3360 CFTR-3849-18 −AGCAGUUCAAUGAUAUA 17 3361 CFTR-3849-19 − ACACUGACUUAGAUUUA 17 3362CFTR-3849-20 + CUUCUUGUUUAUAUAAC 17 3363 CFTR-3849-21 +CAAAGGCAAGGAAUCAC 17 3364 CFTR-3849-22 + UUUAGGUUGGGAAAGAC 17 3365CFTR-3849-23 − UGUAUAUAUCACAGUAC 17 3366 CFTR-3849-24 −CAGAUCACUGAGAAGCC 17 3367 CFTR-3849-25 + CAUAAUAAUUAGUUUCC 17 3368CFTR-3849-26 + CCGGGAUUUGUUUUUCC 17 3369 CFTR-3849-27 +UUAUAUCAUUGAACUGC 17 3370 CFTR-3849-28 − CUUAAAAGCUUAUUUGC 17 3371CFTR-3849-29 − AUUCUUCAUGAUAAAUC 17 3372 CFTR-3849-30 −CUUGAUCCAACAUUCUC 17 3373 CFTR-3849-31 + AUAGAACAUUUCCUUUC 17 3374CFTR-3849-32 + ACAUAAUAAUUAGUUUC 17 3375 CFTR-3849-33 +AAUAUCUAUUUAAUCAG 17 3376 CFTR-3849-34 − CAACAUUCUCAGGGAGG 17 3377CFTR-3849-35 − AUCCAACAUUCUCAGGG 17 3378 CFTR-3849-36 +AUACAAUAUACCAUAUG 17 3379 CFTR-3849-37 − CAAUUAUAAUCACCUUG 17 3380CFTR-3849-38 − UCUAUCUUGAUAAACAU 17 3381 CFTR-3849-39 −UAGUUGAAUCAUUCAGU 17 3382 CFTR-3849-40 + CUCCUCCCUGAGAAUGU 17 3383CFTR-3849-41 − AAACAAGAAGACUUUGU 17 3384 CFTR-3849-42 +AACUCAGUUUUUAGGUU 17 3385 CFTR-3849-43 − AACAAGAAGACUUUGUU 17 3386CFTR-3849-44 − AACACUGACUUAGAUUU 17 3387 CFTR-3849-45 −UUUAAGGUCUAUACUUU 17 3388 CFTR-3849-46 − CAUCUGUUGCAGUAUUAAAA 20 3389CFTR-3849-47 + UAUUUUCAAGAGACUACAAA 20 3390 CFTR-3849-48 +AUAUCUGACACAUUUUUCAA 20 3391 CFTR-3849-49 + AAUCUUUGGUUUAGCUUUAA 20 3392CFTR-3849-50 − CUUGAUUUCUGGAGACCACA 20 3393 CFTR-3849-51 +UGACACAUUUUUCAAAGGCA 20 3394 CFTR-3849-52 − AUCUUGAUCCAACAUUCUCA 20 3395CFTR-3849-53 + CAUUUUAAUACUGCAACAGA 20 3396 CFTR-3849-54 +UCUCAGUGAUCUGUUGAAUA 20 3397 CFTR-3849-55 − CUUAAUCAAAAUUCCUCAUA 20 3398CFTR-3849-56 − ACCAGCAGUUCAAUGAUAUA 20 3399 CFTR-3849-57 −AAAACACUGACUUAGAUUUA 20 3400 CFTR-3849-58 − AGAUAUUUGAUAGUACUUUA 20 3401CFTR-3849-59 + UUUCAAAGGCAAGGAAUCAC 20 3402 CFTR-3849-60 −UAUUGUAUAUAUCACAGUAC 20 3403 CFTR-3849-61 − CAACAGAUCACUGAGAAGCC 20 3404CFTR-3849-62 − AAGCCUGGAAAAACAAAUCC 20 3405 CFTR-3849-63 +UUUCCGGGAUUUGUUUUUCC 20 3406 CFTR-3849-64 + UCCUUAUAUCAUUGAACUGC 20 3407CFTR-3849-65 − UGUCUUAAAAGCUUAUUUGC 20 3408 CFTR-3849-66 +AAAGGUUUUAGCUAUUACUC 20 3409 CFTR-3849-67 − UAUCUUGAUCCAACAUUCUC 20 3410CFTR-3849-68 − UGACUUGUCAUCUUGAUUUC 20 3411 CFTR-3849-69 +UGAAUAGAACAUUUCCUUUC 20 3412 CFTR-3849-70 + UUGGGAAAGACUGGAUGAAG 20 3413CFTR-3849-71 + UCAAAUAUCUAUUUAAUCAG 20 3414 CFTR-3849-72 −AAAGUAGUUGAAUCAUUCAG 20 3415 CFTR-3849-73 − AUCCAACAUUCUCAGGGAGG 20 3416CFTR-3849-74 − UUGAUCCAACAUUCUCAGGG 20 3417 CFTR-3849-75 −AUUCAAUUAUAAUCACCUUG 20 3418 CFTR-3849-76 − AUGUCUUAAAAGCUUAUUUG 20 3419CFTR-3849-77 − UUUUCUAUCUUGAUAAACAU 20 3420 CFTR-3849-78 +AGAGAACUCAGUUUUUAGGU 20 3421 CFTR-3849-79 + CACCUCCUCCCUGAGAAUGU 20 3422CFTR-3849-80 − UAUAAACAAGAAGACUUUGU 20 3423 CFTR-3849-81 +AAGUUAAACAGUGUUGAAUU 20 3424 CFTR-3849-82 − AUAAACAAGAAGACUUUGUU 20 3425CFTR-3849-83 + AACAAAGCAAACAAGUAUUU 20 3426 CFTR-3849-84 −UACUUUAAGGUCUAUACUUU 20 3427

Table 34C provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the thirdtier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+10kbC->T) and start with a 5′G. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. pyogenes Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 34C 3rd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-85 + GGAAAGACUGGAUGAAG 17 3428 CFTR-3849-86 +GGCAAUUUGUAAAUCUU 17 3429 CFTR-3849-87 − GUAUUUUUUUCUGAAGAAAA 20 3430CFTR-3849-88 − GGUGAGUAAGACACCCUGAA 20 3431 CFTR-3849-89 +GAAUAGAACAUUUCCUUUCA 20 3432 CFTR-3849-90 + GGCACAUAAUAAUUAGUUUC 20 3433

Table 34D provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+35kbC->T). It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. pyogenes Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 34D 4th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-91 − UUUUUUUCUGAAGAAAA 17 3434 CFTR-3849-92 +UUUAUCAAGAUAGAAAA 17 3435 CFTR-3849-93 − CUGUUGCAGUAUUAAAA 17 3436CFTR-3849-94 + UUUCAAGAGACUACAAA 17 3437 CFTR-3849-95 −AUUUUUUUCUGAAGAAA 17 3438 CFTR-3849-96 + CACAUUUUUCAAAGGCA 17 3439CFTR-3849-97 − AAUUUAUAAGAAUAUCA 17 3440 CFTR-3849-98 +UAGAACAUUUCCUUUCA 17 3441 CFTR-3849-99 − AAUCAAAAUUCCUCAUA 17 3442CFTR-3849-100 − UAUUUGAUAGUACUUUA 17 3443 CFTR-3849-101 −CCUGGAAAAACAAAUCC 17 3444 CFTR-3849-102 − CUUGUCAUCUUGAUUUC 17 3445CFTR-3849-103 − UUUUUUCUGAAGAAAAG 17 3446 CFTR-3849-104 +UAUUUUUCAUUACCUUG 17 3447 CFTR-3849-105 − UCUUAAAAGCUUAUUUG 17 3448CFTR-3849-106 + UUAUCAAGAUAGAAAAU 17 3449 CFTR-3849-107 +UUAAACAGUGUUGAAUU 17 3450 CFTR-3849-108 + AAAGCAAACAAGUAUUU 17 3451CFTR-3849-109 + UAGAGAACUCAGUUUUU 17 3452 CFTR-3849-110 +AUGUUUAUCAAGAUAGAAAA 20 3453 CFTR-3849-111 − AGUAUUUUUUUCUGAAGAAA 203454 CFTR-3849-112 + AACUGAAAUUUAGAUCCACA 20 3455 CFTR-3849-113 −AAUAAUUUAUAAGAAUAUCA 20 3456 CFTR-3849-114 + AGUCUUCUUGUUUAUAUAAC 203457 CFTR-3849-115 − UAUUUUUUUCUGAAGAAAAG 20 3458 CFTR-3849-116 +UAUAUACAAUAUACCAUAUG 20 3459 CFTR-3849-117 + AAUUAUUUUUCAUUACCUUG 203460 CFTR-3849-118 + UGUUUAUCAAGAUAGAAAAU 20 3461 CFTR-3849-119 −AAGUAGUUGAAUCAUUCAGU 20 3462 CFTR-3849-120 + AGAGGCAAUUUGUAAAUCUU 203463 CFTR-3849-121 + UUUUAGAGAACUCAGUUUUU 20 3464

Table 35A provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the firsttier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+10kbC->T), have a high level of orthogonality,start with a 5′G, and PAM is NNGRRT. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable can be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 35A 1st Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-122 + GUUUAUCAAGAUAGAAAA 18 3465 CFTR-3849-123 +GAUCCACAAGGUGAUUAUAA 20 3466 CFTR-3849-124 + GAAUAUGCUGCUUAUACCCA 203467 CFTR-3849-125 + GACACAUUUUUCAAAGGCA 19 3468 CFTR-3849-126 +GUUUUUAGGUUGGGAAAGA 19 3469 CFTR-3849-127 + GCUGUAAUUGCAUUGUACC 19 3470CFTR-3849-128 + GCUAGCUGUAAUUGCAUUGUACC 23 3471 CFTR-3849-129 +GUGAUCUGUUGAAUAAGGC 19 3472 CFTR-3849-130 + GCACAUAAUAAUUAGUUUC 19 3473CFTR-3849-90 + GGCACAUAAUAAUUAGUUUC 20 3433 CFTR-3849-131 +GCACCUCCUCCCUGAGAAUG 20 3474 CFTR-3849-132 + GAUUAAGUCCAGAUUUAUCAUG 223475 CFTR-3849-133 + GAUAUAUACAAUAUACCAUAUG 22 3476 CFTR-3849-134 +GUGAUAUAUACAAUAUACCAUAUG 24 3477 CFTR-3849-135 + GUUGAAAGUUAAACAGUG 183478 CFTR-3849-136 + GUGUUUGUGCUGAUAUGAU 19 3479 CFTR-3849-137 +GGUGUUUGUGCUGAUAUGAU 20 3480 CFTR-3849-138 − GUCUUUCCCAACCUAAAAA 19 3481CFTR-3849-139 − GUUCAAUGAUAUAAGGAAAC 20 3482 CFTR-3849-140 −GCAGUUCAAUGAUAUAAGGAAAC 23 3483 CFTR-3849-141 − GUAAUGAAAAAUAAUUAC 183484 CFTR-3849-142 − GGUAAUGAAAAAUAAUUAC 19 3485 CFTR-3849-143 −GAAAUAAUUUAUAAGAAUAUC 21 3486 CFTR-3849-144 − GAUAAACAUUGGUGUAAAGUAG 223487 CFTR-3849-145 − GUUAUAUAAACAAGAAGACUUUG 23 3488 CFTR-3849-146 −GAAAACACUGACUUAGAUU 19 3489 CFTR-3849-147 − GUACUUUAAGGUCUAUACUU 20 3490CFTR-3849-148 − GAUAGUACUUUAAGGUCUAUACUU 24 3491 CFTR-3849-149 −GAUUCAAUUAUAAUCACCUU 20 3492

Table 35B provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+10kbC->T), have a high level of orthogonality andPAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha S. aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 35B 2nd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-150 + UGUUUAUCAAGAUAGAAAA 19 3493CFTR-3849-110 + AUGUUUAUCAAGAUAGAAAA 20 3453 CFTR-3849-151 +UCCACAAGGUGAUUAUAA 18 3494 CFTR-3849-152 + AUCCACAAGGUGAUUAUAA 19 3495CFTR-3849-153 + AUAUGCUGCUUAUACCCA 18 3496 CFTR-3849-154 +AAUAUGCUGCUUAUACCCA 19 3497 CFTR-3849-155 + ACACAUUUUUCAAAGGCA 18 3498CFTR-3849-51 + UGACACAUUUUUCAAAGGCA 20 3394 CFTR-3849-156 +CUGACACAUUUUUCAAAGGCA 21 3499 CFTR-3849-157 + UCUGACACAUUUUUCAAAGGCA 223500 CFTR-3849-158 + AUCUGACACAUUUUUCAAAGGCA 23 3501 CFTR-3849-159 +UAUCUGACACAUUUUUCAAAGGCA 24 3502 CFTR-3849-160 + UUUUUAGGUUGGGAAAGA 183503 CFTR-3849-161 + AGUUUUUAGGUUGGGAAAGA 20 3504 CFTR-3849-162 +CAGUUUUUAGGUUGGGAAAGA 21 3505 CFTR-3849-163 + UCAGUUUUUAGGUUGGGAAAGA 223506 CFTR-3849-164 + CUCAGUUUUUAGGUUGGGAAAGA 23 3507 CFTR-3849-165 +ACUCAGUUUUUAGGUUGGGAAAGA 24 3508 CFTR-3849-166 + CUGUAAUUGCAUUGUACC 183509 CFTR-3849-167 + AGCUGUAAUUGCAUUGUACC 20 3510 CFTR-3849-168 +UAGCUGUAAUUGCAUUGUACC 21 3511 CFTR-3849-169 + CUAGCUGUAAUUGCAUUGUACC 223512 CFTR-3849-170 + UGCUAGCUGUAAUUGCAUUGUACC 24 3513 CFTR-3849-171 +UGAUCUGUUGAAUAAGGC 18 3514 CFTR-3849-172 + AGUGAUCUGUUGAAUAAGGC 20 3515CFTR-3849-173 + CAGUGAUCUGUUGAAUAAGGC 21 3516 CFTR-3849-174 +UCAGUGAUCUGUUGAAUAAGGC 22 3517 CFTR-3849-175 + CUCAGUGAUCUGUUGAAUAAGGC23 3518 CFTR-3849-176 + UCUCAGUGAUCUGUUGAAUAAGGC 24 3519 CFTR-3849-177 +CACAUAAUAAUUAGUUUC 18 3520 CFTR-3849-178 + UGGCACAUAAUAAUUAGUUUC 21 3521CFTR-3849-179 + CUGGCACAUAAUAAUUAGUUUC 22 3522 CFTR-3849-180 +ACUGGCACAUAAUAAUUAGUUUC 23 3523 CFTR-3849-181 + AACUGGCACAUAAUAAUUAGUUUC24 3524 CFTR-3849-182 + ACCUCCUCCCUGAGAAUG 18 3525 CFTR-3849-183 +CACCUCCUCCCUGAGAAUG 19 3526 CFTR-3849-184 + UGCACCUCCUCCCUGAGAAUG 213527 CFTR-3849-185 + AUGCACCUCCUCCCUGAGAAUG 22 3528 CFTR-3849-186 +AAUGCACCUCCUCCCUGAGAAUG 23 3529 CFTR-3849-187 + CAAUGCACCUCCUCCCUGAGAAUG24 3530 CFTR-3849-188 + AAGUCCAGAUUUAUCAUG 18 3531 CFTR-3849-189 +UAAGUCCAGAUUUAUCAUG 19 3532 CFTR-3849-190 + UUAAGUCCAGAUUUAUCAUG 20 3533CFTR-3849-191 + AUUAAGUCCAGAUUUAUCAUG 21 3534 CFTR-3849-192 +UGAUUAAGUCCAGAUUUAUCAUG 23 3535 CFTR-3849-193 + UUGAUUAAGUCCAGAUUUAUCAUG24 3536 CFTR-3849-194 + UAUACAAUAUACCAUAUG 18 3537 CFTR-3849-195 +AUAUACAAUAUACCAUAUG 19 3538 CFTR-3849-116 + UAUAUACAAUAUACCAUAUG 20 3459CFTR-3849-196 + AUAUAUACAAUAUACCAUAUG 21 3539 CFTR-3849-197 +UGAUAUAUACAAUAUACCAUAUG 23 3540 CFTR-3849-198 + AGGCUUCUCAGUGAUCUG 183541 CFTR-3849-199 + CAGGCUUCUCAGUGAUCUG 19 3542 CFTR-3849-200 +CCAGGCUUCUCAGUGAUCUG 20 3543 CFTR-3849-201 + UCCAGGCUUCUCAGUGAUCUG 213544 CFTR-3849-202 + UUCCAGGCUUCUCAGUGAUCUG 22 3545 CFTR-3849-203 +UUUCCAGGCUUCUCAGUGAUCUG 23 3546 CFTR-3849-204 + UUUUCCAGGCUUCUCAGUGAUCUG24 3547 CFTR-3849-205 + UGUUGAAAGUUAAACAGUG 19 3548 CFTR-3849-206 +AUGUUGAAAGUUAAACAGUG 20 3549 CFTR-3849-207 + UAUGUUGAAAGUUAAACAGUG 213550 CFTR-3849-208 + AUAUGUUGAAAGUUAAACAGUG 22 3551 CFTR-3849-209 +AAUAUGUUGAAAGUUAAACAGUG 23 3552 CFTR-3849-210 + UAAUAUGUUGAAAGUUAAACAGUG24 3553 CFTR-3849-211 + UGUUUGUGCUGAUAUGAU 18 3554 CFTR-3849-212 +AGGUGUUUGUGCUGAUAUGAU 21 3555 CFTR-3849-213 + UAGGUGUUUGUGCUGAUAUGAU 223556 CFTR-3849-214 + UUAGGUGUUUGUGCUGAUAUGAU 23 3557 CFTR-3849-215 +UUUAGGUGUUUGUGCUGAUAUGAU 24 3558 CFTR-3849-216 + UCAAUGCACCUCCUCCCU 183559 CFTR-3849-217 + UUCAAUGCACCUCCUCCCU 19 3560 CFTR-3849-218 +CUUCAAUGCACCUCCUCCCU 20 3561 CFTR-3849-219 + ACUUCAAUGCACCUCCUCCCU 213562 CFTR-3849-220 + AACUUCAAUGCACCUCCUCCCU 22 3563 CFTR-3849-221 +UAACUUCAAUGCACCUCCUCCCU 23 3564 CFTR-3849-222 + AUAACUUCAAUGCACCUCCUCCCU24 3565 CFTR-3849-223 + UUAAUGAAACAUAGUAUU 18 3566 CFTR-3849-224 +AUUAAUGAAACAUAGUAUU 19 3567 CFTR-3849-225 + UAUUAAUGAAACAUAGUAUU 20 3568CFTR-3849-226 + UUAUUAAUGAAACAUAGUAUU 21 3569 CFTR-3849-227 +AUUAUUAAUGAAACAUAGUAUU 22 3570 CFTR-3849-228 + AAUUAUUAAUGAAACAUAGUAUU23 3571 CFTR-3849-229 + UAAUUAUUAAUGAAACAUAGUAUU 24 3572 CFTR-3849-230 +CAUGAAUAGAACAUUUCCUUU 21 3573 CFTR-3849-231 + CCAUGAAUAGAACAUUUCCUUU 223574 CFTR-3849-232 + ACCAUGAAUAGAACAUUUCCUUU 23 3575 CFTR-3849-233 +UACCAUGAAUAGAACAUUUCCUUU 24 3576 CFTR-3849-234 − UCUUUCCCAACCUAAAAA 183577 CFTR-3849-235 − AGUCUUUCCCAACCUAAAAA 20 3578 CFTR-3849-236 −CAGUCUUUCCCAACCUAAAAA 21 3579 CFTR-3849-237 − CCAGUCUUUCCCAACCUAAAAA 223580 CFTR-3849-238 − UCCAGUCUUUCCCAACCUAAAAA 23 3581 CFTR-3849-239 −AUCCAGUCUUUCCCAACCUAAAAA 24 3582 CFTR-3849-240 − AAGUAGUUGAAUCAUUCA 183583 CFTR-3849-241 − AAAGUAGUUGAAUCAUUCA 19 3584 CFTR-3849-242 −UAAAGUAGUUGAAUCAUUCA 20 3585 CFTR-3849-243 − AUUGUAUAUAUCACAGUA 18 3586CFTR-3849-244 − UAUUGUAUAUAUCACAGUA 19 3587 CFTR-3849-245 −AUAUUGUAUAUAUCACAGUA 20 3588 CFTR-3849-246 − UCAAUGAUAUAAGGAAAC 18 3589CFTR-3849-247 − UUCAAUGAUAUAAGGAAAC 19 3590 CFTR-3849-248 −AGUUCAAUGAUAUAAGGAAAC 21 3591 CFTR-3849-249 − CAGUUCAAUGAUAUAAGGAAAC 223592 CFTR-3849-250 − AGCAGUUCAAUGAUAUAAGGAAAC 24 3593 CFTR-3849-251 −AGGUAAUGAAAAAUAAUUAC 20 3594 CFTR-3849-252 − AGAAAUAAUUUAUAAGAAUAUC 223595 CFTR-3849-253 − CAGAAAUAAUUUAUAAGAAUAUC 23 3596 CFTR-3849-254 −UCAGAAAUAAUUUAUAAGAAUAUC 24 3597 CFTR-3849-255 − AACAUUGGUGUAAAGUAG 183598 CFTR-3849-256 − AAACAUUGGUGUAAAGUAG 19 3599 CFTR-3849-257 −UAAACAUUGGUGUAAAGUAG 20 3600 CFTR-3849-258 − AUAAACAUUGGUGUAAAGUAG 213601 CFTR-3849-259 − UGAUAAACAUUGGUGUAAAGUAG 23 3602 CFTR-3849-260 −UUGAUAAACAUUGGUGUAAAGUAG 24 3603 CFTR-3849-261 − UGUUGCAGUAUUAAAAUG 183604 CFTR-3849-262 − CUGUUGCAGUAUUAAAAUG 19 3605 CFTR-3849-263 −UCUGUUGCAGUAUUAAAAUG 20 3606 CFTR-3849-264 − AUCUGUUGCAGUAUUAAAAUG 213607 CFTR-3849-265 − CAUCUGUUGCAGUAUUAAAAUG 22 3608 CFTR-3849-266 −CCAUCUGUUGCAGUAUUAAAAUG 23 3609 CFTR-3849-267 − UCCAUCUGUUGCAGUAUUAAAAUG24 3610 CFTR-3849-268 − AUAAACAAGAAGACUUUG 18 3611 CFTR-3849-269 −UAUAAACAAGAAGACUUUG 19 3612 CFTR-3849-270 − AUAUAAACAAGAAGACUUUG 20 3613CFTR-3849-271 − UAUAUAAACAAGAAGACUUUG 21 3614 CFTR-3849-272 −UUAUAUAAACAAGAAGACUUUG 22 3615 CFTR-3849-273 − AGUUAUAUAAACAAGAAGACUUUG24 3616 CFTR-3849-274 − AAAACACUGACUUAGAUU 18 3617 CFTR-3849-275 −AGAAAACACUGACUUAGAUU 20 3618 CFTR-3849-276 − UAGAAAACACUGACUUAGAUU 213619 CFTR-3849-277 − UUAGAAAACACUGACUUAGAUU 22 3620 CFTR-3849-278 −AUUAGAAAACACUGACUUAGAUU 23 3621 CFTR-3849-279 − UAUUAGAAAACACUGACUUAGAUU24 3622 CFTR-3849-280 − ACUUUAAGGUCUAUACUU 18 3623 CFTR-3849-281 −UACUUUAAGGUCUAUACUU 19 3624 CFTR-3849-282 − AGUACUUUAAGGUCUAUACUU 213625 CFTR-3849-283 − UAGUACUUUAAGGUCUAUACUU 22 3626 CFTR-3849-284 −AUAGUACUUUAAGGUCUAUACUU 23 3627 CFTR-3849-285 − UUCAAUUAUAAUCACCUU 183628 CFTR-3849-286 − AUUCAAUUAUAAUCACCUU 19 3629 CFTR-3849-287 −AGAUUCAAUUAUAAUCACCUU 21 3630 CFTR-3849-288 − AAGAUUCAAUUAUAAUCACCUU 223631 CFTR-3849-289 − AAAGAUUCAAUUAUAAUCACCUU 23 3632 CFTR-3849-290 −AAAAGAUUCAAUUAUAAUCACCUU 24 3633

Table 35C provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+10kbC->T), and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 35C 3rd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-291 + AAUGUUUAUCAAGAUAGAAAA 21 3634CFTR-3849-292 + CAAUGUUUAUCAAGAUAGAAAA 22 3635 CFTR-3849-293 +CCAAUGUUUAUCAAGAUAGAAAA 23 3636 CFTR-3849-294 + ACCAAUGUUUAUCAAGAUAGAAAA24 3637 CFTR-3849-295 + AGAUCCACAAGGUGAUUAUAA 21 3638 CFTR-3849-296 +UAGAUCCACAAGGUGAUUAUAA 22 3639 CFTR-3849-297 + UUAGAUCCACAAGGUGAUUAUAA23 3640 CFTR-3849-298 + UUUAGAUCCACAAGGUGAUUAUAA 24 3641 CFTR-3849-299 +AGAAUAUGCUGCUUAUACCCA 21 3642 CFTR-3849-300 + GAGAAUAUGCUGCUUAUACCCA 223643 CFTR-3849-301 + UGAGAAUAUGCUGCUUAUACCCA 23 3644 CFTR-3849-302 +UUGAGAAUAUGCUGCUUAUACCCA 24 3645 CFTR-3849-303 + GAAUAGAACAUUUCCUUU 183646 CFTR-3849-304 + UGAAUAGAACAUUUCCUUU 19 3647 CFTR-3849-305 +AUGAAUAGAACAUUUCCUUU 20 3648 CFTR-3849-306 − GUAAAGUAGUUGAAUCAUUCA 213649 CFTR-3849-307 − UGUAAAGUAGUUGAAUCAUUCA 22 3650 CFTR-3849-308 −GUGUAAAGUAGUUGAAUCAUUCA 23 3651 CFTR-3849-309 − GGUGUAAAGUAGUUGAAUCAUUCA24 3652 CFTR-3849-310 − UAUAUUGUAUAUAUCACAGUA 21 3653 CFTR-3849-311 −GUAUAUUGUAUAUAUCACAGUA 22 3654 CFTR-3849-312 − GGUAUAUUGUAUAUAUCACAGUA23 3655 CFTR-3849-313 − UGGUAUAUUGUAUAUAUCACAGUA 24 3656 CFTR-3849-314 −AAGGUAAUGAAAAAUAAUUAC 21 3657 CFTR-3849-315 − CAAGGUAAUGAAAAAUAAUUAC 223658 CFTR-3849-316 − ACAAGGUAAUGAAAAAUAAUUAC 23 3659 CFTR-3849-317 −CACAAGGUAAUGAAAAAUAAUUAC 24 3660 CFTR-3849-318 − AUAAUUUAUAAGAAUAUC 183661 CFTR-3849-319 − AAUAAUUUAUAAGAAUAUC 19 3662 CFTR-3849-320 −AAAUAAUUUAUAAGAAUAUC 20 3663 CFTR-3849-321 − AUUUCAGAAAUAAUUUAU 18 3664CFTR-3849-322 − AAUUUCAGAAAUAAUUUAU 19 3665 CFTR-3849-323 −AAAUUUCAGAAAUAAUUUAU 20 3666 CFTR-3849-324 − GAAAUUUCAGAAAUAAUUUAU 213667 CFTR-3849-325 − AGAAAUUUCAGAAAUAAUUUAU 22 3668 CFTR-3849-326 −CAGAAAUUUCAGAAAUAAUUUAU 23 3669 CFTR-3849-327 − ACAGAAAUUUCAGAAAUAAUUUAU24 3670

Table 35D provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the fifthtier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+21kbC->T), and PAM is NNGRRV. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 35D 4th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-328 + UUUUCAAGAGACUACAAA 18 3671 CFTR-3849-329 +AUUUUCAAGAGACUACAAA 19 3672 CFTR-3849-47 + UAUUUUCAAGAGACUACAAA 20 3390CFTR-3849-330 + GUAUUUUCAAGAGACUACAAA 21 3673 CFTR-3849-331 +UGUAUUUUCAAGAGACUACAAA 22 3674 CFTR-3849-332 + CUGUAUUUUCAAGAGACUACAAA23 3675 CFTR-3849-333 + UCUGUAUUUUCAAGAGACUACAAA 24 3676 CFTR-3849-334 +UGUUUAUCAAGAUAGAAA 18 3677 CFTR-3849-335 + AUGUUUAUCAAGAUAGAAA 19 3678CFTR-3849-336 + AAUGUUUAUCAAGAUAGAAA 20 3679 CFTR-3849-337 +CAAUGUUUAUCAAGAUAGAAA 21 3680 CFTR-3849-338 + CCAAUGUUUAUCAAGAUAGAAA 223681 CFTR-3849-339 + ACCAAUGUUUAUCAAGAUAGAAA 23 3682 CFTR-3849-340 +CACCAAUGUUUAUCAAGAUAGAAA 24 3683 CFTR-3849-341 + AUUUUCAAGAGACUACAA 183684 CFTR-3849-342 + UAUUUUCAAGAGACUACAA 19 3685 CFTR-3849-343 +GUAUUUUCAAGAGACUACAA 20 3686 CFTR-3849-344 + UGUAUUUUCAAGAGACUACAA 213687 CFTR-3849-345 + CUGUAUUUUCAAGAGACUACAA 22 3688 CFTR-3849-346 +UCUGUAUUUUCAAGAGACUACAA 23 3689 CFTR-3849-347 + UUCUGUAUUUUCAAGAGACUACAA24 3690 CFTR-3849-348 + AUCAAGAUGACAAGUCAA 18 3691 CFTR-3849-349 +AAUCAAGAUGACAAGUCAA 19 3692 CFTR-3849-350 + AAAUCAAGAUGACAAGUCAA 20 3693CFTR-3849-351 + GAAAUCAAGAUGACAAGUCAA 21 3694 CFTR-3849-352 +AGAAAUCAAGAUGACAAGUCAA 22 3695 CFTR-3849-353 + CAGAAAUCAAGAUGACAAGUCAA23 3696 CFTR-3849-354 + CCAGAAAUCAAGAUGACAAGUCAA 24 3697 CFTR-3849-355 +AUUGCAUUGUACCAUGAA 18 3698 CFTR-3849-356 + AAUUGCAUUGUACCAUGAA 19 3699CFTR-3849-357 + UAAUUGCAUUGUACCAUGAA 20 3700 CFTR-3849-358 +GUAAUUGCAUUGUACCAUGAA 21 3701 CFTR-3849-359 + UGUAAUUGCAUUGUACCAUGAA 223702 CFTR-3849-360 + CUGUAAUUGCAUUGUACCAUGAA 23 3703 CFTR-3849-361 +GCUGUAAUUGCAUUGUACCAUGAA 24 3704 CFTR-3849-362 + CAAAUAUCUAUUUAAUCA 183705 CFTR-3849-363 + UCAAAUAUCUAUUUAAUCA 19 3706 CFTR-3849-364 +AUCAAAUAUCUAUUUAAUCA 20 3707 CFTR-3849-365 + UAUCAAAUAUCUAUUUAAUCA 213708 CFTR-3849-366 + CUAUCAAAUAUCUAUUUAAUCA 22 3709 CFTR-3849-367 +ACUAUCAAAUAUCUAUUUAAUCA 23 3710 CFTR-3849-368 + UACUAUCAAAUAUCUAUUUAAUCA24 3711 CFTR-3849-369 + UCUGGUUUCCUUAUAUCA 18 3712 CFTR-3849-370 +CUCUGGUUUCCUUAUAUCA 19 3713 CFTR-3849-371 + ACUCUGGUUUCCUUAUAUCA 20 3714CFTR-3849-372 + UACUCUGGUUUCCUUAUAUCA 21 3715 CFTR-3849-373 +UUACUCUGGUUUCCUUAUAUCA 22 3716 CFTR-3849-374 + AUUACUCUGGUUUCCUUAUAUCA23 3717 CFTR-3849-375 + UAUUACUCUGGUUUCCUUAUAUCA 24 3718 CFTR-3849-376 +CACCAAUGUUUAUCAAGA 18 3719 CFTR-3849-377 + ACACCAAUGUUUAUCAAGA 19 3720CFTR-3849-378 + UACACCAAUGUUUAUCAAGA 20 3721 CFTR-3849-379 +UUACACCAAUGUUUAUCAAGA 21 3722 CFTR-3849-380 + UUUACACCAAUGUUUAUCAAGA 223723 CFTR-3849-381 + CUUUACACCAAUGUUUAUCAAGA 23 3724 CFTR-3849-382 +ACUUUACACCAAUGUUUAUCAAGA 24 3725 CFTR-3849-383 + UUUUAAUACUGCAACAGA 183726 CFTR-3849-384 + AUUUUAAUACUGCAACAGA 19 3727 CFTR-3849-53 +CAUUUUAAUACUGCAACAGA 20 3396 CFTR-3849-385 + CCAUUUUAAUACUGCAACAGA 213728 CFTR-3849-386 + ACCAUUUUAAUACUGCAACAGA 22 3729 CFTR-3849-387 +CACCAUUUUAAUACUGCAACAGA 23 3730 CFTR-3849-388 + UCACCAUUUUAAUACUGCAACAGA24 3731 CFTR-3849-389 + UAUUAAUGAAACAUAGUA 18 3732 CFTR-3849-390 +UUAUUAAUGAAACAUAGUA 19 3733 CFTR-3849-391 + AUUAUUAAUGAAACAUAGUA 20 3734CFTR-3849-392 + AAUUAUUAAUGAAACAUAGUA 21 3735 CFTR-3849-393 +UAAUUAUUAAUGAAACAUAGUA 22 3736 CFTR-3849-394 + UUAAUUAUUAAUGAAACAUAGUA23 3737 CFTR-3849-395 + AUUAAUUAUUAAUGAAACAUAGUA 24 3738 CFTR-3849-396 +UAUCUCUAUUAAUUAUUA 18 3739 CFTR-3849-397 + AUAUCUCUAUUAAUUAUUA 19 3740CFTR-3849-398 + UAUAUCUCUAUUAAUUAUUA 20 3741 CFTR-3849-399 +AUAUAUCUCUAUUAAUUAUUA 21 3742 CFTR-3849-400 + CAUAUAUCUCUAUUAAUUAUUA 223743 CFTR-3849-401 + UCAUAUAUCUCUAUUAAUUAUUA 23 3744 CFTR-3849-402 +UUCAUAUAUCUCUAUUAAUUAUUA 24 3745 CFTR-3849-403 + AAAAUACUAAAAUUUUUA 183746 CFTR-3849-404 + AAAAAUACUAAAAUUUUUA 19 3747 CFTR-3849-405 +AAAAAAUACUAAAAUUUUUA 20 3748 CFTR-3849-406 + AAAAAAAUACUAAAAUUUUUA 213749 CFTR-3849-407 + GAAAAAAAUACUAAAAUUUUUA 22 3750 CFTR-3849-408 +AGAAAAAAAUACUAAAAUUUUUA 23 3751 CFTR-3849-409 + CAGAAAAAAAUACUAAAAUUUUUA24 3752 CFTR-3849-410 + CUUCAAUGCACCUCCUCC 18 3753 CFTR-3849-411 +ACUUCAAUGCACCUCCUCC 19 3754 CFTR-3849-412 + AACUUCAAUGCACCUCCUCC 20 3755CFTR-3849-413 + UAACUUCAAUGCACCUCCUCC 21 3756 CFTR-3849-414 +AUAACUUCAAUGCACCUCCUCC 22 3757 CFTR-3849-415 + AAUAACUUCAAUGCACCUCCUCC23 3758 CFTR-3849-416 + UAAUAACUUCAAUGCACCUCCUCC 24 3759 CFTR-3849-417 +GACACAUUUUUCAAAGGC 18 3760 CFTR-3849-418 + UGACACAUUUUUCAAAGGC 19 3761CFTR-3849-419 + CUGACACAUUUUUCAAAGGC 20 3762 CFTR-3849-420 +UCUGACACAUUUUUCAAAGGC 21 3763 CFTR-3849-421 + AUCUGACACAUUUUUCAAAGGC 223764 CFTR-3849-422 + UAUCUGACACAUUUUUCAAAGGC 23 3765 CFTR-3849-423 +AUAUCUGACACAUUUUUCAAAGGC 24 3766 CFTR-3849-424 + AUUAAGUCCAGAUUUAUC 183767 CFTR-3849-425 + GAUUAAGUCCAGAUUUAUC 19 3768 CFTR-3849-426 +UGAUUAAGUCCAGAUUUAUC 20 3769 CFTR-3849-427 + UUGAUUAAGUCCAGAUUUAUC 213770 CFTR-3849-428 + UUUGAUUAAGUCCAGAUUUAUC 22 3771 CFTR-3849-429 +UUUUGAUUAAGUCCAGAUUUAUC 23 3772 CFTR-3849-430 + AUUUUGAUUAAGUCCAGAUUUAUC24 3773 CFTR-3849-431 + UCAUUACCUUGUGGUCUC 18 3774 CFTR-3849-432 +UUCAUUACCUUGUGGUCUC 19 3775 CFTR-3849-433 + UUUCAUUACCUUGUGGUCUC 20 3776CFTR-3849-434 + UUUUCAUUACCUUGUGGUCUC 21 3777 CFTR-3849-435 +UUUUUCAUUACCUUGUGGUCUC 22 3778 CFTR-3849-436 + AUUUUUCAUUACCUUGUGGUCUC23 3779 CFTR-3849-437 + UAUUUUUCAUUACCUUGUGGUCUC 24 3780 CFTR-3849-438 +UGAAAUUUCUGUAUUUUC 18 3781 CFTR-3849-439 + CUGAAAUUUCUGUAUUUUC 19 3782CFTR-3849-440 + UCUGAAAUUUCUGUAUUUUC 20 3783 CFTR-3849-441 +UUCUGAAAUUUCUGUAUUUUC 21 3784 CFTR-3849-442 + UUUCUGAAAUUUCUGUAUUUUC 223785 CFTR-3849-443 + AUUUCUGAAAUUUCUGUAUUUUC 23 3786 CFTR-3849-444 +UAUUUCUGAAAUUUCUGUAUUUUC 24 3787 CFTR-3849-445 + AUUUUAAUACUGCAACAG 183788 CFTR-3849-446 + CAUUUUAAUACUGCAACAG 19 3789 CFTR-3849-447 +CCAUUUUAAUACUGCAACAG 20 3790 CFTR-3849-448 + ACCAUUUUAAUACUGCAACAG 213791 CFTR-3849-449 + CACCAUUUUAAUACUGCAACAG 22 3792 CFTR-3849-450 +UCACCAUUUUAAUACUGCAACAG 23 3793 CFTR-3849-451 + CUCACCAUUUUAAUACUGCAACAG24 3794 CFTR-3849-452 + GAGAACUCAGUUUUUAGG 18 3795 CFTR-3849-453 +AGAGAACUCAGUUUUUAGG 19 3796 CFTR-3849-454 + UAGAGAACUCAGUUUUUAGG 20 3797CFTR-3849-455 + UUAGAGAACUCAGUUUUUAGG 21 3798 CFTR-3849-456 +UUUAGAGAACUCAGUUUUUAGG 22 3799 CFTR-3849-457 + UUUUAGAGAACUCAGUUUUUAGG23 3800 CFTR-3849-458 + UUUUUAGAGAACUCAGUUUUUAGG 24 3801 CFTR-3849-459 +UAGGUUGGGAAAGACUGG 18 3802 CFTR-3849-460 + UUAGGUUGGGAAAGACUGG 19 3803CFTR-3849-461 + UUUAGGUUGGGAAAGACUGG 20 3804 CFTR-3849-462 +UUUUAGGUUGGGAAAGACUGG 21 3805 CFTR-3849-463 + UUUUUAGGUUGGGAAAGACUGG 223806 CFTR-3849-464 + GUUUUUAGGUUGGGAAAGACUGG 23 3807 CFTR-3849-465 +AGUUUUUAGGUUGGGAAAGACUGG 24 3808 CFTR-3849-466 + UUCAAGAGACUACAAAUG 183809 CFTR-3849-467 + UUUCAAGAGACUACAAAUG 19 3810 CFTR-3849-468 +UUUUCAAGAGACUACAAAUG 20 3811 CFTR-3849-469 + AUUUUCAAGAGACUACAAAUG 213812 CFTR-3849-470 + UAUUUUCAAGAGACUACAAAUG 22 3813 CFTR-3849-471 +GUAUUUUCAAGAGACUACAAAUG 23 3814 CFTR-3849-472 + UGUAUUUUCAAGAGACUACAAAUG24 3815 CFTR-3849-473 + GUUGGGAAAGACUGGAUG 18 3816 CFTR-3849-474 +GGUUGGGAAAGACUGGAUG 19 3817 CFTR-3849-475 + AGGUUGGGAAAGACUGGAUG 20 3818CFTR-3849-476 + UAGGUUGGGAAAGACUGGAUG 21 3819 CFTR-3849-477 +UUAGGUUGGGAAAGACUGGAUG 22 3820 CFTR-3849-478 + UUUAGGUUGGGAAAGACUGGAUG23 3821 CFTR-3849-479 + UUUUAGGUUGGGAAAGACUGGAUG 24 3822 CFTR-3849-480 +AUAAAUCAAAAUAAUAUG 18 3823 CFTR-3849-481 + GAUAAAUCAAAAUAAUAUG 19 3824CFTR-3849-482 + AGAUAAAUCAAAAUAAUAUG 20 3825 CFTR-3849-483 +AAGAUAAAUCAAAAUAAUAUG 21 3826 CFTR-3849-484 + CAAGAUAAAUCAAAAUAAUAUG 223827 CFTR-3849-485 + UCAAGAUAAAUCAAAAUAAUAUG 23 3828 CFTR-3849-486 +AUCAAGAUAAAUCAAAAUAAUAUG 24 3829 CFTR-3849-487 + AUCAAAUAUCUAUUUAAU 183830 CFTR-3849-488 + UAUCAAAUAUCUAUUUAAU 19 3831 CFTR-3849-489 +CUAUCAAAUAUCUAUUUAAU 20 3832 CFTR-3849-490 + ACUAUCAAAUAUCUAUUUAAU 213833 CFTR-3849-491 + UACUAUCAAAUAUCUAUUUAAU 22 3834 CFTR-3849-492 +GUACUAUCAAAUAUCUAUUUAAU 23 3835 CFTR-3849-493 + AGUACUAUCAAAUAUCUAUUUAAU24 3836 CFTR-3849-494 + AUAUAUACAAUAUACCAU 18 3837 CFTR-3849-495 +GAUAUAUACAAUAUACCAU 19 3838 CFTR-3849-496 + UGAUAUAUACAAUAUACCAU 20 3839CFTR-3849-497 + GUGAUAUAUACAAUAUACCAU 21 3840 CFTR-3849-498 +UGUGAUAUAUACAAUAUACCAU 22 3841 CFTR-3849-499 + CUGUGAUAUAUACAAUAUACCAU23 3842 CFTR-3849-500 + ACUGUGAUAUAUACAAUAUACCAU 24 3843 CFTR-3849-501 +AUAUACAAUAUACCAUAU 18 3844 CFTR-3849-502 + UAUAUACAAUAUACCAUAU 19 3845CFTR-3849-503 + AUAUAUACAAUAUACCAUAU 20 3846 CFTR-3849-504 +GAUAUAUACAAUAUACCAUAU 21 3847 CFTR-3849-505 + UGAUAUAUACAAUAUACCAUAU 223848 CFTR-3849-506 + GUGAUAUAUACAAUAUACCAUAU 23 3849 CFTR-3849-507 +UGUGAUAUAUACAAUAUACCAUAU 24 3850 CFTR-3849-508 + AGAACUCAGUUUUUAGGU 183851 CFTR-3849-509 + GAGAACUCAGUUUUUAGGU 19 3852 CFTR-3849-78 +AGAGAACUCAGUUUUUAGGU 20 3421 CFTR-3849-510 + UAGAGAACUCAGUUUUUAGGU 213853 CFTR-3849-511 + UUAGAGAACUCAGUUUUUAGGU 22 3854 CFTR-3849-512 +UUUAGAGAACUCAGUUUUUAGGU 23 3855 CFTR-3849-513 + UUUUAGAGAACUCAGUUUUUAGGU24 3856 CFTR-3849-514 + GAACUCAGUUUUUAGGUU 18 3857 CFTR-3849-515 +AGAACUCAGUUUUUAGGUU 19 3858 CFTR-3849-9 + GAGAACUCAGUUUUUAGGUU 20 3352CFTR-3849-516 + AGAGAACUCAGUUUUUAGGUU 21 3859 CFTR-3849-517 +UAGAGAACUCAGUUUUUAGGUU 22 3860 CFTR-3849-518 + UUAGAGAACUCAGUUUUUAGGUU23 3861 CFTR-3849-519 + UUUAGAGAACUCAGUUUUUAGGUU 24 3862 CFTR-3849-520 +UAUUCUUAUAAAUUAUUU 18 3863 CFTR-3849-521 + AUAUUCUUAUAAAUUAUUU 19 3864CFTR-3849-522 + GAUAUUCUUAUAAAUUAUUU 20 3865 CFTR-3849-523 +UGAUAUUCUUAUAAAUUAUUU 21 3866 CFTR-3849-524 + UUGAUAUUCUUAUAAAUUAUUU 223867 CFTR-3849-525 + CUUGAUAUUCUUAUAAAUUAUUU 23 3868 CFTR-3849-526 +CCUUGAUAUUCUUAUAAAUUAUUU 24 3869 CFTR-3849-527 + GCACAUAAUAAUUAGUUU 183870 CFTR-3849-528 + GGCACAUAAUAAUUAGUUU 19 3871 CFTR-3849-529 +UGGCACAUAAUAAUUAGUUU 20 3872 CFTR-3849-530 + CUGGCACAUAAUAAUUAGUUU 213873 CFTR-3849-531 + ACUGGCACAUAAUAAUUAGUUU 22 3874 CFTR-3849-532 +AACUGGCACAUAAUAAUUAGUUU 23 3875 CFTR-3849-533 + UAACUGGCACAUAAUAAUUAGUUU24 3876 CFTR-3849-534 + AAAAAAUACUAAAAUUUU 18 3877 CFTR-3849-535 +AAAAAAAUACUAAAAUUUU 19 3878 CFTR-3849-536 + GAAAAAAAUACUAAAAUUUU 20 3879CFTR-3849-537 + AGAAAAAAAUACUAAAAUUUU 21 3880 CFTR-3849-538 +CAGAAAAAAAUACUAAAAUUUU 22 3881 CFTR-3849-539 + UCAGAAAAAAAUACUAAAAUUUU23 3882 CFTR-3849-540 + UUCAGAAAAAAAUACUAAAAUUUU 24 3883 CFTR-3849-541 −AUUUUUUUCUGAAGAAAA 18 3884 CFTR-3849-542 − UAUUUUUUUCUGAAGAAAA 19 3885CFTR-3849-87 − GUAUUUUUUUCUGAAGAAAA 20 3430 CFTR-3849-543 −AGUAUUUUUUUCUGAAGAAAA 21 3886 CFTR-3849-544 − UAGUAUUUUUUUCUGAAGAAAA 223887 CFTR-3849-545 − UUAGUAUUUUUUUCUGAAGAAAA 23 3888 CFTR-3849-546 −UUUAGUAUUUUUUUCUGAAGAAAA 24 3889 CFTR-3849-547 − UAUUUUUUUCUGAAGAAA 183890 CFTR-3849-548 − GUAUUUUUUUCUGAAGAAA 19 3891 CFTR-3849-111 −AGUAUUUUUUUCUGAAGAAA 20 3454 CFTR-3849-549 − UAGUAUUUUUUUCUGAAGAAA 213892 CFTR-3849-550 − UUAGUAUUUUUUUCUGAAGAAA 22 3893 CFTR-3849-551 −UUUAGUAUUUUUUUCUGAAGAAA 23 3849 CFTR-3849-552 − UUUUAGUAUUUUUUUCUGAAGAAA24 3895 CFTR-3849-553 − GUAUUUUUUUCUGAAGAA 18 3896 CFTR-3849-554 −AGUAUUUUUUUCUGAAGAA 19 3897 CFTR-3849-555 − UAGUAUUUUUUUCUGAAGAA 20 3898CFTR-3849-556 − UUAGUAUUUUUUUCUGAAGAA 21 3899 CFTR-3849-557 −UUUAGUAUUUUUUUCUGAAGAA 22 3900 CFTR-3849-558 − UUUUAGUAUUUUUUUCUGAAGAA23 3901 CFTR-3849-559 − AUUUUAGUAUUUUUUUCUGAAGAA 24 3902 CFTR-3849-560 −UGAGUAAGACACCCUGAA 18 3903 CFTR-3849-561 − GUGAGUAAGACACCCUGAA 19 3904CFTR-3849-88 − GGUGAGUAAGACACCCUGAA 20 3431 CFTR-3849-562 −UGGUGAGUAAGACACCCUGAA 21 3905 CFTR-3849-563 − AUGGUGAGUAAGACACCCUGAA 223906 CFTR-3849-564 − AAUGGUGAGUAAGACACCCUGAA 23 3907 CFTR-3849-565 −AAAUGGUGAGUAAGACACCCUGAA 24 3908 CFTR-3849-566 − UGUUUCAUUAAUAAUUAA 183909 CFTR-3849-567 − AUGUUUCAUUAAUAAUUAA 19 3910 CFTR-3849-568 −UAUGUUUCAUUAAUAAUUAA 20 3911 CFTR-3849-569 − CUAUGUUUCAUUAAUAAUUAA 213912 CFTR-3849-570 − ACUAUGUUUCAUUAAUAAUUAA 22 3913 CFTR-3849-571 −UACUAUGUUUCAUUAAUAAUUAA 23 3914 CFTR-3849-572 − AUACUAUGUUUCAUUAAUAAUUAA24 3915 CFTR-3849-573 − UCUCAGGGAGGAGGUGCA 18 3916 CFTR-3849-574 −UUCUCAGGGAGGAGGUGCA 19 3917 CFTR-3849-575 − AUUCUCAGGGAGGAGGUGCA 20 3918CFTR-3849-576 − CAUUCUCAGGGAGGAGGUGCA 21 3919 CFTR-3849-577 −ACAUUCUCAGGGAGGAGGUGCA 22 3920 CFTR-3849-578 − AACAUUCUCAGGGAGGAGGUGCA23 3921 CFTR-3849-579 − CAACAUUCUCAGGGAGGAGGUGCA 24 3922 CFTR-3849-580 −GCCUUAUUCAACAGAUCA 18 3923 CFTR-3849-581 − AGCCUUAUUCAACAGAUCA 19 3924CFTR-3849-582 − UAGCCUUAUUCAACAGAUCA 20 3925 CFTR-3849-583 −CUAGCCUUAUUCAACAGAUCA 21 3926 CFTR-3849-584 − UCUAGCCUUAUUCAACAGAUCA 223927 CFTR-3849-585 − CUCUAGCCUUAUUCAACAGAUCA 23 3928 CFTR-3849-586 −ACUCUAGCCUUAUUCAACAGAUCA 24 3929 CFTR-3849-587 − CUUGAUCCAACAUUCUCA 183930 CFTR-3849-588 − UCUUGAUCCAACAUUCUCA 19 3931 CFTR-3849-52 −AUCUUGAUCCAACAUUCUCA 20 3395 CFTR-3849-589 − UAUCUUGAUCCAACAUUCUCA 213932 CFTR-3849-590 − UUAUCUUGAUCCAACAUUCUCA 22 3933 CFTR-3849-591 −UUUAUCUUGAUCCAACAUUCUCA 23 3934 CFTR-3849-592 − AUUUAUCUUGAUCCAACAUUCUCA24 3935 CFTR-3849-593 − GUGAGUAAGACACCCUGA 18 3936 CFTR-3849-594 −GGUGAGUAAGACACCCUGA 19 3937 CFTR-3849-595 − UGGUGAGUAAGACACCCUGA 20 3938CFTR-3849-596 − AUGGUGAGUAAGACACCCUGA 21 3939 CFTR-3849-597 −AAUGGUGAGUAAGACACCCUGA 22 3940 CFTR-3849-598 − AAAUGGUGAGUAAGACACCCUGA23 3941 CFTR-3849-599 − AAAAUGGUGAGUAAGACACCCUGA 24 3942 CFTR-3849-600 −UGUAGUCUCUUGAAAAUA 18 3943 CFTR-3849-601 − UUGUAGUCUCUUGAAAAUA 19 3944CFTR-3849-602 − UUUGUAGUCUCUUGAAAAUA 20 3945 CFTR-3849-603 −AUUUGUAGUCUCUUGAAAAUA 21 3946 CFTR-3849-604 − CAUUUGUAGUCUCUUGAAAAUA 223947 CFTR-3849-605 − CCAUUUGUAGUCUCUUGAAAAUA 23 3948 CFTR-3849-606 −UCCAUUUGUAGUCUCUUGAAAAUA 24 3949 CFTR-3849-607 − CAGCAGUUCAAUGAUAUA 183950 CFTR-3849-608 − CCAGCAGUUCAAUGAUAUA 19 3951 CFTR-3849-56 −ACCAGCAGUUCAAUGAUAUA 20 3399 CFTR-3849-609 − UACCAGCAGUUCAAUGAUAUA 213952 CFTR-3849-610 − UUACCAGCAGUUCAAUGAUAUA 22 3953 CFTR-3849-611 −AUUACCAGCAGUUCAAUGAUAUA 23 3954 CFTR-3849-612 − CAUUACCAGCAGUUCAAUGAUAUA24 3955 CFTR-3849-613 − UCUGGAGACCACAAGGUA 18 3956 CFTR-3849-614 −UUCUGGAGACCACAAGGUA 19 3957 CFTR-3849-615 − UUUCUGGAGACCACAAGGUA 20 3958CFTR-3849-616 − AUUUCUGGAGACCACAAGGUA 21 3959 CFTR-3849-617 −GAUUUCUGGAGACCACAAGGUA 22 3960 CFTR-3849-618 − UGAUUUCUGGAGACCACAAGGUA23 3961 CFTR-3849-619 − UUGAUUUCUGGAGACCACAAGGUA 24 3962 CFTR-3849-620 −UGUGCCAGUUAUAUAAAC 18 3963 CFTR-3849-621 − AUGUGCCAGUUAUAUAAAC 19 3964CFTR-3849-622 − UAUGUGCCAGUUAUAUAAAC 20 3965 CFTR-3849-623 −UUAUGUGCCAGUUAUAUAAAC 21 3966 CFTR-3849-624 − AUUAUGUGCCAGUUAUAUAAAC 223967 CFTR-3849-625 − UAUUAUGUGCCAGUUAUAUAAAC 23 3968 CFTR-3849-626 −UUAUUAUGUGCCAGUUAUAUAAAC 24 3969 CFTR-3849-627 − AAUGGUGAGUAAGACACC 183970 CFTR-3849-628 − AAAUGGUGAGUAAGACACC 19 3971 CFTR-3849-629 −AAAAUGGUGAGUAAGACACC 20 3972 CFTR-3849-630 − UAAAAUGGUGAGUAAGACACC 213973 CFTR-3849-631 − UUAAAAUGGUGAGUAAGACACC 22 3974 CFTR-3849-632 −AUUAAAAUGGUGAGUAAGACACC 23 3975 CFTR-3849-633 − UAUUAAAAUGGUGAGUAAGACACC24 3976 CFTR-3849-634 − ACAGAUCACUGAGAAGCC 18 3977 CFTR-3849-635 −AACAGAUCACUGAGAAGCC 19 3978 CFTR-3849-61 − CAACAGAUCACUGAGAAGCC 20 3404CFTR-3849-636 − UCAACAGAUCACUGAGAAGCC 21 3979 CFTR-3849-637 −UUCAACAGAUCACUGAGAAGCC 22 3980 CFTR-3849-638 − AU UCAACAGAUCACUGAGAAGCC23 3981 CFTR-3849-639 − UAUUCAACAGAUCACUGAGAAGCC 24 3982 CFTR-3849-640 −GCCUGGAAAAACAAAUCC 18 3983 CFTR-3849-641 − AGCCUGGAAAAACAAAUCC 19 3984CFTR-3849-62 − AAGCCUGGAAAAACAAAUCC 20 3405 CFTR-3849-642 −GAAGCCUGGAAAAACAAAUCC 21 3985 CFTR-3849-643 − AGAAGCCUGGAAAAACAAAUCC 223986 CFTR-3849-644 − GAGAAGCCUGGAAAAACAAAUCC 23 3987 CFTR-3849-645 −UGAGAAGCCUGGAAAAACAAAUCC 24 3988 CFTR-3849-646 − AACAGAUCACUGAGAAGC 183989 CFTR-3849-647 − CAACAGAUCACUGAGAAGC 19 3990 CFTR-3849-648 −UCAACAGAUCACUGAGAAGC 20 3991 CFTR-3849-649 − UUCAACAGAUCACUGAGAAGC 213992 CFTR-3849-650 − AUUCAACAGAUCACUGAGAAGC 22 3993 CFTR-3849-651 −UAUUCAACAGAUCACUGAGAAGC 23 3994 CFTR-3849-652 − UUAUUCAACAGAUCACUGAGAAGC24 3995 CFTR-3849-653 − UCUUAAAAGCUUAUUUGC 18 3996 CFTR-3849-654 −GUCUUAAAAGCUUAUUUGC 19 3997 CFTR-3849-65 − UGUCUUAAAAGCUUAUUUGC 20 3408CFTR-3849-655 − AUGUCUUAAAAGCUUAUUUGC 21 3998 CFTR-3849-656 −UAUGUCUUAAAAGCUUAUUUGC 22 3999 CFTR-3849-657 − GUAUGUCUUAAAAGCUUAUUUGC23 4000 CFTR-3849-658 − GGUAUGUCUUAAAAGCUUAUUUGC 24 4001 CFTR-3849-659 −AGCCUGGAAAAACAAAUC 18 4002 CFTR-3849-660 − AAGCCUGGAAAAACAAAUC 19 4003CFTR-3849-661 − GAAGCCUGGAAAAACAAAUC 20 4004 CFTR-3849-662 −AGAAGCCUGGAAAAACAAAUC 21 4005 CFTR-3849-663 − GAGAAGCCUGGAAAAACAAAUC 224006 CFTR-3849-664 − UGAGAAGCCUGGAAAAACAAAUC 23 4007 CFTR-3849-665 −CUGAGAAGCCUGGAAAAACAAAUC 24 4008 CFTR-3849-666 − UUCUCCAUUUGUAGUCUC 184009 CFTR-3849-667 − UUUCUCCAUUUGUAGUCUC 19 4010 CFTR-3849-668 −CUUUCUCCAUUUGUAGUCUC 20 4011 CFTR-3849-669 − GCUUUCUCCAUUUGUAGUCUC 214012 CFTR-3849-670 − UGCUUUCUCCAUUUGUAGUCUC 22 4013 CFTR-3849-671 −CUGCUUUCUCCAUUUGUAGUCUC 23 4014 CFTR-3849-672 − ACUGCUUUCUCCAUUUGUAGUCUC24 4015 CFTR-3849-673 − UCUUGAUCCAACAUUCUC 18 4016 CFTR-3849-674 −AUCUUGAUCCAACAUUCUC 19 4017 CFTR-3849-67 − UAUCUUGAUCCAACAUUCUC 20 3410CFTR-3849-675 − UUAUCUUGAUCCAACAUUCUC 21 4018 CFTR-3849-676 −UUUAUCUUGAUCCAACAUUCUC 22 4019 CFTR-3849-677 − AUUUAUCUUGAUCCAACAUUCUC23 4020 CFTR-3849-678 − GAUUUAUCUUGAUCCAACAUUCUC 24 4021 CFTR-3849-679 −ACUUGUCAUCUUGAUUUC 18 4022 CFTR-3849-680 − GACUUGUCAUCUUGAUUUC 19 4023CFTR-3849-68 − UGACUUGUCAUCUUGAUUUC 20 3411 CFTR-3849-681 −UUGACUUGUCAUCUUGAUUUC 21 4024 CFTR-3849-682 − GUUGACUUGUCAUCUUGAUUUC 224025 CFTR-3849-683 − AGUUGACUUGUCAUCUUGAUUUC 23 4026 CFTR-3849-684 −CAGUUGACUUGUCAUCUUGAUUUC 24 4027 CFTR-3849-685 − UUUUUUUCUGAAGAAAAG 184028 CFTR-3849-686 − AUUUUUUUCUGAAGAAAAG 19 4029 CFTR-3849-115 −UAUUUUUUUCUGAAGAAAAG 20 3458 CFTR-3849-687 − GUAUUUUUUUCUGAAGAAAAG 214030 CFTR-3849-688 − AGUAUUUUUUUCUGAAGAAAAG 22 4031 CFTR-3849-689 −UAGUAUUUUUUUCUGAAGAAAAG 23 4032 CFTR-3849-690 − UUAGUAUUUUUUUCUGAAGAAAAG24 4033 CFTR-3849-691 − UGAUCCAACAUUCUCAGG 18 4034 CFTR-3849-692 −UUGAUCCAACAUUCUCAGG 19 4035 CFTR-3849-693 − CUUGAUCCAACAUUCUCAGG 20 4036CFTR-3849-694 − UCUUGAUCCAACAUUCUCAGG 21 4037 CFTR-3849-695 −AUCUUGAUCCAACAUUCUCAGG 22 4038 CFTR-3849-696 − UAUCUUGAUCCAACAUUCUCAGG23 4039 CFTR-3849-697 − UUAUCUUGAUCCAACAUUCUCAGG 24 4040 CFTR-3849-698 −GAUCCAACAUUCUCAGGG 18 4041 CFTR-3849-699 − UGAUCCAACAUUCUCAGGG 19 4042CFTR-3849-74 − UUGAUCCAACAUUCUCAGGG 20 3417 CFTR-3849-700 −CUUGAUCCAACAUUCUCAGGG 21 4043 CFTR-3849-701 − UCUUGAUCCAACAUUCUCAGGG 224044 CFTR-3849-702 − AUCUUGAUCCAACAUUCUCAGGG 23 4045 CFTR-3849-703 −UAUCUUGAUCCAACAUUCUCAGGG 24 4046 CFTR-3849-704 − UAAGGUCUAUACUUUUGG 184047 CFTR-3849-705 − UUAAGGUCUAUACUUUUGG 19 4048 CFTR-3849-706 −UUUAAGGUCUAUACUUUUGG 20 4049 CFTR-3849-707 − CUUUAAGGUCUAUACUUUUGG 214050 CFTR-3849-708 − ACUUUAAGGUCUAUACUUUUGG 22 4051 CFTR-3849-709 −UACUUUAAGGUCUAUACUUUUGG 23 4052 CFTR-3849-710 − GUACUUUAAGGUCUAUACUUUUGG24 4053 CFTR-3849-711 − UUUUAGUAUUUUUUUCUG 18 4054 CFTR-3849-712 −AUUUUAGUAUUUUUUUCUG 19 4055 CFTR-3849-713 − AAUUUUAGUAUUUUUUUCUG 20 4056CFTR-3849-714 − AAAUUUUAGUAUUUUUUUCUG 21 4057 CFTR-3849-715 −AAAAUUUUAGUAUUUUUUUCUG 22 4058 CFTR-3849-716 − AAAAAUUUUAGUAUUUUUUUCUG23 4059 CFTR-3849-717 − UAAAAAUUUUAGUAUUUUUUUCUG 24 4060 CFTR-3849-718 −GUCUUAAAAGCUUAUUUG 18 4061 CFTR-3849-719 − UGUCUUAAAAGCUUAUUUG 19 4062CFTR-3849-76 − AUGUCUUAAAAGCUUAUUUG 20 3419 CFTR-3849-720 −UAUGUCUUAAAAGCUUAUUUG 21 4063 CFTR-3849-721 − GUAUGUCUUAAAAGCUUAUUUG 224064 CFTR-3849-722 − GGUAUGUCUUAAAAGCUUAUUUG 23 4065 CFTR-3849-723 −GGGUAUGUCUUAAAAGCUUAUUUG 24 4066 CFTR-3849-724 − AAUAAUUAAUAGAGAUAU 184067 CFTR-3849-725 − UAAUAAUUAAUAGAGAUAU 19 4068 CFTR-3849-726 −UUAAUAAUUAAUAGAGAUAU 20 4069 CFTR-3849-727 − AUUAAUAAUUAAUAGAGAUAU 214070 CFTR-3849-728 − CAUUAAUAAUUAAUAGAGAUAU 22 4071 CFTR-3849-729 −UCAUUAAUAAUUAAUAGAGAUAU 23 4072 CFTR-3849-730 − UUCAUUAAUAAUUAAUAGAGAUAU24 4073 CFTR-3849-731 − CCAGCAGUUCAAUGAUAU 18 4074 CFTR-3849-732 −ACCAGCAGUUCAAUGAUAU 19 4075 CFTR-3849-733 − UACCAGCAGUUCAAUGAUAU 20 4076CFTR-3849-734 − UUACCAGCAGUUCAAUGAUAU 21 4077 CFTR-3849-735 −AUUACCAGCAGUUCAAUGAUAU 22 4078 CFTR-3849-736 − CAUUACCAGCAGUUCAAUGAUAU23 4079 CFTR-3849-737 − GCAUUACCAGCAGUUCAAUGAUAU 24 4080 CFTR-3849-738 −GAGGUGCAUUGAAGUUAU 18 4081 CFTR-3849-739 − GGAGGUGCAUUGAAGUUAU 19 4082CFTR-3849-740 − AGGAGGUGCAUUGAAGUUAU 20 4083 CFTR-3849-741 −GAGGAGGUGCAUUGAAGUUAU 21 4084 CFTR-3849-742 − GGAGGAGGUGCAUUGAAGUUAU 224085 CFTR-3849-743 − GGGAGGAGGUGCAUUGAAGUUAU 23 4086 CFTR-3849-744 −AGGGAGGAGGUGCAUUGAAGUUAU 24 4087 CFTR-3849-745 − CUUAUUCAACAGAUCACU 184088 CFTR-3849-746 − CCUUAUUCAACAGAUCACU 19 4089 CFTR-3849-747 −GCCUUAUUCAACAGAUCACU 20 4090 CFTR-3849-748 − AGCCUUAUUCAACAGAUCACU 214091 CFTR-3849-749 − UAGCCUUAUUCAACAGAUCACU 22 4092 CFTR-3849-750 −CUAGCCUUAUUCAACAGAUCACU 23 4093 CFTR-3849-751 − UCUAGCCUUAUUCAACAGAUCACU24 4094 CFTR-3849-752 − ACCAGUGAUUCCUUGCCU 18 4095 CFTR-3849-753 −AACCAGUGAUUCCUUGCCU 19 4096 CFTR-3849-754 − AAACCAGUGAUUCCUUGCCU 20 4097CFTR-3849-755 − CAAACCAGUGAUUCCUUGCCU 21 4098 CFTR-3849-756 −ACAAACCAGUGAUUCCUUGCCU 22 4099 CFTR-3849-757 − UACAAACCAGUGAUUCCUUGCCU23 4100 CFTR-3849-758 − GUACAAACCAGUGAUUCCUUGCCU 24 4101 CFTR-3849-759 −AUCUUGAUCCAACAUUCU 18 4102 CFTR-3849-760 − UAUCUUGAUCCAACAUUCU 19 4103CFTR-3849-761 − UUAUCUUGAUCCAACAUUCU 20 4104 CFTR-3849-762 −UUUAUCUUGAUCCAACAUUCU 21 4105 CFTR-3849-763 − AUUUAUCUUGAUCCAACAUUCU 224106 CFTR-3849-764 − GAUUUAUCUUGAUCCAACAUUCU 23 4107 CFTR-3849-765 −UGAUUUAUCUUGAUCCAACAUUCU 24 4108 CFTR-3849-766 − UUGAAAAUACAGAAAUUU 184109 CFTR-3849-767 − CUUGAAAAUACAGAAAUUU 19 4110 CFTR-3849-768 −UCUUGAAAAUACAGAAAUUU 20 4111 CFTR-3849-769 − CUCUUGAAAAUACAGAAAUUU 214112 CFTR-3849-770 − UCUCUUGAAAAUACAGAAAUUU 22 4113 CFTR-3849-771 −GUCUCUUGAAAAUACAGAAAUUU 23 4114 CFTR-3849-772 − AGUCUCUUGAAAAUACAGAAAUUU24 4115 CFTR-3849-773 − GACUUGUCAUCUUGAUUU 18 4116 CFTR-3849-774 −UGACUUGUCAUCUUGAUUU 19 4117 CFTR-3849-775 − UUGACUUGUCAUCUUGAUUU 20 4118CFTR-3849-776 − GUUGACUUGUCAUCUUGAUUU 21 4119 CFTR-3849-777 −AGUUGACUUGUCAUCUUGAUUU 22 4120 CFTR-3849-778 − CAGUUGACUUGUCAUCUUGAUUU23 4121 CFTR-3849-779 − UCAGUUGACUUGUCAUCUUGAUUU 24 4122 CFTR-3849-780 −UGUCUUAAAAGCUUAUUU 18 4123 CFTR-3849-781 − AUGUCUUAAAAGCUUAUUU 19 4124CFTR-3849-782 − UAUGUCUUAAAAGCUUAUUU 20 4125 CFTR-3849-783 −GUAUGUCUUAAAAGCUUAUUU 21 4126 CFTR-3849-784 − GGUAUGUCUUAAAAGCUUAUUU 224127 CFTR-3849-785 − GGGUAUGUCUUAAAAGCUUAUUU 23 4128 CFTR-3849-786 −AGGGUAUGUCUUAAAAGCUUAUUU 24 4129 CFTR-3849-787 − AAAUUUUAGUAUUUUUUU 184130 CFTR-3849-788 − AAAAUUUUAGUAUUUUUUU 19 4131 CFTR-3849-789 −AAAAAUUUUAGUAUUUUUUU 20 4132 CFTR-3849-790 − UAAAAAUUUUAGUAUUUUUUU 214133 CFTR-3849-791 − CUAAAAAUUUUAGUAUUUUUUU 22 4134 CFTR-3849-792 −UCUAAAAAUUUUAGUAUUUUUUU 23 4135 CFTR-3849-793 − CUCUAAAAAUUUUAGUAUUUUUUU24 4136

Table 36A provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the firsttier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+10kbC->T), have a high level of orthogonality andstart with a 5′G. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the Table can be used witha N. meningitidis Cas9 molecule that generates a double stranded break(Cas9 nuclease) or a single-stranded break (Cas9 nickase).

TABLE 36A 1st Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID CFTR-3849-794 + GAGGAAUUUUGAUUAAG 17 4137 CFTR-3849-795 −GAGAUAUAUGAACACAU 17 4138 CFTR-3849-796 − GAUUUAGGGUAUGUCUU 17 4139CFTR-3849-797 + GGCUAGAGUACUUCCCGCAA 20 4140 CFTR-3849-798 +GAAACAUAGUAUUGAGAAUA 20 4141 CFTR-3849-799 − GUUUAACUUUCAACAUAUUA 204142 CFTR-3849-800 + GGCAAUUUGUAAAUCUUUGG 20 4143 CFTR-3849-801 +GUAUUUAGGUGUUUGUGCUG 20 4144 CFTR-3849-802 − GCACAAACACCUAAAUACUU 204145

Table 36B provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+10kbC->T) and have a high level of orthogonality.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 36B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-803 + UAGAGUACUUCCCGCAA 17 4146 CFTR-3849-804 +AUAUACCAUAUGAGGAA 17 4147 CFTR-3849-13 + UGAAAUUUAGAUCCACA 17 3356CFTR-3849-805 − UUUCAGUUGACUUGUCA 17 4148 CFTR-3849-806 +ACAUAGUAUUGAGAAUA 17 4149 CFTR-3849-807 − UAACUUUCAACAUAUUA 17 4150CFTR-3849-808 − CUUUGUUGGGUACAAAC 17 4151 CFTR-3849-809 −AACCUUUAAAGCUAAAC 17 4152 CFTR-3849-810 − CACAGUACUGGAUAGUC 17 4153CFTR-3849-811 + AAUUUGUAAAUCUUUGG 17 4154 CFTR-3849-812 +UUUAGGUGUUUGUGCUG 17 4155 CFTR-3849-813 − UACUUUUGGAUGAACUU 17 4156CFTR-3849-814 + CACAUAAUAAUUAGUUU 17 4157 CFTR-3849-815 +ACAAUAUACCAUAUGAGGAA 20 4158 CFTR-3849-112 + AACUGAAAUUUAGAUCCACA 203455 CFTR-3849-816 − AAAUUUCAGUUGACUUGUCA 20 4159 CFTR-3849-817 −AGACUUUGUUGGGUACAAAC 20 4160 CFTR-3849-818 − UAAAACCUUUAAAGCUAAAC 204161 CFTR-3849-819 − UAUCACAGUACUGGAUAGUC 20 4162 CFTR-3849-820 +UAUGAGGAAUUUUGAUUAAG 20 4163 CFTR-3849-821 − AUAGAGAUAUAUGAACACAU 204164 CFTR-3849-822 + AUAUGCUGCUUAUACCCACU 20 4165 CFTR-3849-823 −CUAUACUUUUGGAUGAACUU 20 4166 CFTR-3849-824 − UUAGAUUUAGGGUAUGUCUU 204167 CFTR-3849-529 + UGGCACAUAAUAAUUAGUUU 20 3872

Table 36C provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the thirdtier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+10kbC->T) and start with a 5′G. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the Table can be used with a N. meningitidis Cas9 moleculethat generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 36C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-3849- − GAAAUAAUUUAUAAGAAUAU 20 4168 825

Table 36D provides exemplary targeting domains for correcting a mutation(e.g., 3849+10kbC->T) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within 500 bp from amutation (e.g., 3849+10kbC->T). It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a N. meningitidis Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 36D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-3849-826 − UUAUUAGAAAACACUGA 17 4169 CFTR-3849-827 −AUAAUUUAUAAGAAUAU 17 4170 CFTR-3849-828 + UGCUGCUUAUACCCACU 17 4171CFTR-3849-829 − CAAACACCUAAAUACUU 17 4172 CFTR-3849-830 +UUCCGGGAUUUGUUUUU 17 4173 CFTR-3849-831 − AAGUUAUUAGAAAACACUGA 20 4174CFTR-3849-832 + AGUUUCCGGGAUUUGUUUUU 20 4175

Table 37A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within intron 2, have a highlevel of orthogonality and start with a 5′G. It is contemplated hereinthat in an embodiment the targeting domain hybridizes to the targetdomain through complementary base pairing. Any of the targeting domainsin the Table can be used with a S. pyogenes Cas9 molecule that generatesa double stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 37A 1st Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-1 + GUACAAAGUACCAAAAA 17 15101 CFTR-Intron2-2− GCCUGAUGCCAGAUAAA 17 15102 CFTR-Intron2-3 + GGUAAACAAUUAGACAA 17 15103CFTR-Intron2-4 + GACUAUGAGUGGCCCAA 17 15104 CFTR-Intron2-5 −GCCUUGCUCUCUAGGAA 17 15105 CFTR-Intron2-6 + GCUCUAAAUCACUCUAA 17 15106CFTR-Intron2-7 − GGGAAGUCUUAAGGUAA 17 15107 CFTR-Intron2-8 +GUUACCAUAAGUAAACA 17 15108 CFTR-Intron2-9 + GCAAAGAGUUCUAACCA 17 15109CFTR-Intron2-10 − GGAACUCAAUGGGACCA 17 15110 CFTR-Intron2-11 −GCUCAAUUUUGUGACCA 17 15111 CFTR-Intron2-12 + GCCAGGGUCACUUCCCA 17 15112CFTR-Intron2-13 + GUAGAGGAUUCAAUCCA 17 15113 CFTR-Intron2-14 +GACCUCAGCUGGAAUCA 17 15114 CFTR-Intron2-15 + GUAGUUACCUGAGGAGA 17 15115CFTR-Intron2-16 − GGAGAAGCAUGUGGGGA 17 15116 CFTR-Intron2-17 +GUCCCAUUGAGUUCCUA 17 15117 CFTR-Intron2-18 − GCAAAUGCCAUGAGGUA 17 15118CFTR-Intron2-19 + GAGGUCUCUAGUGACCC 17 15119 CFTR-Intron2-20 +GCAAUACAGACCUCAGC 17 15120 CFTR-Intron2-21 − GAAACCUGUAGCAUUGC 17 15121CFTR-Intron2-22 + GAUUCAUGUUCUCUAUC 17 15122 CFTR-Intron2-23 −GAAUUUGCAGAAUUAUC 17 15123 CFTR-Intron2-24 − GACCUUGCCUUCUCCUC 17 15124CFTR-Intron2-25 − GUUCCAAGAUUGUAGUC 17 15125 CFTR-Intron2-26 +GGUUCAAUGUGAAAAAG 17 15126 CFTR-Intron2-27 + GUAAUAGGCCGGGGCAG 17 15127CFTR-Intron2-28 + GCUUUACGUUUCAUCAG 17 15128 CFTR-Intron2-29 +GAGAGAUUCUUUAUGGG 17 15129 CFTR-Intron2-30 − GAUCUGGGCCUGGUAUG 17 15130CFTR-Intron2-31 − GGCCUUAGGAACUCAAU 17 15131 CFTR-Intron2-32 −GGUAACUUGACAGUAAU 17 15132 CFTR-Intron2-33 + GAUCCUAACCUUUUGAU 17 15133CFTR-Intron2-34 + GUGAAACUUGAACAACU 17 15134 CFTR-Intron2-35 −GAACUAUGUGAAGACCU 17 15135 CFTR-Intron2-36 + GGUGGCAUUUGAGUCCU 17 15136CFTR-Intron2-37 − GUAUUGCCUUGCUCUCU 17 15137 CFTR-Intron2-38 −GAAUGAUUAAUCAGAGU 17 15138 CFTR-Intron2-39 + GGUGAUGUGGUUCUAGU 17 15139CFTR-Intron2-40 − GGUGGAGAACUGGCCUU 17 15140 CFTR-Intron2-41 −GAGUGACAUACCAUUUU 17 15141 CFTR-Intron2-42 + GCCUUCAAAAUGCCAAAAAA 2015142 CFTR-Intron2-43 + GAGGUACAAAGUACCAAAAA 20 15143 CFTR-Intron2-44 +GUGUACAUAAACCAACAAAA 20 15144 CFTR-Intron2-45 − GGUAAUUAGGCUUUAUAGAA 2015145 CFTR-Intron2-46 + GCAAUGUAGUUUUAGGAACA 20 15146 CFTR-Intron2-47 +GGAGCAAAGAGUUCUAACCA 20 15147 CFTR-Intron2-48 + GAAGCCAGGGUCACUUCCCA 2015148 CFTR-Intron2-49 + GGAUUUUUCACAUUUAGCCA 20 15149 CFTR-Intron2-50 −GAUUCACACUUCUAAGAUCA 20 15150 CFTR-Intron2-51 − GCCCUCAAGUGGUUGCCAGA 2015151 CFTR-Intron2-52 + GGGGUAGUUACCUGAGGAGA 20 15152 CFTR-Intron2-53 −GGUGGAGAAGCAUGUGGGGA 20 15153 CFTR-Intron2-54 − GAGUAACCAAAUGUUAUGGA 2015154 CFTR-Intron2-55 − GGGAAUGAUUAAUCAGAGUA 20 15155 CFTR-Intron2-56 −GUACUCCCUGGGAAGUCUUA 20 15156 CFTR-Intron2-57 + GGAAACUGAGAGAUUCUUUA 2015157 CFTR-Intron2-58 − GAGUCUCGUGCCAACAGCAC 20 15158 CFTR-Intron2-59 +GUAAAUUGGGUUUCUGUCAC 20 15159 CFTR-Intron2-60 + GAAAGUGAAGUAGAGAGACC 2015160 CFTR-Intron2-61 − GCACCCUUGGGAAGUGACCC 20 15161 CFTR-Intron2-62 −GCUAACAUUCUCUGCUCUCC 20 15162 CFTR-Intron2-63 + GUUAAUGUUCUUCAACCAUC 2015163 CFTR-Intron2-64 − GACCAGCUUUCUACAUAAAG 20 15164 CFTR-Intron2-65 +GUGUUGUUAUAUUUCAUAAG 20 15165 CFTR-Intron2-66 + GGAGUAAUAGGCCGGGGCAG 2015166 CFTR-Intron2-67 + GUCACUUCCCAAGGGUGCAG 20 15167 CFTR-Intron2-68 −GAUAAAAGGGUGAGUGAAGG 20 15168 CFTR-Intron2-69 − GAACUAUGUGAAGACCUAGG 2015169 CFTR-Intron2-70 − GUUUACCUAGUUCUUCCUUG 20 15170 CFTR-Intron2-71 +GGUCGGGGAAUUUCUUUAAU 20 15171 CFTR-Intron2-72 + GUCACAAAAUUGAGCCAGAU 2015172 CFTR-Intron2-73 + GAAACUGAGAGAUUCUUUAU 20 15173 CFTR-Intron2-74 −GAGUCAUAGUGCUUACCCCU 20 15174 CFTR-Intron2-75 − GCUCUCAUUAGCAAGCUUCU 2015175 CFTR-Intron2-76 + GUAGGUGAUGUGGUUCUAGU 20 15176 CFTR-Intron2-77 −GAAGAGUGACAUACCAUUUU 20 15177

Table 37B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within intron 2 and have ahigh level of orthogonality. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. pyogenes Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 37B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-78 − CCUGAUGCCAGAUAAAA 17 15178CFTR-Intron2-79 + AUUUAGCCAAGGACAAA 17 15179 CFTR-Intron2-80 +CAUUUAGCCAAGGACAA 17 15180 CFTR-Intron2-81 + CCAGGGUCACUUCCCAA 17 15181CFTR-Intron2-82 + UGUCAAUAUACCUGCAA 17 15182 CFTR-Intron2-83 +CUCACCUUCUCCAUCAA 17 15183 CFTR-Intron2-84 − CACACUUCUAAGAUCAA 17 15184CFTR-Intron2-85 − UGGCCUUAGGAACUCAA 17 15185 CFTR-Intron2-86 +CCAGGCCCAGAUCAGAA 17 15186 CFTR-Intron2-87 − AAUUAGGCUUUAUAGAA 17 15187CFTR-Intron2-88 + ACGGAAGUAAUGUAGAA 17 15188 CFTR-Intron2-89 +UAACCUUUUGAUUGGAA 17 15189 CFTR-Intron2-90 + UGACUACAAUCUUGGAA 17 15190CFTR-Intron2-91 + CACGAUUUACUUCAUAA 17 15191 CFTR-Intron2-92 −UGGUAACUUGACAGUAA 17 15192 CFTR-Intron2-93 + UCGGGGAAUUUCUUUAA 17 15193CFTR-Intron2-94 + AUGUAGUUUUAGGAACA 17 15194 CFTR-Intron2-95 +AAAUUUCAUGAACCACA 17 15195 CFTR-Intron2-96 + UGAAAAAGUGGUCCACA 17 15196CFTR-Intron2-97 + UGAGGGCCAUGGUCACA 17 15197 CFTR-Intron2-98 −UAACUGCCUUGUGACCA 17 15198 CFTR-Intron2-99 + AGACUAUGAGUGGCCCA 17 15199CFTR-Intron2-100 − UAAAACUACAUUGCCCA 17 15200 CFTR-Intron2-101 +UACCUUAAGACUUCCCA 17 15201 CFTR-Intron2-102 + UUUUUCACAUUUAGCCA 17 15202CFTR-Intron2-103 + CAACCACUUGAGGGCCA 17 15203 CFTR-Intron2-104 +CUGGCAAUCUCUAAGCA 17 15204 CFTR-Intron2-105 + ACCAUUCCUAGAGAGCA 17 15205CFTR-Intron2-106 + UACCUGAGGAGAAGGCA 17 15206 CFTR-Intron2-107 −UCACACUUCUAAGAUCA 17 15207 CFTR-Intron2-108 + AAAGUAUCCCUACCUCA 17 15208CFTR-Intron2-109 + UCACAAAAUCCAUCUCA 17 15209 CFTR-Intron2-110 −UUAAGGACCACGAAAGA 17 15210 CFTR-Intron2-111 − CUCAAGUGGUUGCCAGA 17 15211CFTR-Intron2-112 + ACCAGGCCCAGAUCAGA 17 15212 CFTR-Intron2-113 −UAAUUAGGCUUUAUAGA 17 15213 CFTR-Intron2-114 − UAACCAAAUGUUAUGGA 17 15214CFTR-Intron2-115 − UGCCAGUUAAUGAAUGA 17 15215 CFTR-Intron2-116 +AUCUGGCAACCACUUGA 17 15216 CFTR-Intron2-117 − UCAUUAGCAAGCUUCUA 17 15217CFTR-Intron2-118 − UCUCAGCUCCUGAAGUA 17 15218 CFTR-Intron2-119 −AAUGAUUAAUCAGAGUA 17 15219 CFTR-Intron2-120 − AGAGCCAUGUUUACUUA 17 15220CFTR-Intron2-121 − CUCCCUGGGAAGUCUUA 17 15221 CFTR-Intron2-122 −UGAGUAACCAAAUGUUA 17 15222 CFTR-Intron2-123 − CUUUGCUCCUAUCUUUA 17 15223CFTR-Intron2-124 + AACUGAGAGAUUCUUUA 17 15224 CFTR-Intron2-125 +UUAAAUAGUCUGAAAAC 17 15225 CFTR-Intron2-126 − AGACCUAGGUGGAGAAC 17 15226CFTR-Intron2-127 + UCUACCUGGCAUGUAAC 17 15227 CFTR-Intron2-128 +CUCCAUCAUUCAUUAAC 17 15228 CFTR-Intron2-129 − UCUCGUGCCAACAGCAC 17 15229CFTR-Intron2-130 − CUUAAGGUAAUGGCUAC 17 15230 CFTR-Intron2-131 +CUCUCCAGCAAUGCUAC 17 15231 CFTR-Intron2-132 + AACGUAUGGGUUUGUAC 17 15232CFTR-Intron2-133 + AGCAAAGAGUUCUAACC 17 15233 CFTR-Intron2-134 +AUAAGGCAAAUGCCACC 17 15234 CFTR-Intron2-135 − AGGACUCAAAUGCCACC 17 15235CFTR-Intron2-136 + AGUGAAGUAGAGAGACC 17 15236 CFTR-Intron2-137 +UAGUAGGACCACAUACC 17 15237 CFTR-Intron2-138 + AGAGGAGAUAUUCUACC 17 15238CFTR-Intron2-139 − CCCUUGGGAAGUGACCC 17 15239 CFTR-Intron2-140 −CUAAAACUACAUUGCCC 17 15240 CFTR-Intron2-141 − AAUACAAAUGUACUCCC 17 15241CFTR-Intron2-142 − UACAUAAAGUGGGUCCC 17 15242 CFTR-Intron2-143 +UUACCUUAAGACUUCCC 17 15243 CFTR-Intron2-144 + UUAUGAAAUGUGAAGCC 17 15244CFTR-Intron2-145 + UAAAGGAGUAAUAGGCC 17 15245 CFTR-Intron2-146 −CAUGCUUAGAGAUUGCC 17 15246 CFTR-Intron2-147 + ACUUAGAUAUUCAAAGC 17 15247CFTR-Intron2-148 + CACUUUAUGUAGAAAGC 17 15248 CFTR-Intron2-149 +UGUUCAAUAAUAGAAGC 17 15249 CFTR-Intron2-150 − UAAUAAAUACAAUCAGC 17 15250CFTR-Intron2-151 + CUAAAGGAGUAAUAGGC 17 15251 CFTR-Intron2-152 −AUUAAUCAGAGUAGGGC 17 15252 CFTR-Intron2-153 − UGGCAUUUGCCUUAUGC 17 15253CFTR-Intron2-154 − UAAACAUAAUCCAUUGC 17 15254 CFTR-Intron2-155 +AAUGUUCUUCAACCAUC 17 15255 CFTR-Intron2-156 + CCCUUUUAUCUGGCAUC 17 15256CFTR-Intron2-157 − AAGAACAUUAACCUAUC 17 15257 CFTR-Intron2-158 +UCACUCACCCUUUUAUC 17 15258 CFTR-Intron2-159 + UAUGACUCAAGAGUCUC 17 15259CFTR-Intron2-160 + UAUGUAGAAAGCUGGUC 17 15260 CFTR-Intron2-161 +AGGUCUUCACAUAGUUC 17 15261 CFTR-Intron2-162 − CAGCUUUCUACAUAAAG 17 15262CFTR-Intron2-163 + ACUAUGAGUGGCCCAAG 17 15263 CFTR-Intron2-164 −UGACCAUGGCCCUCAAG 17 15264 CFTR-Intron2-165 + UUGUUAUAUUUCAUAAG 17 15265CFTR-Intron2-166 + ACUUCCCAAGGGUGCAG 17 15266 CFTR-Intron2-167 +AUGCUUUCCACUCAGAG 17 15267 CFTR-Intron2-168 + UCAUUCUAGACUAUGAG 17 15268CFTR-Intron2-169 − UCAAAGAAUUAAGCUAG 17 15269 CFTR-Intron2-170 −CAUUAGCAAGCUUCUAG 17 15270 CFTR-Intron2-171 + ACACUGCAGUUAUGUAG 17 15271CFTR-Intron2-172 + AAAGGAGUAAUAGGCCG 17 15272 CFTR-Intron2-173 +AGGAGAAGGCAAGGUCG 17 15273 CFTR-Intron2-174 + AAGGGCUCCUUCUUUCG 17 15274CFTR-Intron2-175 − CUAUGUGAAGACCUAGG 17 15275 CFTR-Intron2-176 +AGAGAUUCUUUAUGGGG 17 15276 CFTR-Intron2-177 − UGGAGAAGCAUGUGGGG 17 15277CFTR-Intron2-178 − CAAAUGUUAUGGAUGGG 17 15278 CFTR-Intron2-179 +UAGUUUUAGGAACAUGG 17 15279 CFTR-Intron2-180 + UGAGAGAUUCUUUAUGG 17 15280CFTR-Intron2-181 − ACUCAAAUGCCACCUGG 17 15281 CFTR-Intron2-182 +UAAAUUGAAUCAACAUG 17 15282 CFTR-Intron2-183 − UGUGUGCAAAUGCCAUG 17 15283CFTR-Intron2-184 − AAAGGUGGAGAAGCAUG 17 15284 CFTR-Intron2-185 +AAUGGGGUAGUUACCUG 17 15285 CFTR-Intron2-186 − AGCCAUGAUUCCAGCUG 17 15286CFTR-Intron2-187 − UCUACAUUACUUCCGUG 17 15287 CFTR-Intron2-188 +AUCUUGGAACGGAUGUG 17 15288 CFTR-Intron2-189 + CAUCUGGCAACCACUUG 17 15289CFTR-Intron2-190 + CCUAUUCUAGGCACUUG 17 15290 CFTR-Intron2-191 −UACCUAGUUCUUCCUUG 17 15291 CFTR-Intron2-192 − UUGGUGCUAACAAUUUG 17 15292CFTR-Intron2-193 + UACUUAAGCUAGUAAAU 17 15293 CFTR-Intron2-194 −CCCCAAGUGCCUAGAAU 17 15294 CFTR-Intron2-195 + CACUCUAAAGGAGUAAU 17 15295CFTR-Intron2-196 + CGGGGAAUUUCUUUAAU 17 15296 CFTR-Intron2-197 +UCGUGGUCCUUAAAGAU 17 15297 CFTR-Intron2-198 + ACAAAAUUGAGCCAGAU 17 15298CFTR-Intron2-199 − UGGGGAGGGAAAUAGAU 17 15299 CFTR-Intron2-200 −AACCAAAUGUUAUGGAU 17 15300 CFTR-Intron2-201 + AAAAUAAUAGAACGUAU 17 15301CFTR-Intron2-202 − AAAAGGAACGAAUUUAU 17 15302 CFTR-Intron2-203 +ACUGAGAGAUUCUUUAU 17 15303 CFTR-Intron2-204 + AACCACAAGGAAGAACU 17 15304CFTR-Intron2-205 − AUAGUCUAGAAUGAACU 17 15305 CFTR-Intron2-206 +AGGCCAGUUCUCCACCU 17 15306 CFTR-Intron2-207 − UUGUACCUCUGCACCCU 17 15307CFTR-Intron2-208 + AGGUCUCUAGUGACCCU 17 15308 CFTR-Intron2-209 −UCAUAGUGCUUACCCCU 17 15309 CFTR-Intron2-210 − AUACAAAUGUACUCCCU 17 15310CFTR-Intron2-211 − UGUACACACCCCUUCCU 17 15311 CFTR-Intron2-212 +CUUAGAUAUUCAAAGCU 17 15312 CFTR-Intron2-213 − UUAAUCAGAGUAGGGCU 17 15313CFTR-Intron2-214 + UAUCCUGACUACAAUCU 17 15314 CFTR-Intron2-215 +UCUCUAAGCAUGGAUCU 17 15315 CFTR-Intron2-216 − ACCACAUCACCUACUCU 17 15316CFTR-Intron2-217 + AUGACUCAAGAGUCUCU 17 15317 CFTR-Intron2-218 −CUCAUUAGCAAGCUUCU 17 15318 CFTR-Intron2-219 + UUGUUAGCACCAAGAGU 17 15319CFTR-Intron2-220 − CAAAGAAUUAAGCUAGU 17 15320 CFTR-Intron2-221 −AAGGUGGAGAAGCAUGU 17 15321 CFTR-Intron2-222 + CAUCAGGCCUGUGCUGU 17 15322CFTR-Intron2-223 − CAUUGAACCCAUUUUGU 17 15323 CFTR-Intron2-224 +ACUUAAGCUAGUAAAUU 17 15324 CFTR-Intron2-225 + CUCCCAUCCAUAACAUU 17 15325CFTR-Intron2-226 − UGUACCUCUGCACCCUU 17 15326 CFTR-Intron2-227 −CAUAGUGCUUACCCCUU 17 15327 CFTR-Intron2-228 − UUUCCAAUCAAAAGGUU 17 15328CFTR-Intron2-229 − AGGCCUGAUGCCAGAUAAAA 20 15329 CFTR-Intron2-230 +CUUCUCCAUCAAAGGAGAAA 20 15330 CFTR-Intron2-231 − AUCCAUGAUGGAAUGUGAAA 2015331 CFTR-Intron2-232 − CAGGCCUGAUGCCAGAUAAA 20 15332CFTR-Intron2-233 + AGCCUUUUUUCUCUUCACAA 20 15333 CFTR-Intron2-234 +CUAGGUAAACAAUUAGACAA 20 15334 CFTR-Intron2-235 + UCACAUUUAGCCAAGGACAA 2015335 CFTR-Intron2-236 + CUAGACUAUGAGUGGCCCAA 20 15336CFTR-Intron2-237 + AAGCCAGGGUCACUUCCCAA 20 15337 CFTR-Intron2-238 +ACUUGUCAAUAUACCUGCAA 20 15338 CFTR-Intron2-239 + AGACUCACCUUCUCCAUCAA 2015339 CFTR-Intron2-240 − AUUCACACUUCUAAGAUCAA 20 15340 CFTR-Intron2-241− AACUGGCCUUAGGAACUCAA 20 15341 CFTR-Intron2-242 + AUACCAGGCCCAGAUCAGAA20 15342 CFTR-Intron2-243 − UAGCUCUGUGUGUGAGAGAA 20 15343CFTR-Intron2-244 + CACACGGAAGUAAUGUAGAA 20 15344 CFTR-Intron2-245 −AUUGCCUUGCUCUCUAGGAA 20 15345 CFTR-Intron2-246 + UCCUAACCUUUUGAUUGGAA 2015346 CFTR-Intron2-247 + UCCUGACUACAAUCUUGGAA 20 15347 CFTR-Intron2-248− CAGAUAAAAGGGUGAGUGAA 20 15348 CFTR-Intron2-249 + AUACACGAUUUACUUCAUAA20 15349 CFTR-Intron2-250 + AUGGCUCUAAAUCACUCUAA 20 15350CFTR-Intron2-251 − UUAUGGUAACUUGACAGUAA 20 15351 CFTR-Intron2-252 −CCUGGGAAGUCUUAAGGUAA 20 15352 CFTR-Intron2-253 + CUACUAAAAUCAUGUAUUAA 2015353 CFTR-Intron2-254 + AGGUCGGGGAAUUUCUUUAA 20 15354CFTR-Intron2-255 + CAAGUUACCAUAAGUAAACA 20 15355 CFTR-Intron2-256 +AUGUGAAAAAGUGGUCCACA 20 15356 CFTR-Intron2-257 + ACUUGAGGGCCAUGGUCACA 2015357 CFTR-Intron2-258 − UUAGGAACUCAAUGGGACCA 20 15358 CFTR-Intron2-259− UCAUAACUGCCUUGUGACCA 20 15359 CFTR-Intron2-260 − CUGGCUCAAUUUUGUGACCA20 15360 CFTR-Intron2-261 + UCUAGACUAUGAGUGGCCCA 20 15361CFTR-Intron2-262 − UCCUAAAACUACAUUGCCCA 20 15362 CFTR-Intron2-263 +CAUUACCUUAAGACUUCCCA 20 15363 CFTR-Intron2-264 + AGUUAUGAAAUGUGAAGCCA 2015364 CFTR-Intron2-265 + UGGCAACCACUUGAGGGCCA 20 15365CFTR-Intron2-266 + UAUGUAGAGGAUUCAAUCCA 20 15366 CFTR-Intron2-267 +AGCCUGGCAAUCUCUAAGCA 20 15367 CFTR-Intron2-268 + ACUACCAUUCCUAGAGAGCA 2015368 CFTR-Intron2-269 + AGUUACCUGAGGAGAAGGCA 20 15369CFTR-Intron2-270 + ACAGACCUCAGCUGGAAUCA 20 15370 CFTR-Intron2-271 +AGCCAUUUCACAUUCCAUCA 20 15371 CFTR-Intron2-272 + AACAAAGUAUCCCUACCUCA 2015372 CFTR-Intron2-273 + UUUUCACAAAAUCCAUCUCA 20 15373 CFTR-Intron2-274− UCUUUAAGGACCACGAAAGA 20 15374 CFTR-Intron2-275 + CAUACCAGGCCCAGAUCAGA20 15375 CFTR-Intron2-276 + CAAAGGAGAAAUGGAUCAGA 20 15376CFTR-Intron2-277 − UCUUAUUAGAGACCAUGAGA 20 15377 CFTR-Intron2-278 −CAUGUGGGGAGGGAAAUAGA 20 15378 CFTR-Intron2-279 − AGGUAAUUAGGCUUUAUAGA 2015379 CFTR-Intron2-280 + UCAGAUGGGAAAGCCAAGGA 20 15380 CFTR-Intron2-281− CUUUGCCAGUUAAUGAAUGA 20 15381 CFTR-Intron2-282 − AAGUUUUAAUUGGAUGCUGA20 15382 CFTR-Intron2-283 − CCAGAUAAAAGGGUGAGUGA 20 15383CFTR-Intron2-284 + ACCAUCUGGCAACCACUUGA 20 15384 CFTR-Intron2-285 −CUGAUCCAUUUCUCCUUUGA 20 15385 CFTR-Intron2-286 − UCCUUUUUUUGGCAUUUUGA 2015386 CFTR-Intron2-287 + UCAGAGUAAGAAGCUAAAUA 20 15387 CFTR-Intron2-288− AUCCCCAAGUGCCUAGAAUA 20 15388 CFTR-Intron2-289 + UUGGUCCCAUUGAGUUCCUA20 15389 CFTR-Intron2-290 − CUCUCAUUAGCAAGCUUCUA 20 15390CFTR-Intron2-291 − ACAUCUCAGCUCCUGAAGUA 20 15391 CFTR-Intron2-292 −UGUGCAAAUGCCAUGAGGUA 20 15392 CFTR-Intron2-293 − UUUAGAGCCAUGUUUACUUA 2015393 CFTR-Intron2-294 − CUCUGAGUAACCAAAUGUUA 20 15394 CFTR-Intron2-295− ACUCUUUGCUCCUAUCUUUA 20 15395 CFTR-Intron2-296 + ACAUUAAAUAGUCUGAAAAC20 15396 CFTR-Intron2-297 + AUGGGGGAUACAGUGAAAAC 20 15397CFTR-Intron2-298 − UGAAGACCUAGGUGGAGAAC 20 15398 CFTR-Intron2-299 +UAUUCUACCUGGCAUGUAAC 20 15399 CFTR-Intron2-300 + UGGCUCCAUCAUUCAUUAAC 2015400 CFTR-Intron2-301 − CUGGUUUUAUUUUCUCAGAC 20 15401 CFTR-Intron2-302− AGUCUUAAGGUAAUGGCUAC 20 15402 CFTR-Intron2-303 + UAUCUCUCCAGCAAUGCUAC20 15403 CFTR-Intron2-304 + UAGAACGUAUGGGUUUGUAC 20 15404CFTR-Intron2-305 + AGGAGCAAAGAGUUCUAACC 20 15405 CFTR-Intron2-306 +AGCAUAAGGCAAAUGCCACC 20 15406 CFTR-Intron2-307 − CCAAGGACUCAAAUGCCACC 2015407 CFTR-Intron2-308 + UUCUAGUAGGACCACAUACC 20 15408CFTR-Intron2-309 + CUGAGAGGAGAUAUUCUACC 20 15409 CFTR-Intron2-310 +UAAGAGGUCUCUAGUGACCC 20 15410 CFTR-Intron2-311 − UUCCUAAAACUACAUUGCCC 2015411 CFTR-Intron2-312 − UUGAAUACAAAUGUACUCCC 20 15412 CFTR-Intron2-313− UUCUACAUAAAGUGGGUCCC 20 15413 CFTR-Intron2-314 + CCAUUACCUUAAGACUUCCC20 15414 CFTR-Intron2-315 + CAGUUAUGAAAUGUGAAGCC 20 15415CFTR-Intron2-316 − CUUCCCUUCUGAUCUGGGCC 20 15416 CFTR-Intron2-317 −AUCCAUGCUUAGAGAUUGCC 20 15417 CFTR-Intron2-318 + AAAACUUAGAUAUUCAAAGC 2015418 CFTR-Intron2-319 + ACCCACUUUAUGUAGAAAGC 20 15419CFTR-Intron2-320 + AAGUGUUCAAUAAUAGAAGC 20 15420 CFTR-Intron2-321 −ACUUAAUAAAUACAAUCAGC 20 15421 CFTR-Intron2-322 + AAGGCAAUACAGACCUCAGC 2015422 CFTR-Intron2-323 − AUGAUUAAUCAGAGUAGGGC 20 15423 CFTR-Intron2-324− AUAUAAACAUAAUCCAUUGC 20 15424 CFTR-Intron2-325 − AUAGAAACCUGUAGCAUUGC20 15425 CFTR-Intron2-326 − AAACUUCUUCCCUUCUGAUC 20 15426CFTR-Intron2-327 − UUGAAGAACAUUAACCUAUC 20 15427 CFTR-Intron2-328 +UCAGAUUCAUGUUCUCUAUC 20 15428 CFTR-Intron2-329 − UCUGAAUUUGCAGAAUUAUC 2015429 CFTR-Intron2-330 − CCCGACCUUGCCUUCUCCUC 20 15430CFTR-Intron2-331 + CACUAUGACUCAAGAGUCUC 20 15431 CFTR-Intron2-332 −UCCGUUCCAAGAUUGUAGUC 20 15432 CFTR-Intron2-333 + CCUGAGGAGAAGGCAAGGUC 2015433 CFTR-Intron2-334 + CUUUAUGUAGAAAGCUGGUC 20 15434CFTR-Intron2-335 + CCUAGGUCUUCACAUAGUUC 20 15435 CFTR-Intron2-336 +AUGGGUUCAAUGUGAAAAAG 20 15436 CFTR-Intron2-337 + UAGACUAUGAGUGGCCCAAG 2015437 CFTR-Intron2-338 − UUGUGACCAUGGCCCUCAAG 20 15438 CFTR-Intron2-339− CUUUCAUUAACAGAAAUCAG 20 15439 CFTR-Intron2-340 + AAGGCUUUACGUUUCAUCAG20 15440 CFTR-Intron2-341 + AUGAUGCUUUCCACUCAGAG 20 15441CFTR-Intron2-342 + AGUUCAUUCUAGACUAUGAG 20 15442 CFTR-Intron2-343 +UUCCACUCAGAGUGGCUGAG 20 15443 CFTR-Intron2-344 − CUCCUCUCAGCCACUCUGAG 2015444 CFTR-Intron2-345 − UAUUCAAAGAAUUAAGCUAG 20 15445 CFTR-Intron2-346− UCUCAUUAGCAAGCUUCUAG 20 15446 CFTR-Intron2-347 + UGCACACUGCAGUUAUGUAG20 15447 CFTR-Intron2-348 + UCUAAAGGAGUAAUAGGCCG 20 15448CFTR-Intron2-349 + CUGAGGAGAAGGCAAGGUCG 20 15449 CFTR-Intron2-350 +AUAAGGCAAAUGCCACCAGG 20 15450 CFTR-Intron2-351 + CUGAGAGAUUCUUUAUGGGG 2015451 CFTR-Intron2-352 − AACCAAAUGUUAUGGAUGGG 20 15452CFTR-Intron2-353 + ACUGAGAGAUUCUUUAUGGG 20 15453 CFTR-Intron2-354 +UUUAAAUUGAAUCAACAUGG 20 15454 CFTR-Intron2-355 + AUGUAGUUUUAGGAACAUGG 2015455 CFTR-Intron2-356 + AACUGAGAGAUUCUUUAUGG 20 15456 CFTR-Intron2-357− AGGACUCAAAUGCCACCUGG 20 15457 CFTR-Intron2-358 + UUUUAAAUUGAAUCAACAUG20 15458 CFTR-Intron2-359 + AGCACCAAGAGUAGGUGAUG 20 15459CFTR-Intron2-360 − UCUGAUCUGGGCCUGGUAUG 20 15460 CFTR-Intron2-361 +AAACUGAGAGAUUCUUUAUG 20 15461 CFTR-Intron2-362 + UAGAAUGGGGUAGUUACCUG 2015462 CFTR-Intron2-363 − UGGAGCCAUGAUUCCAGCUG 20 15463 CFTR-Intron2-364− UAAGUUUUAAUUGGAUGCUG 20 15464 CFTR-Intron2-365 − CUUUCUACAUUACUUCCGUG20 15465 CFTR-Intron2-366 + ACAAUCUUGGAACGGAUGUG 20 15466CFTR-Intron2-367 + AACCAUCUGGCAACCACUUG 20 15467 CFTR-Intron2-368 −CUCUUGGUGCUAACAAUUUG 20 15468 CFTR-Intron2-369 + UGUACAUAAACCAACAAAAU 2015469 CFTR-Intron2-370 + AUUUACUUAAGCUAGUAAAU 20 15470 CFTR-Intron2-371− ACUGGCCUUAGGAACUCAAU 20 15471 CFTR-Intron2-372 − CAAGUUCAAAAUAAUAUAAU20 15472 CFTR-Intron2-373 − UAUGGUAACUUGACAGUAAU 20 15473CFTR-Intron2-374 + AAUCACUCUAAAGGAGUAAU 20 15474 CFTR-Intron2-375 +CUUUCGUGGUCCUUAAAGAU 20 15475 CFTR-Intron2-376 + AAAGGAGAAAUGGAUCAGAU 2015476 CFTR-Intron2-377 − AUGUGGGGAGGGAAAUAGAU 20 15477 CFTR-Intron2-378− AGUAACCAAAUGUUAUGGAU 20 15478 CFTR-Intron2-379 + AAGGAUCCUAACCUUUUGAU20 15479 CFTR-Intron2-380 + ACAAAAAUAAUAGAACGUAU 20 15480CFTR-Intron2-381 − AAUAAAAGGAACGAAUUUAU 20 15481 CFTR-Intron2-382 +UGGGUGAAACUUGAACAACU 20 15482 CFTR-Intron2-383 + AUGAACCACAAGGAAGAACU 2015483 CFTR-Intron2-384 − CUCAUAGUCUAGAAUGAACU 20 15484 CFTR-Intron2-385− AGCUUCUAUUAUUGAACACU 20 15485 CFTR-Intron2-386 + CUAAGGCCAGUUCUCCACCU20 15486 CFTR-Intron2-387 − CCUGAACUAUGUGAAGACCU 20 15487CFTR-Intron2-388 + AAGAGGUCUCUAGUGACCCU 20 15488 CFTR-Intron2-389 −UGAAUACAAAUGUACUCCCU 20 15489 CFTR-Intron2-390 + CCAGGUGGCAUUUGAGUCCU 2015490 CFTR-Intron2-391 − AAGAAGGAGCCCUUUGUCCU 20 15491 CFTR-Intron2-392− UUAUGUACACACCCCUUCCU 20 15492 CFTR-Intron2-393 + AAACUUAGAUAUUCAAAGCU20 15493 CFTR-Intron2-394 − UGAUUAAUCAGAGUAGGGCU 20 15494CFTR-Intron2-395 + UCAUAUCCUGACUACAAUCU 20 15495 CFTR-Intron2-396 +CAAUCUCUAAGCAUGGAUCU 20 15496 CFTR-Intron2-397 − AACUUCUUCCCUUCUGAUCU 2015497 CFTR-Intron2-398 − AGAACCACAUCACCUACUCU 20 15498 CFTR-Intron2-399− UCUGUAUUGCCUUGCUCUCU 20 15499 CFTR-Intron2-400 + ACUAUGACUCAAGAGUCUCU20 15500 CFTR-Intron2-401 − ACCAGCUUUCUACAUAAAGU 20 15501CFTR-Intron2-402 + AAAUUGUUAGCACCAAGAGU 20 15502 CFTR-Intron2-403 −AGGGAAUGAUUAAUCAGAGU 20 15503 CFTR-Intron2-404 − AUUCAAAGAAUUAAGCUAGU 2015504 CFTR-Intron2-405 + ACCUGAGGAGAAGGCAAGGU 20 15505 CFTR-Intron2-406− AGAAAGGUGGAGAAGCAUGU 20 15506 CFTR-Intron2-407 + UGGCAUCAGGCCUGUGCUGU20 15507 CFTR-Intron2-408 − UCACAUUGAACCCAUUUUGU 20 15508CFTR-Intron2-409 − AUAGAUGGGAAAAGGUAAUU 20 15509 CFTR-Intron2-410 +AACCUCCCAUCCAUAACAUU 20 15510 CFTR-Intron2-411 + UCAACUCAAUGUUUUUACUU 2015511 CFTR-Intron2-412 − CUUUGUACCUCUGCACCCUU 20 15512 CFTR-Intron2-413− AGUCAUAGUGCUUACCCCUU 20 15513 CFTR-Intron2-414 − CUAGGUGGAGAACUGGCCUU20 15514 CFTR-Intron2-415 − UCCUUUCCAAUCAAAAGGUU 20 15515CFTR-Intron2-416 + ACCCUGGGCAAUGUAGUUUU 20 15516

Table 37C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within intron 2 and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 37C 3rd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-417 − GGGAAAUAGAUGGGAAA 17 15517CFTR-Intron2-418 + GACCAGCCUGGCCAACA 17 15518 CFTR-Intron2-419 −GCUAAUUUUUGUAGAGA 17 15519 CFTR-Intron2-420 − GUGGGGAGGGAAAUAGA 17 15520CFTR-Intron2-421 + GAUGGGAAAGCCAAGGA 17 15521 CFTR-Intron2-422 −GUUGAAUGAAUCCAUGA 17 15522 CFTR-Intron2-423 − GAUAAAAGGGUGAGUGA 17 15523CFTR-Intron2-424 + GAGUAAGAAGCUAAAUA 17 15524 CFTR-Intron2-425 −GAAUAGGGCCUGGCAUA 17 15525 CFTR-Intron2-426 + GGGGAUACAGUGAAAAC 17 15526CFTR-Intron2-427 − GUUUUAUUUUCUCAGAC 17 15527 CFTR-Intron2-428 +GAGAAUCACUUGAACCC 17 15528 CFTR-Intron2-429 + GAGAUUCGCUUGAACCC 17 15529CFTR-Intron2-430 − GUCUCGCUGUGUCACCC 17 15530 CFTR-Intron2-431 −GGCGUGAGCCACUGCCC 17 15531 CFTR-Intron2-432 − GUCUUGCUCUGUUGCCC 17 15532CFTR-Intron2-433 + GGAGUUCAAGACCAGCC 17 15533 CFTR-Intron2-434 −GCAUGCACCACCAGGCC 17 15534 CFTR-Intron2-435 − GUGCCUAGAAUAGGGCC 17 15535CFTR-Intron2-436 − GUUUUGCUAUGCUGGCC 17 15536 CFTR-Intron2-437 −GUUUCGCCAUGUUGGCC 17 15537 CFTR-Intron2-438 − GCACUCGCCACAAUGCC 17 15538CFTR-Intron2-439 + GAGGAGAAGGCAAGGUC 17 15539 CFTR-Intron2-440 +GCAGAUCACUUGAGGUC 17 15540 CFTR-Intron2-441 + GGUGGAAACCAUACUUC 17 15541CFTR-Intron2-442 + GAAAAGAAGUAACAGGG 17 15542 CFTR-Intron2-443 −GUUUUAAUUGGAUGCUG 17 15543 CFTR-Intron2-444 + GGCGGGCAGAUCACUUG 17 15544CFTR-Intron2-445 + GGUGGGCAGAUCACUUG 17 15545 CFTR-Intron2-446 +GAAAGAAAAAAUAGAAU 17 15546 CFTR-Intron2-447 − GUUCAAAAUAAUAUAAU 17 15547CFTR-Intron2-448 + GGAGAAAUGGAUCAGAU 17 15548 CFTR-Intron2-449 +GCCCUAUUCUAGGCACU 17 15549 CFTR-Intron2-450 − GUGGAGUUUCGCCAUGU 17 15550CFTR-Intron2-451 − GAUGGGAAAAGGUAAUU 17 15551 CFTR-Intron2-452 −GUUUUUUAUUUUUUAUU 17 15552 CFTR-Intron2-453 − GUGUAAUGGUGCAAUUU 17 15553CFTR-Intron2-454 − GGAGGGAAAUAGAUGGGAAA 20 15554 CFTR-Intron2-455 +GAAAAAUUUCAUGAACCACA 20 15555 CFTR-Intron2-456 + GAGAAAAUAAAACCAGCAUA 2015556 CFTR-Intron2-457 − GACUACAGGCAUGCACCACC 20 15557 CFTR-Intron2-458− GGGGUUUUGCUAUGCUGGCC 20 15558 CFTR-Intron2-459 − GGAGUUUCGCCAUGUUGGCC20 15559 CFTR-Intron2-460 − GCCUCAGCCUCUCGAGUAGC 20 15560CFTR-Intron2-461 + GCUACUCGAGAGGCUGAGGC 20 15561 CFTR-Intron2-462 −GAGACGGGGUUUUGCUAUGC 20 15562 CFTR-Intron2-463 + GCCUGUAGUCCCAGCUACUC 2015563 CFTR-Intron2-464 + GACUUUGUUUUUAAAAGUAG 20 15564 CFTR-Intron2-465− GGCUAAUUUUUGUAGAGACG 20 15565 CFTR-Intron2-466 + GAGAUUCGCUUGAACCCAGG20 15566 CFTR-Intron2-467 − GAGAAAGGUGGAGAAGCAUG 20 15567CFTR-Intron2-468 − GAAAGGUGGAGAAGCAUGUG 20 15568 CFTR-Intron2-469 +GGCCCUAUUCUAGGCACUUG 20 15569 CFTR-Intron2-470 + GCACCAUUACACUCCAGCCU 2015570 CFTR-Intron2-471 + GCAUUUUGGGAGGCCAAGGU 20 15571 CFTR-Intron2-472− GUGUGCAAAUGCCAUGAGGU 20 15572 CFTR-Intron2-473 − GAUGUGGAGUUUCGCCAUGU20 15573 CFTR-Intron2-474 − GCCUUGGCCUCCCAAAGUGU 20 15574CFTR-Intron2-475 − GGAGUGUAAUGGUGCAAUUU 20 15575 CFTR-Intron2-476 +GCCACUAAUCCCAACACUUU 20 15576

Table 37D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within intron 2. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 37D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-477 + UUCAAAAUGCCAAAAAA 17 15577CFTR-Intron2-478 − CUUUGUGAAGAGAAAAA 17 15578 CFTR-Intron2-479 +UACAUAAACCAACAAAA 17 15579 CFTR-Intron2-480 − UUUCCUUUCCAAUCAAA 17 15580CFTR-Intron2-481 + UGUCACUGGCAAUCAAA 17 15581 CFTR-Intron2-482 +CUCCAUCAAAGGAGAAA 17 15582 CFTR-Intron2-483 − CAUGAUGGAAUGUGAAA 17 15583CFTR-Intron2-484 − UAGCUUAAGUAAAUAAA 17 15584 CFTR-Intron2-485 +CUUUUUUCUCUUCACAA 17 15585 CFTR-Intron2-486 − CUCUGUGUGUGAGAGAA 17 15586CFTR-Intron2-487 + UGAAAGAAAAAAUAGAA 17 15587 CFTR-Intron2-488 +AUGGGAAAGCCAAGGAA 17 15588 CFTR-Intron2-489 − AUAAAAGGGUGAGUGAA 17 15589CFTR-Intron2-490 + ACAAACAAAAAACAUAA 17 15590 CFTR-Intron2-491 +UUUGUAUUCAAAUAUAA 17 15591 CFTR-Intron2-492 − AGUUCAAAAUAAUAUAA 17 15592CFTR-Intron2-493 − CCCAGGCUGGAGUGUAA 17 15593 CFTR-Intron2-494 +CUAAAAUCAUGUAUUAA 17 15594 CFTR-Intron2-495 + UUUAAAUUGAAUCAACA 17 15595CFTR-Intron2-496 + UAAGAAAAGAAGUAACA 17 15596 CFTR-Intron2-497 +AUCAGAUGGGAAAGCCA 17 15597 CFTR-Intron2-498 + UAUGAAAUGUGAAGCCA 17 15598CFTR-Intron2-499 + AACACUUUGGGAGGCCA 17 15599 CFTR-Intron2-500 +AGCAUUUUGGGAGGCCA 17 15600 CFTR-Intron2-501 + CAUUUCACAUUCCAUCA 17 15601CFTR-Intron2-502 + AGGAGAAAUGGAUCAGA 17 15602 CFTR-Intron2-503 −UUCUCCUUUGAUGGAGA 17 15603 CFTR-Intron2-504 − UAUUAGAGACCAUGAGA 17 15604CFTR-Intron2-505 − UUUUAAUUGGAUGCUGA 17 15605 CFTR-Intron2-506 −AUCCAUUUCUCCUUUGA 17 15606 CFTR-Intron2-507 − UUUUUUUGGCAUUUUGA 17 15607CFTR-Intron2-508 − CCCAAGUGCCUAGAAUA 17 15608 CFTR-Intron2-509 +AAAAUAAAACCAGCAUA 17 15609 CFTR-Intron2-510 + AAAAAUAAUAGAACGUA 17 15610CFTR-Intron2-511 − UGAUACAUUUGUAUUUA 17 15611 CFTR-Intron2-512 +AUAAGAAAAGAAGUAAC 17 15612 CFTR-Intron2-513 + AAUUGGGUUUCUGUCAC 17 15613CFTR-Intron2-514 − CUAAUUUUUGUAGAGAC 17 15614 CFTR-Intron2-515 −UGAGUAGCUGGGACUAC 17 15615 CFTR-Intron2-516 − CGAGUAGCUGGGUUUAC 17 15616CFTR-Intron2-517 − UACAGGCAUGCACCACC 17 15617 CFTR-Intron2-518 +AGAUUUGAAGACAAGCC 17 15618 CFTR-Intron2-519 + ACCACUACACUCCAGCC 17 15619CFTR-Intron2-520 + ACCAUUACACUCCAGCC 17 15620 CFTR-Intron2-521 +AAAUACAAAAAUUAGCC 17 15621 CFTR-Intron2-522 + CUCUACAAAAAUUAGCC 17 15622CFTR-Intron2-523 + CAAAAAUUAGCCAGGCC 17 15623 CFTR-Intron2-524 −CCCUUCUGAUCUGGGCC 17 15624 CFTR-Intron2-525 − AGUACCUGUUACAUGCC 17 15625CFTR-Intron2-526 + AGUAUAUACCAUAUGCC 17 15626 CFTR-Intron2-527 −CUGCAAACUCUGCCUCC 17 15627 CFTR-Intron2-528 − AACAUUCUCUGCUCUCC 17 15628CFTR-Intron2-529 − CUGCAAACUUCGUCUCC 17 15629 CFTR-Intron2-530 −UCAGCCUCUCGAGUAGC 17 15630 CFTR-Intron2-531 − UCAGUCUCCUGAGUAGC 17 15631CFTR-Intron2-532 + CUUUGGGAGGCCAAGGC 17 15632 CFTR-Intron2-533 −CGCUGUGUCACCCAGGC 17 15633 CFTR-Intron2-534 − UGCUCUGUUGCCCAGGC 17 15634CFTR-Intron2-535 − UGCUAUGCUGGCCAGGC 17 15635 CFTR-Intron2-536 −CGCCAUGUUGGCCAGGC 17 15636 CFTR-Intron2-537 + ACUCGAGAGGCUGAGGC 17 15637CFTR-Intron2-538 − UUGGCCUCCCAAAAUGC 17 15638 CFTR-Intron2-539 −ACGGGGUUUUGCUAUGC 17 15639 CFTR-Intron2-540 − CUUCUUCCCUUCUGAUC 17 15640CFTR-Intron2-541 + UGUAGUCCCAGCUACUC 17 15641 CFTR-Intron2-542 +CCAAAUGUGUAUUUUUC 17 15642 CFTR-Intron2-543 + UGGGAAAGCCAAGGAAG 17 15643CFTR-Intron2-544 − UAAAAGGGUGAGUGAAG 17 15644 CFTR-Intron2-545 −UCAUUAACAGAAAUCAG 17 15645 CFTR-Intron2-546 + AAACCCAGCUACUCGAG 17 15646CFTR-Intron2-547 + CACUCAGAGUGGCUGAG 17 15647 CFTR-Intron2-548 −CUCUCAGCCACUCUGAG 17 15648 CFTR-Intron2-549 + UUCAAAGCUGGGCAUAG 17 15649CFTR-Intron2-550 + UUUGUUUUUAAAAGUAG 17 15650 CFTR-Intron2-551 −CCCAGGCUGGAGUGUAG 17 15651 CFTR-Intron2-552 − CAAAGUGUUGGGAUUAG 17 15652CFTR-Intron2-553 − UAAUUUUUGUAGAGACG 17 15653 CFTR-Intron2-554 −UGUGUGUGAGAGAAAGG 17 15654 CFTR-Intron2-555 + ACUUUGGGAGGCCAAGG 17 15655CFTR-Intron2-556 + AUUUUGGGAGGCCAAGG 17 15656 CFTR-Intron2-557 −AAAAGGGUGAGUGAAGG 17 15657 CFTR-Intron2-558 + AGGCAAAUGCCACCAGG 17 15658CFTR-Intron2-559 + AUUCGCUUGAACCCAGG 17 15659 CFTR-Intron2-560 +AAUCCCAACACUUUGGG 17 15660 CFTR-Intron2-561 + AAUCCCAGCAUUUUGGG 17 15661CFTR-Intron2-562 + AAAUUGAAUCAACAUGG 17 15662 CFTR-Intron2-563 +AAAUUAGCCAGGCCUGG 17 15663 CFTR-Intron2-564 + AAAGAAAAAAUAGAAUG 17 15664CFTR-Intron2-565 − UUGUAUUUUAGUAGAUG 17 15665 CFTR-Intron2-566 +ACCAAGAGUAGGUGAUG 17 15666 CFTR-Intron2-567 + CUGAGAGAUUCUUUAUG 17 15667CFTR-Intron2-568 − UACAGAAAAGCAAACUG 17 15668 CFTR-Intron2-569 +AGCUACUCGAGAGGCUG 17 15669 CFTR-Intron2-570 − AGGUGGAGAAGCAUGUG 17 15670CFTR-Intron2-571 + AAAUUAGCCAGGCAUUG 17 15671 CFTR-Intron2-572 +ACAUAAACCAACAAAAU 17 15672 CFTR-Intron2-573 − UUCUUUUCUUAUAAAAU 17 15673CFTR-Intron2-574 + UUGAAUUGAAGUAAAAU 17 15674 CFTR-Intron2-575 −AAUAUCUAAGUUUUAAU 17 15675 CFTR-Intron2-576 + UUAAAUUGAAUCAACAU 17 15676CFTR-Intron2-577 + UUUCUUUUAAAUACUAU 17 15677 CFTR-Intron2-578 −CAAAAUGCUGGGAUUAU 17 15678 CFTR-Intron2-579 − UGUUUUUUAUUUUUUAU 17 15679CFTR-Intron2-580 − UUCUAUUAUUGAACACU 17 15680 CFTR-Intron2-581 −AAGUGAUCUGCCCACCU 17 15681 CFTR-Intron2-582 + CCACUACACUCCAGCCU 17 15682CFTR-Intron2-583 + CCAUUACACUCCAGCCU 17 15683 CFTR-Intron2-584 −AAGUGAUCUGCCCGCCU 17 15684 CFTR-Intron2-585 − UGCAAACUCUGCCUCCU 17 15685CFTR-Intron2-586 − UGCAAACUUCGUCUCCU 17 15686 CFTR-Intron2-587 −AAGGAGCCCUUUGUCCU 17 15687 CFTR-Intron2-588 − CAGCCUCUCGAGUAGCU 17 15688CFTR-Intron2-589 − CAGUCUCCUGAGUAGCU 17 15689 CFTR-Intron2-590 −UGGCCUCCCAAAAUGCU 17 15690 CFTR-Intron2-591 − UUCUUCCCUUCUGAUCU 17 15691CFTR-Intron2-592 + AUGCCAGGCCCUAUUCU 17 15692 CFTR-Intron2-593 −AGCUUUCUACAUAAAGU 17 15693 CFTR-Intron2-594 + UUUUGGGAGGCCAAGGU 17 15694CFTR-Intron2-595 + UGAGGAGAAGGCAAGGU 17 15695 CFTR-Intron2-596 −UGCAAAUGCCAUGAGGU 17 15696 CFTR-Intron2-597 − UUGGCCUCCCAAAGUGU 17 15697CFTR-Intron2-598 − CCUGAAAAAUACACAUU 17 15698 CFTR-Intron2-599 +CACUAAUCCCAACACUU 17 15699 CFTR-Intron2-600 + CCCUAUUCUAGGCACUU 17 15700CFTR-Intron2-601 + ACUCAAUGUUUUUACUU 17 15701 CFTR-Intron2-602 −UGGCCUCCCAAAGUGUU 17 15702 CFTR-Intron2-603 + CUAUAAUCCCAGCAUUU 17 15703CFTR-Intron2-604 − AAUUUAUUGAAAUAUUU 17 15704 CFTR-Intron2-605 +ACUAAUCCCAACACUUU 17 15705 CFTR-Intron2-606 + UAUAAUCCCAGCAUUUU 17 15706CFTR-Intron2-607 + CUGGGCAAUGUAGUUUU 17 15707 CFTR-Intron2-608 −AAUUCAUUUCCUUUUUU 17 15708 CFTR-Intron2-609 − UUCCUUUGUGAAGAGAAAAA 2015709 CFTR-Intron2-610 + CACAUUUAGCCAAGGACAAA 20 15710 CFTR-Intron2-611− CAGUUUCCUUUCCAAUCAAA 20 15711 CFTR-Intron2-612 + UUCUGUCACUGGCAAUCAAA20 15712 CFTR-Intron2-613 − UACUAGCUUAAGUAAAUAAA 20 15713CFTR-Intron2-614 + CUAUGAAAGAAAAAAUAGAA 20 15714 CFTR-Intron2-615 +CAGAUGGGAAAGCCAAGGAA 20 15715 CFTR-Intron2-616 + CAAACAAACAAAAAACAUAA 2015716 CFTR-Intron2-617 + ACAUUUGUAUUCAAAUAUAA 20 15717 CFTR-Intron2-618− ACAAGUUCAAAAUAAUAUAA 20 15718 CFTR-Intron2-619 − UUGCCCAGGCUGGAGUGUAA20 15719 CFTR-Intron2-620 + CAAGACCAGCCUGGCCAACA 20 15720CFTR-Intron2-621 + UUUUUUAAAUUGAAUCAACA 20 15721 CFTR-Intron2-622 +UUAUAAGAAAAGAAGUAACA 20 15722 CFTR-Intron2-623 + UGGAUCAGAUGGGAAAGCCA 2015723 CFTR-Intron2-624 + CCCAACACUUUGGGAGGCCA 20 15724CFTR-Intron2-625 + CCCAGCAUUUUGGGAGGCCA 20 15725 CFTR-Intron2-626 −CUGGCUAAUUUUUGUAGAGA 20 15726 CFTR-Intron2-627 − CAUUUCUCCUUUGAUGGAGA 2015727 CFTR-Intron2-628 − UUUGUUGAAUGAAUCCAUGA 20 15728 CFTR-Intron2-629− CUAGAAUAGGGCCUGGCAUA 20 15729 CFTR-Intron2-630 + AACAAAAAUAAUAGAACGUA20 15730 CFTR-Intron2-631 − AUGUGAUACAUUUGUAUUUA 20 15731CFTR-Intron2-632 + UUUAUAAGAAAAGAAGUAAC 20 15732 CFTR-Intron2-633 −UGGCUAAUUUUUGUAGAGAC 20 15733 CFTR-Intron2-634 − UCCUGAGUAGCUGGGACUAC 2015734 CFTR-Intron2-635 − UCUCGAGUAGCUGGGUUUAC 20 15735CFTR-Intron2-636 + CAGGAGAAUCACUUGAACCC 20 15736 CFTR-Intron2-637 +ACUGAGAUUCGCUUGAACCC 20 15737 CFTR-Intron2-638 − AGAGUCUCGCUGUGUCACCC 2015738 CFTR-Intron2-639 − AGUGGCGUGAGCCACUGCCC 20 15739 CFTR-Intron2-640− AGAGUCUUGCUCUGUUGCCC 20 15740 CFTR-Intron2-641 + CUGAGAUUUGAAGACAAGCC20 15741 CFTR-Intron2-642 + UCAGGAGUUCAAGACCAGCC 20 15742CFTR-Intron2-643 + CACACCACUACACUCCAGCC 20 15743 CFTR-Intron2-644 +UGCACCAUUACACUCCAGCC 20 15744 CFTR-Intron2-645 + CUAAAAUACAAAAAUUAGCC 2015745 CFTR-Intron2-646 + CGUCUCUACAAAAAUUAGCC 20 15746 CFTR-Intron2-647− CAGGCAUGCACCACCAGGCC 20 15747 CFTR-Intron2-648 + CUACAAAAAUUAGCCAGGCC20 15748 CFTR-Intron2-649 + CUCUAAAGGAGUAAUAGGCC 20 15749CFTR-Intron2-650 − CAAGUGCCUAGAAUAGGGCC 20 15750 CFTR-Intron2-651 −CAGGCACUCGCCACAAUGCC 20 15751 CFTR-Intron2-652 − UUGAGUACCUGUUACAUGCC 2015752 CFTR-Intron2-653 + UUGAGUAUAUACCAUAUGCC 20 15753 CFTR-Intron2-654− UCACUGCAAACUCUGCCUCC 20 15754 CFTR-Intron2-655 − UCACUGCAAACUUCGUCUCC20 15755 CFTR-Intron2-656 − AUCUCAGUCUCCUGAGUAGC 20 15756CFTR-Intron2-657 + ACACUUUGGGAGGCCAAGGC 20 15757 CFTR-Intron2-658 −UCUCGCUGUGUCACCCAGGC 20 15758 CFTR-Intron2-659 − UCUUGCUCUGUUGCCCAGGC 2015759 CFTR-Intron2-660 − UUUUGCUAUGCUGGCCAGGC 20 15760 CFTR-Intron2-661− UUUCGCCAUGUUGGCCAGGC 20 15761 CFTR-Intron2-662 + ACUCUAAAGGAGUAAUAGGC20 15762 CFTR-Intron2-663 − ACCUUGGCCUCCCAAAAUGC 20 15763CFTR-Intron2-664 − UGGUGGCAUUUGCCUUAUGC 20 15764 CFTR-Intron2-665 +UCACCCUUUUAUCUGGCAUC 20 15765 CFTR-Intron2-666 + CCUUCACUCACCCUUUUAUC 2015766 CFTR-Intron2-667 + CGGGCAGAUCACUUGAGGUC 20 15767CFTR-Intron2-668 + UGGGCAGAUCACUUGAGGUC 20 15768 CFTR-Intron2-669 +CAUGGUGGAAACCAUACUUC 20 15769 CFTR-Intron2-670 + AAACCAAAUGUGUAUUUUUC 2015770 CFTR-Intron2-671 + AGAUGGGAAAGCCAAGGAAG 20 15771 CFTR-Intron2-672− AGAUAAAAGGGUGAGUGAAG 20 15772 CFTR-Intron2-673 + UGUAAACCCAGCUACUCGAG20 15773 CFTR-Intron2-674 + AUAUUCAAAGCUGGGCAUAG 20 15774CFTR-Intron2-675 − UCACCCAGGCUGGAGUGUAG 20 15775 CFTR-Intron2-676 −UCCCAAAGUGUUGGGAUUAG 20 15776 CFTR-Intron2-677 + ACAAAGGGCUCCUUCUUUCG 2015777 CFTR-Intron2-678 − CUCUGUGUGUGAGAGAAAGG 20 15778CFTR-Intron2-679 + AACACUUUGGGAGGCCAAGG 20 15779 CFTR-Intron2-680 +AGCAUUUUGGGAGGCCAAGG 20 15780 CFTR-Intron2-681 + UAAGAAAAGAAGUAACAGGG 2015781 CFTR-Intron2-682 − AGGUGGAGAAGCAUGUGGGG 20 15782CFTR-Intron2-683 + ACUAAUCCCAACACUUUGGG 20 15783 CFTR-Intron2-684 +UAUAAUCCCAGCAUUUUGGG 20 15784 CFTR-Intron2-685 + CAAAAAUUAGCCAGGCCUGG 2015785 CFTR-Intron2-686 + AUGAAAGAAAAAAUAGAAUG 20 15786 CFTR-Intron2-687− UGGUGUGUGCAAAUGCCAUG 20 15787 CFTR-Intron2-688 − UUUUUGUAUUUUAGUAGAUG20 15788 CFTR-Intron2-689 − UUUUACAGAAAAGCAAACUG 20 15789CFTR-Intron2-690 + CCCAGCUACUCGAGAGGCUG 20 15790 CFTR-Intron2-691 +CAAAAAUUAGCCAGGCAUUG 20 15791 CFTR-Intron2-692 + CAAGGCGGGCAGAUCACUUG 2015792 CFTR-Intron2-693 + CAAGGUGGGCAGAUCACUUG 20 15793 CFTR-Intron2-694− UACUUCUUUUCUUAUAAAAU 20 15794 CFTR-Intron2-695 + UUGUUGAAUUGAAGUAAAAU20 15795 CFTR-Intron2-696 + UAUGAAAGAAAAAAUAGAAU 20 15796CFTR-Intron2-697 − UAUCCCCAAGUGCCUAGAAU 20 15797 CFTR-Intron2-698 −UUGAAUAUCUAAGUUUUAAU 20 15798 CFTR-Intron2-699 + UUUUUAAAUUGAAUCAACAU 2015799 CFTR-Intron2-700 + UGUUUUCUUUUAAAUACUAU 20 15800 CFTR-Intron2-701− UCCCAAAAUGCUGGGAUUAU 20 15801 CFTR-Intron2-702 − UUUUGUUUUUUAUUUUUUAU20 15802 CFTR-Intron2-703 + CAGGCCCUAUUCUAGGCACU 20 15803CFTR-Intron2-704 − CUCAAGUGAUCUGCCCACCU 20 15804 CFTR-Intron2-705 −ACUUUGUACCUCUGCACCCU 20 15805 CFTR-Intron2-706 + ACACCACUACACUCCAGCCU 2015806 CFTR-Intron2-707 − CUCAAGUGAUCUGCCCGCCU 20 15807 CFTR-Intron2-708− CACUGCAAACUCUGCCUCCU 20 15808 CFTR-Intron2-709 − CACUGCAAACUUCGUCUCCU20 15809 CFTR-Intron2-710 − CCUCAGCCUCUCGAGUAGCU 20 15810CFTR-Intron2-711 − UCUCAGUCUCCUGAGUAGCU 20 15811 CFTR-Intron2-712 −CCUUGGCCUCCCAAAAUGCU 20 15812 CFTR-Intron2-713 + CAUAUGCCAGGCCCUAUUCU 2015813 CFTR-Intron2-714 + UUUACUUAAGCUAGUAAAUU 20 15814 CFTR-Intron2-715− UUUCCUGAAAAAUACACAUU 20 15815 CFTR-Intron2-716 − UUUGUUUUUUAUUUUUUAUU20 15816 CFTR-Intron2-717 + CGCCACUAAUCCCAACACUU 20 15817CFTR-Intron2-718 + AGGCCCUAUUCUAGGCACUU 20 15818 CFTR-Intron2-719 −CCUUGGCCUCCCAAAGUGUU 20 15819 CFTR-Intron2-720 + CACCUAUAAUCCCAGCAUUU 2015820 CFTR-Intron2-721 − UGAAAUUUAUUGAAAUAUUU 20 15821CFTR-Intron2-722 + ACCUAUAAUCCCAGCAUUUU 20 15822 CFTR-Intron2-723 −UUAAAUUCAUUUCCUUUUUU 20 15823

Table 38A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within intron 2, have a highlevel of orthogonality, start with a 5′G, and PAM is NNGRRT. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 38A 1st Tier DNA Target Site Seq gRNA Name Strand Targeting DomainLength ID CFTR-Intron2-724 + GUUAGCUAUGAAAGAAAAAA 20 15824CFTR-Intron2-725 + GUGUACAUAAACCAACAAA 19 15825 CFTR-Intron2-726 +GUGUGUACAUAAACCAACAAA 21 15826 CFTR-Intron2-727 + GGUGUGUACAUAAACCAACAAA22 15827 CFTR-Intron2-728 + GGGUGUGUACAUAAACCAACAAA 23 15828CFTR-Intron2-729 + GGGGUGUGUACAUAAACCAACAAA 24 15829 CFTR-Intron2-730 +GCCUUUUUUCUCUUCACAA 19 15830 CFTR-Intron2-731 + GAAAGCCUUUUUUCUCUUCACAA23 15831 CFTR-Intron2-732 + GGCUCUAAAUCACUCUAA 18 15832CFTR-Intron2-733 + GCAUUUGAGUCCUUGGUCCCA 21 15833 CFTR-Intron2-734 +GGCAUUUGAGUCCUUGGUCCCA 22 15834 CFTR-Intron2-735 +GUGGCAUUUGAGUCCUUGGUCCCA 24 15835 CFTR-Intron2-736 +GCCAUUACCUUAAGACUUCCCA 22 15836 CFTR-Intron2-737 + GUAGAGAGACCAGGAGAGCA20 15837 CFTR-Intron2-738 + GUCCUUAAAGAUAGGAGCA 19 15838CFTR-Intron2-739 + GGUCCUUAAAGAUAGGAGCA 20 15839 CFTR-Intron2-740 +GUGGUCCUUAAAGAUAGGAGCA 22 15840 CFTR-Intron2-741 + GAACUUGUCAAUAUACCUGCA21 15841 CFTR-Intron2-742 + GCACACUGCAGUUAUGUA 18 15842CFTR-Intron2-743 + GUUUGCACACUGCAGUUAUGUA 22 15843 CFTR-Intron2-744 +GGUUUGCACACUGCAGUUAUGUA 23 15844 CFTR-Intron2-745 + GGUCGGGGAAUUUCUUUA18 15845 CFTR-Intron2-746 + GCAAGGUCGGGGAAUUUCUUUA 22 15846CFTR-Intron2-747 + GGCAAGGUCGGGGAAUUUCUUUA 23 15847 CFTR-Intron2-748 +GCCACAAAUUGUUAGCACC 19 15848 CFTR-Intron2-749 + GUGCCACAAAUUGUUAGCACC 2115849 CFTR-Intron2-750 + GGUGCCACAAAUUGUUAGCACC 22 15850CFTR-Intron2-751 + GAAGCCAGGGUCACUUCCC 19 15851 CFTR-Intron2-752 +GUGAAGCCAGGGUCACUUCCC 21 15852 CFTR-Intron2-753 + GCAGUUAUGAAAUGUGAAGC20 15853 CFTR-Intron2-754 + GGCAGUUAUGAAAUGUGAAGC 21 15854CFTR-Intron2-755 + GCCUGGCAAUCUCUAAGC 18 15855 CFTR-Intron2-756 +GACAAGCCUGGCAAUCUCUAAGC 23 15856 CFTR-Intron2-757 + GGCAAUACAGACCUCAGC18 15857 CFTR-Intron2-758 + GCAAGGCAAUACAGACCUCAGC 22 15858CFTR-Intron2-759 + GAGCAAGGCAAUACAGACCUCAGC 24 15859 CFTR-Intron2-760 +GCCAUUUCACAUUCCAUC 18 15860 CFTR-Intron2-761 + GCUAGCCAUUUCACAUUCCAUC 2215861 CFTR-Intron2-762 + GGGUAAGCACUAUGACUC 18 15862 CFTR-Intron2-763 +GGGGUAAGCACUAUGACUC 19 15863 CFTR-Intron2-764 + GCACUAUGACUCAAGAGUCUC 2115864 CFTR-Intron2-765 + GAGGAGAAGGCAAGGUCG 18 15865 CFTR-Intron2-766 +GUUUGUACUGGCAUAGCAUUG 21 15866 CFTR-Intron2-767 + GGUUUGUACUGGCAUAGCAUUG22 15867 CFTR-Intron2-768 + GGGUUUGUACUGGCAUAGCAUUG 23 15868CFTR-Intron2-769 + GCAAAUGCCACCAGGUGGCAU 21 15869 CFTR-Intron2-770 +GGCAAAUGCCACCAGGUGGCAU 22 15870 CFTR-Intron2-771 + GAUAAUGAUGCUUUCCACU19 15871 CFTR-Intron2-772 + GCCUAGUUCAUUCUAGACU 19 15872CFTR-Intron2-773 + GCUACUCCCACUAGCUUAAUUCU 23 15873 CFTR-Intron2-774 +GCCCUUGAUCUUAGAAGU 18 15874 CFTR-Intron2-775 + GGCCCUUGAUCUUAGAAGU 1915875 CFTR-Intron2-776 + GCUGGCCCUUGAUCUUAGAAGU 22 15876CFTR-Intron2-777 − GACCAGCUUUCUACAUAAA 19 15877 CFTR-Intron2-778 −GGACCAGCUUUCUACAUAAA 20 15878 CFTR-Intron2-779 −GACCGGACCAGCUUUCUACAUAAA 24 15879 CFTR-Intron2-780 −GCACAGGCCUGAUGCCAGAUAA 22 15880 CFTR-Intron2-781 −GCUUUGAAUAUCUAAGUUUUAA 22 15881 CFTR-Intron2-782 −GAAAAAUACACAUUUGGUUUCA 22 15882 CFTR-Intron2-783 − GCUUAAGUAAAUAAAAGGA19 15883 CFTR-Intron2-784 − GCUCAAUUUUGUGACCAUGGA 21 15884CFTR-Intron2-785 − GGCUCAAUUUUGUGACCAUGGA 22 15885 CFTR-Intron2-786 −GUUUUAAUUGGAUGCUGA 18 15886 CFTR-Intron2-787 − GAAUGGUAGUCCCCCCCAUA 2015887 CFTR-Intron2-788 − GGAAUGGUAGUCCCCCCCAUA 21 15888 CFTR-Intron2-789− GACAAGUUCAAAAUAAUAUA 20 15889 CFTR-Intron2-790 − GCUCUCAUUAGCAAGCUUCUA21 15890 CFTR-Intron2-791 − GGCUCUCAUUAGCAAGCUUCUA 22 15891CFTR-Intron2-792 − GGGCUCUCAUUAGCAAGCUUCUA 23 15892 CFTR-Intron2-793 −GUUCAAAAUAAUAUAAUGGGUA 22 15893 CFTR-Intron2-794 − GAUAAUAUACUUUGCCAGUUA21 15894 CFTR-Intron2-795 − GAGAUAAUAUACUUUGCCAGUUA 23 15895CFTR-Intron2-796 − GUAUUUAUGGCCAGAUAGAGAAC 23 15896 CFTR-Intron2-797 −GAUGUAUCCCCAAGUGCC 18 15897 CFTR-Intron2-798 − GUUCCUAAAACUACAUUGCC 2015898 CFTR-Intron2-799 − GAAAAAUCCCAGAGACUC 18 15899 CFTR-Intron2-800 −GUGAAAAAUCCCAGAGACUC 20 15900 CFTR-Intron2-801 − GCCAGAUAAAAGGGUGAGUGAAG23 15901 CFTR-Intron2-802 − GUCUUAUUAGAGACCAUGAG 20 15902CFTR-Intron2-803 − GCCUGAUGCCAGAUAAAAGG 20 15903 CFTR-Intron2-804 −GUACCUGUUACAUGCCAGG 19 15904 CFTR-Intron2-805 − GAGUACCUGUUACAUGCCAGG 2115905 CFTR-Intron2-806 − GAAUGAUUAAUCAGAGUAGGG 21 15906 CFTR-Intron2-807− GGAAUGAUUAAUCAGAGUAGGG 22 15907 CFTR-Intron2-808 −GGGAAUGAUUAAUCAGAGUAGGG 23 15908 CFTR-Intron2-809 − GAACAUGAAUCUGAAUUUG19 15909 CFTR-Intron2-810 − GCCAGAUAGAGAACAUGAAU 20 15910CFTR-Intron2-811 − GAUGCUGAGGGAAUGAUUAAU 21 15911 CFTR-Intron2-812 −GGAUGCUGAGGGAAUGAUUAAU 22 15912 CFTR-Intron2-813 − GCUUUCAAAACCUUUAUAU19 15913 CFTR-Intron2-814 − GAAUAUCUCCUCUCAGCCACU 21 15914CFTR-Intron2-815 − GUAGAAUAUCUCCUCUCAGCCACU 24 15915 CFTR-Intron2-816 −GCUCCAUAUUUAGCUUCUUACU 22 15916 CFTR-Intron2-817 − GUCUGUAUUGCCUUGCUCUCU21 15917 CFTR-Intron2-818 − GGUCUGUAUUGCCUUGCUCUCU 22 15918CFTR-Intron2-819 − GAGGUCUGUAUUGCCUUGCUCUCU 24 15919 CFTR-Intron2-820 −GUUUCCUUUCCAAUCAAAAGGU 22 15920 CFTR-Intron2-821 − GCCCCGGCCUAUUACUCCUU20 15921 CFTR-Intron2-822 − GUCAGGAUAUGAACUUUUU 19 15922CFTR-Intron2-823 − GUAGUCAGGAUAUGAACUUUUU 22 15923

Table 38B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within intron 2, have a highlevel of orthogonality and PAM is NNGRRT. It is contemplated herein thatin an embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in theTable can be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 38B 2nd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-824 + UAGCUAUGAAAGAAAAAA 18 15924CFTR-Intron2-825 + UUAGCUAUGAAAGAAAAAA 19 15925 CFTR-Intron2-826 +UGUACAUAAACCAACAAA 18 15926 CFTR-Intron2-827 + UGUGUACAUAAACCAACAAA 2015927 CFTR-Intron2-828 + UUAUUUACUUAAGCUAGUAAA 21 15928CFTR-Intron2-829 + UUUAUUUACUUAAGCUAGUAAA 22 15929 CFTR-Intron2-830 +UUUUAUUUACUUAAGCUAGUAAA 23 15930 CFTR-Intron2-831 +CUUUUAUUUACUUAAGCUAGUAAA 24 15931 CFTR-Intron2-832 + CCUUUUUUCUCUUCACAA18 15932 CFTR-Intron2-233 + AGCCUUUUUUCUCUUCACAA 20 15333CFTR-Intron2-833 + AAGCCUUUUUUCUCUUCACAA 21 15933 CFTR-Intron2-834 +AAAGCCUUUUUUCUCUUCACAA 22 15934 CFTR-Intron2-835 +UGAAAGCCUUUUUUCUCUUCACAA 24 15935 CFTR-Intron2-836 +ACCUUCUCCAUCAAAGGAGAA 21 15936 CFTR-Intron2-837 + CACCUUCUCCAUCAAAGGAGAA22 15937 CFTR-Intron2-838 + UCACCUUCUCCAUCAAAGGAGAA 23 15938CFTR-Intron2-839 + CUCACCUUCUCCAUCAAAGGAGAA 24 15939 CFTR-Intron2-840 +UGGCUCUAAAUCACUCUAA 19 15940 CFTR-Intron2-250 + AUGGCUCUAAAUCACUCUAA 2015350 CFTR-Intron2-841 + CAUGGCUCUAAAUCACUCUAA 21 15941CFTR-Intron2-842 + ACAUGGCUCUAAAUCACUCUAA 22 15942 CFTR-Intron2-843 +AACAUGGCUCUAAAUCACUCUAA 23 15943 CFTR-Intron2-844 +AAACAUGGCUCUAAAUCACUCUAA 24 15944 CFTR-Intron2-845 + UAGACUAUGAGUGGCCCA18 15945 CFTR-Intron2-846 + CUAGACUAUGAGUGGCCCA 19 15946CFTR-Intron2-261 + UCUAGACUAUGAGUGGCCCA 20 15361 CFTR-Intron2-847 +UUCUAGACUAUGAGUGGCCCA 21 15947 CFTR-Intron2-848 + AUUCUAGACUAUGAGUGGCCCA22 15948 CFTR-Intron2-849 + CAUUCUAGACUAUGAGUGGCCCA 23 15949CFTR-Intron2-850 + UCAUUCUAGACUAUGAGUGGCCCA 24 15950 CFTR-Intron2-851 +UUUGAGUCCUUGGUCCCA 18 15951 CFTR-Intron2-852 + AUUUGAGUCCUUGGUCCCA 1915952 CFTR-Intron2-853 + CAUUUGAGUCCUUGGUCCCA 20 15953CFTR-Intron2-854 + UGGCAUUUGAGUCCUUGGUCCCA 23 15954 CFTR-Intron2-855 +UUACCUUAAGACUUCCCA 18 15955 CFTR-Intron2-856 + AUUACCUUAAGACUUCCCA 1915956 CFTR-Intron2-263 + CAUUACCUUAAGACUUCCCA 20 15363CFTR-Intron2-857 + CCAUUACCUUAAGACUUCCCA 21 15957 CFTR-Intron2-858 +AGCCAUUACCUUAAGACUUCCCA 23 15958 CFTR-Intron2-859 +UAGCCAUUACCUUAAGACUUCCCA 24 15959 CFTR-Intron2-860 + AGAGAGACCAGGAGAGCA18 15960 CFTR-Intron2-861 + UAGAGAGACCAGGAGAGCA 19 15961CFTR-Intron2-862 + UCCUUAAAGAUAGGAGCA 18 15962 CFTR-Intron2-863 +UGGUCCUUAAAGAUAGGAGCA 21 15963 CFTR-Intron2-864 +CGUGGUCCUUAAAGAUAGGAGCA 23 15964 CFTR-Intron2-865 +UCGUGGUCCUUAAAGAUAGGAGCA 24 15965 CFTR-Intron2-866 + CUUGUCAAUAUACCUGCA18 15966 CFTR-Intron2-867 + ACUUGUCAAUAUACCUGCA 19 15967CFTR-Intron2-868 + AACUUGUCAAUAUACCUGCA 20 15968 CFTR-Intron2-869 +UGAACUUGUCAAUAUACCUGCA 22 15969 CFTR-Intron2-870 +UUGAACUUGUCAAUAUACCUGCA 23 15970 CFTR-Intron2-871 +UUUGAACUUGUCAAUAUACCUGCA 24 15971 CFTR-Intron2-872 + AGAUGGGAAAGCCAAGGA18 15972 CFTR-Intron2-873 + CAGAUGGGAAAGCCAAGGA 19 15973CFTR-Intron2-280 + UCAGAUGGGAAAGCCAAGGA 20 15380 CFTR-Intron2-874 +CCUGACUACAAUCUUGGA 18 15974 CFTR-Intron2-875 + UCCUGACUACAAUCUUGGA 1915975 CFTR-Intron2-876 + AUCCUGACUACAAUCUUGGA 20 15976CFTR-Intron2-877 + UAUCCUGACUACAAUCUUGGA 21 15977 CFTR-Intron2-878 +AUAUCCUGACUACAAUCUUGGA 22 15978 CFTR-Intron2-879 +CAUAUCCUGACUACAAUCUUGGA 23 15979 CFTR-Intron2-880 +UCAUAUCCUGACUACAAUCUUGGA 24 15980 CFTR-Intron2-881 + UGCACACUGCAGUUAUGUA19 15981 CFTR-Intron2-882 + UUGCACACUGCAGUUAUGUA 20 15982CFTR-Intron2-883 + UUUGCACACUGCAGUUAUGUA 21 15983 CFTR-Intron2-884 +UGGUUUGCACACUGCAGUUAUGUA 24 15984 CFTR-Intron2-885 + AGGUCGGGGAAUUUCUUUA19 15985 CFTR-Intron2-886 + AAGGUCGGGGAAUUUCUUUA 20 15986CFTR-Intron2-887 + CAAGGUCGGGGAAUUUCUUUA 21 15987 CFTR-Intron2-888 +AGGCAAGGUCGGGGAAUUUCUUUA 24 15988 CFTR-Intron2-889 + CCACAAAUUGUUAGCACC18 15989 CFTR-Intron2-890 + UGCCACAAAUUGUUAGCACC 20 15990CFTR-Intron2-891 + UGGUGCCACAAAUUGUUAGCACC 23 15991 CFTR-Intron2-892 +UUGGUGCCACAAAUUGUUAGCACC 24 15992 CFTR-Intron2-893 + AAGCCAGGGUCACUUCCC18 15993 CFTR-Intron2-894 + UGAAGCCAGGGUCACUUCCC 20 15994CFTR-Intron2-895 + UGUGAAGCCAGGGUCACUUCCC 22 15995 CFTR-Intron2-896 +AUGUGAAGCCAGGGUCACUUCCC 23 15996 CFTR-Intron2-897 +AAUGUGAAGCCAGGGUCACUUCCC 24 15997 CFTR-Intron2-898 + AGUUAUGAAAUGUGAAGC18 15998 CFTR-Intron2-899 + CAGUUAUGAAAUGUGAAGC 19 15999CFTR-Intron2-900 + AGGCAGUUAUGAAAUGUGAAGC 22 16000 CFTR-Intron2-901 +AAGGCAGUUAUGAAAUGUGAAGC 23 16001 CFTR-Intron2-902 +CAAGGCAGUUAUGAAAUGUGAAGC 24 16002 CFTR-Intron2-903 + AGCCUGGCAAUCUCUAAGC19 16003 CFTR-Intron2-904 + AAGCCUGGCAAUCUCUAAGC 20 16004CFTR-Intron2-905 + CAAGCCUGGCAAUCUCUAAGC 21 16005 CFTR-Intron2-906 +ACAAGCCUGGCAAUCUCUAAGC 22 16006 CFTR-Intron2-907 +AGACAAGCCUGGCAAUCUCUAAGC 24 16007 CFTR-Intron2-908 + AGGCAAUACAGACCUCAGC19 16008 CFTR-Intron2-322 + AAGGCAAUACAGACCUCAGC 20 15422CFTR-Intron2-909 + CAAGGCAAUACAGACCUCAGC 21 16009 CFTR-Intron2-910 +AGCAAGGCAAUACAGACCUCAGC 23 16010 CFTR-Intron2-911 + AGCCAUUUCACAUUCCAUC19 16011 CFTR-Intron2-912 + UAGCCAUUUCACAUUCCAUC 20 16012CFTR-Intron2-913 + CUAGCCAUUUCACAUUCCAUC 21 16013 CFTR-Intron2-914 +UGCUAGCCAUUUCACAUUCCAUC 23 16014 CFTR-Intron2-915 +AUGCUAGCCAUUUCACAUUCCAUC 24 16015 CFTR-Intron2-916 +AGGGGUAAGCACUAUGACUC 20 16016 CFTR-Intron2-917 + AAGGGGUAAGCACUAUGACUC21 16017 CFTR-Intron2-918 + CAAGGGGUAAGCACUAUGACUC 22 16018CFTR-Intron2-919 + CCAAGGGGUAAGCACUAUGACUC 23 16019 CFTR-Intron2-920 +CCCAAGGGGUAAGCACUAUGACUC 24 16020 CFTR-Intron2-921 + CUAUGACUCAAGAGUCUC18 16021 CFTR-Intron2-922 + ACUAUGACUCAAGAGUCUC 19 16022CFTR-Intron2-331 + CACUAUGACUCAAGAGUCUC 20 15431 CFTR-Intron2-923 +AGCACUAUGACUCAAGAGUCUC 22 16023 CFTR-Intron2-924 +AAGCACUAUGACUCAAGAGUCUC 23 16024 CFTR-Intron2-925 +UAAGCACUAUGACUCAAGAGUCUC 24 16025 CFTR-Intron2-926 + UGAGGAGAAGGCAAGGUCG19 16026 CFTR-Intron2-349 + CUGAGGAGAAGGCAAGGUCG 20 15449CFTR-Intron2-927 + UUAAAUUGAAUCAACAUG 18 16027 CFTR-Intron2-928 +UUUAAAUUGAAUCAACAUG 19 16028 CFTR-Intron2-358 + UUUUAAAUUGAAUCAACAUG 2015458 CFTR-Intron2-929 + UGUACUGGCAUAGCAUUG 18 16029 CFTR-Intron2-930 +UUGUACUGGCAUAGCAUUG 19 16030 CFTR-Intron2-931 + UUUGUACUGGCAUAGCAUUG 2016031 CFTR-Intron2-932 + UGGGUUUGUACUGGCAUAGCAUUG 24 16032CFTR-Intron2-933 + AGGCAAAUGCCACCAGGUGGCAU 23 16033 CFTR-Intron2-934 +AAGGCAAAUGCCACCAGGUGGCAU 24 16034 CFTR-Intron2-935 + AUAAUGAUGCUUUCCACU18 16035 CFTR-Intron2-936 + AGAUAAUGAUGCUUUCCACU 20 16036CFTR-Intron2-937 + CCUAGUUCAUUCUAGACU 18 16037 CFTR-Intron2-938 +AGCCUAGUUCAUUCUAGACU 20 16038 CFTR-Intron2-939 + CAGCCUAGUUCAUUCUAGACU21 16039 CFTR-Intron2-940 + UCAGCCUAGUUCAUUCUAGACU 22 16040CFTR-Intron2-941 + CUCAGCCUAGUUCAUUCUAGACU 23 16041 CFTR-Intron2-942 +ACUCAGCCUAGUUCAUUCUAGACU 24 16042 CFTR-Intron2-943 + CCAUAACAUUUGGUUACU18 16043 CFTR-Intron2-944 + UCCAUAACAUUUGGUUACU 19 16044CFTR-Intron2-945 + AUCCAUAACAUUUGGUUACU 20 16045 CFTR-Intron2-946 +CAUCCAUAACAUUUGGUUACU 21 16046 CFTR-Intron2-947 + CCAUCCAUAACAUUUGGUUACU22 16047 CFTR-Intron2-948 + CCCAUCCAUAACAUUUGGUUACU 23 16048CFTR-Intron2-949 + UCCCAUCCAUAACAUUUGGUUACU 24 16049 CFTR-Intron2-950 +UCCCACUAGCUUAAUUCU 18 16050 CFTR-Intron2-951 + CUCCCACUAGCUUAAUUCU 1916051 CFTR-Intron2-952 + ACUCCCACUAGCUUAAUUCU 20 16052CFTR-Intron2-953 + UACUCCCACUAGCUUAAUUCU 21 16053 CFTR-Intron2-954 +CUACUCCCACUAGCUUAAUUCU 22 16054 CFTR-Intron2-955 +UGCUACUCCCACUAGCUUAAUUCU 24 16055 CFTR-Intron2-956 +UGGCCCUUGAUCUUAGAAGU 20 16056 CFTR-Intron2-957 + CUGGCCCUUGAUCUUAGAAGU21 16057 CFTR-Intron2-958 + AGCUGGCCCUUGAUCUUAGAAGU 23 16058CFTR-Intron2-959 + AAGCUGGCCCUUGAUCUUAGAAGU 24 16059 CFTR-Intron2-960 −ACCAGCUUUCUACAUAAA 18 16060 CFTR-Intron2-961 − CGGACCAGCUUUCUACAUAAA 2116061 CFTR-Intron2-962 − CCGGACCAGCUUUCUACAUAAA 22 16062CFTR-Intron2-963 − ACCGGACCAGCUUUCUACAUAAA 23 16063 CFTR-Intron2-964 −AGGCCUGAUGCCAGAUAA 18 16064 CFTR-Intron2-965 − CAGGCCUGAUGCCAGAUAA 1916065 CFTR-Intron2-966 − ACAGGCCUGAUGCCAGAUAA 20 16066 CFTR-Intron2-967− CACAGGCCUGAUGCCAGAUAA 21 16067 CFTR-Intron2-968 −AGCACAGGCCUGAUGCCAGAUAA 23 16068 CFTR-Intron2-969 −CAGCACAGGCCUGAUGCCAGAUAA 24 16069 CFTR-Intron2-970 −CUUUGAAUAUCUAAGUUUUAA 21 16070 CFTR-Intron2-971 −AGCUUUGAAUAUCUAAGUUUUAA 23 16071 CFTR-Intron2-972 −CAGCUUUGAAUAUCUAAGUUUUAA 24 16072 CFTR-Intron2-973 − UGCACCAAAGUAAAAACA18 16073 CFTR-Intron2-974 − UUGCACCAAAGUAAAAACA 19 16074CFTR-Intron2-975 − AUUGCACCAAAGUAAAAACA 20 16075 CFTR-Intron2-976 −UAUUGCACCAAAGUAAAAACA 21 16076 CFTR-Intron2-977 − UUAUUGCACCAAAGUAAAAACA22 16077 CFTR-Intron2-978 − AUUAUUGCACCAAAGUAAAAACA 23 16078CFTR-Intron2-979 − AAUUAUUGCACCAAAGUAAAAACA 24 16079 CFTR-Intron2-980 −AAAAAUACACAUUUGGUUUCA 21 16080 CFTR-Intron2-981 −UGAAAAAUACACAUUUGGUUUCA 23 16081 CFTR-Intron2-982 −CUGAAAAAUACACAUUUGGUUUCA 24 16082 CFTR-Intron2-983 − CUUAAGUAAAUAAAAGGA18 16083 CFTR-Intron2-984 − AGCUUAAGUAAAUAAAAGGA 20 16084CFTR-Intron2-985 − CAAUUUUGUGACCAUGGA 18 16085 CFTR-Intron2-986 −UCAAUUUUGUGACCAUGGA 19 16086 CFTR-Intron2-987 − CUCAAUUUUGUGACCAUGGA 2016087 CFTR-Intron2-988 − UGGCUCAAUUUUGUGACCAUGGA 23 16088CFTR-Intron2-989 − CUGGCUCAAUUUUGUGACCAUGGA 24 16089 CFTR-Intron2-990 −AGUUUUAAUUGGAUGCUGA 19 16090 CFTR-Intron2-282 − AAGUUUUAAUUGGAUGCUGA 2015382 CFTR-Intron2-991 − UAAGUUUUAAUUGGAUGCUGA 21 16091 CFTR-Intron2-992− CUAAGUUUUAAUUGGAUGCUGA 22 16092 CFTR-Intron2-993 −UCUAAGUUUUAAUUGGAUGCUGA 23 16093 CFTR-Intron2-994 −AUCUAAGUUUUAAUUGGAUGCUGA 24 16094 CFTR-Intron2-995 − AUGGUAGUCCCCCCCAUA18 16095 CFTR-Intron2-996 − AAUGGUAGUCCCCCCCAUA 19 16096CFTR-Intron2-997 − AGGAAUGGUAGUCCCCCCCAUA 22 16097 CFTR-Intron2-998 −UAGGAAUGGUAGUCCCCCCCAUA 23 16098 CFTR-Intron2-999 −CUAGGAAUGGUAGUCCCCCCCAUA 24 16099 CFTR-Intron2-1000 − CAAGUUCAAAAUAAUAUA18 16100 CFTR-Intron2-1001 − ACAAGUUCAAAAUAAUAUA 19 16101CFTR-Intron2-1002 − UGACAAGUUCAAAAUAAUAUA 21 16102 CFTR-Intron2-1003 −UUGACAAGUUCAAAAUAAUAUA 22 16103 CFTR-Intron2-1004 −AUUGACAAGUUCAAAAUAAUAUA 23 16104 CFTR-Intron2-1005 −UAUUGACAAGUUCAAAAUAAUAUA 24 16105 CFTR-Intron2-1006 − CUCAUUAGCAAGCUUCUA18 16106 CFTR-Intron2-1007 − UCUCAUUAGCAAGCUUCUA 19 16107CFTR-Intron2-290 − CUCUCAUUAGCAAGCUUCUA 20 15390 CFTR-Intron2-1008 −AGGGCUCUCAUUAGCAAGCUUCUA 24 16108 CFTR-Intron2-1009 − AAAAUAAUAUAAUGGGUA18 16109 CFTR-Intron2-1010 − CAAAAUAAUAUAAUGGGUA 19 16110CFTR-Intron2-1011 − UCAAAAUAAUAUAAUGGGUA 20 16111 CFTR-Intron2-1012 −UUCAAAAUAAUAUAAUGGGUA 21 16112 CFTR-Intron2-1013 −AGUUCAAAAUAAUAUAAUGGGUA 23 16113 CFTR-Intron2-1014 −AAGUUCAAAAUAAUAUAAUGGGUA 24 16114 CFTR-Intron2-1015 − AAUAUACUUUGCCAGUUA18 16115 CFTR-Intron2-1016 − UAAUAUACUUUGCCAGUUA 19 16116CFTR-Intron2-1017 − AUAAUAUACUUUGCCAGUUA 20 16117 CFTR-Intron2-1018 −AGAUAAUAUACUUUGCCAGUUA 22 16118 CFTR-Intron2-1019 −AGAGAUAAUAUACUUUGCCAGUUA 24 16119 CFTR-Intron2-1020 − UAUGGCCAGAUAGAGAAC18 16120 CFTR-Intron2-1021 − UUAUGGCCAGAUAGAGAAC 19 16121CFTR-Intron2-1022 − UUUAUGGCCAGAUAGAGAAC 20 16122 CFTR-Intron2-1023 −AUUUAUGGCCAGAUAGAGAAC 21 16123 CFTR-Intron2-1024 −UAUUUAUGGCCAGAUAGAGAAC 22 16124 CFTR-Intron2-1025 −UGUAUUUAUGGCCAGAUAGAGAAC 24 16125 CFTR-Intron2-1026 − UGGCUCAAUUUUGUGACC18 16126 CFTR-Intron2-1027 − CUGGCUCAAUUUUGUGACC 19 16127CFTR-Intron2-1028 − UCUGGCUCAAUUUUGUGACC 20 16128 CFTR-Intron2-1029 −AUCUGGCUCAAUUUUGUGACC 21 16129 CFTR-Intron2-1030 −UAUCUGGCUCAAUUUUGUGACC 22 16130 CFTR-Intron2-1031 −CUAUCUGGCUCAAUUUUGUGACC 23 16131 CFTR-Intron2-1032 −CCUAUCUGGCUCAAUUUUGUGACC 24 16132 CFTR-Intron2-1033 −UGAUGUAUCCCCAAGUGCC 19 16133 CFTR-Intron2-1034 − AUGAUGUAUCCCCAAGUGCC 2016134 CFTR-Intron2-1035 − UCCUAAAACUACAUUGCC 18 16135 CFTR-Intron2-1036− UUCCUAAAACUACAUUGCC 19 16136 CFTR-Intron2-1037 − UGUUCCUAAAACUACAUUGCC21 16137 CFTR-Intron2-1038 − AUGUUCCUAAAACUACAUUGCC 22 16138CFTR-Intron2-1039 − CAUGUUCCUAAAACUACAUUGCC 23 16139 CFTR-Intron2-1040 −CCAUGUUCCUAAAACUACAUUGCC 24 16140 CFTR-Intron2-1041 −UGAAAAAUCCCAGAGACUC 19 16141 CFTR-Intron2-1042 − UGUGAAAAAUCCCAGAGACUC21 16142 CFTR-Intron2-1043 − AUGUGAAAAAUCCCAGAGACUC 22 16143CFTR-Intron2-1044 − AAUGUGAAAAAUCCCAGAGACUC 23 16144 CFTR-Intron2-1045 −AAAUGUGAAAAAUCCCAGAGACUC 24 16145 CFTR-Intron2-1046 − CUUGGGCCACUCAUAGUC18 16146 CFTR-Intron2-1047 − CCUUGGGCCACUCAUAGUC 19 16147CFTR-Intron2-1048 − CCCUUGGGCCACUCAUAGUC 20 16148 CFTR-Intron2-1049 −CCCCUUGGGCCACUCAUAGUC 21 16149 CFTR-Intron2-1050 −ACCCCUUGGGCCACUCAUAGUC 22 16150 CFTR-Intron2-1051 −UACCCCUUGGGCCACUCAUAGUC 23 16151 CFTR-Intron2-1052 −UUACCCCUUGGGCCACUCAUAGUC 24 16152 CFTR-Intron2-1053 −AUUUCUCCUUUGAUGGAGAAG 21 16153 CFTR-Intron2-1054 −CAUUUCUCCUUUGAUGGAGAAG 22 16154 CFTR-Intron2-1055 −CCAUUUCUCCUUUGAUGGAGAAG 23 16155 CFTR-Intron2-1056 −UCCAUUUCUCCUUUGAUGGAGAAG 24 16156 CFTR-Intron2-1057 −CAGAUAAAAGGGUGAGUGAAG 21 16157 CFTR-Intron2-1058 −CCAGAUAAAAGGGUGAGUGAAG 22 16158 CFTR-Intron2-1059 −UGCCAGAUAAAAGGGUGAGUGAAG 24 16159 CFTR-Intron2-1060 − CUUAUUAGAGACCAUGAG18 16160 CFTR-Intron2-1061 − UCUUAUUAGAGACCAUGAG 19 16161CFTR-Intron2-1062 − UGUCUUAUUAGAGACCAUGAG 21 16162 CFTR-Intron2-1063 −UUGUCUUAUUAGAGACCAUGAG 22 16163 CFTR-Intron2-1064 −UUUGUCUUAUUAGAGACCAUGAG 23 16164 CFTR-Intron2-1065 −AUUUGUCUUAUUAGAGACCAUGAG 24 16165 CFTR-Intron2-1066 − CUGAUGCCAGAUAAAAGG18 16166 CFTR-Intron2-1067 − CCUGAUGCCAGAUAAAAGG 19 16167CFTR-Intron2-1068 − UACCUGUUACAUGCCAGG 18 16168 CFTR-Intron2-1069 −AGUACCUGUUACAUGCCAGG 20 16169 CFTR-Intron2-1070 − UGAGUACCUGUUACAUGCCAGG22 16170 CFTR-Intron2-1071 − UUGAGUACCUGUUACAUGCCAGG 23 16171CFTR-Intron2-1072 − UUUGAGUACCUGUUACAUGCCAGG 24 16172 CFTR-Intron2-1073− AGUCUAGAAUGAACUAGG 18 16173 CFTR-Intron2-1074 − UAGUCUAGAAUGAACUAGG 1916174 CFTR-Intron2-1075 − AUAGUCUAGAAUGAACUAGG 20 16175CFTR-Intron2-1076 − CAUAGUCUAGAAUGAACUAGG 21 16176 CFTR-Intron2-1077 −UCAUAGUCUAGAAUGAACUAGG 22 16177 CFTR-Intron2-1078 −CUCAUAGUCUAGAAUGAACUAGG 23 16178 CFTR-Intron2-1079 −ACUCAUAGUCUAGAAUGAACUAGG 24 16179 CFTR-Intron2-1080 − UGAUUAAUCAGAGUAGGG18 16180 CFTR-Intron2-1081 − AUGAUUAAUCAGAGUAGGG 19 16181CFTR-Intron2-1082 − AAUGAUUAAUCAGAGUAGGG 20 16182 CFTR-Intron2-1083 −AGGGAAUGAUUAAUCAGAGUAGGG 24 16183 CFTR-Intron2-1084 − UUUAUUGAAAUAUUUUGG18 16184 CFTR-Intron2-1085 − AUUUAUUGAAAUAUUUUGG 19 16185CFTR-Intron2-1086 − AAUUUAUUGAAAUAUUUUGG 20 16186 CFTR-Intron2-1087 −AACAUGAAUCUGAAUUUG 18 16187 CFTR-Intron2-1088 − AGAACAUGAAUCUGAAUUUG 2016188 CFTR-Intron2-1089 − CAGAUAGAGAACAUGAAU 18 16189 CFTR-Intron2-1090− CCAGAUAGAGAACAUGAAU 19 16190 CFTR-Intron2-1091 − UGGUAACUUGACAGUAAU 1816191 CFTR-Intron2-1092 − AUGGUAACUUGACAGUAAU 19 16192 CFTR-Intron2-373− UAUGGUAACUUGACAGUAAU 20 15473 CFTR-Intron2-1093 −UUAUGGUAACUUGACAGUAAU 21 16193 CFTR-Intron2-1094 −CUUAUGGUAACUUGACAGUAAU 22 16194 CFTR-Intron2-1095 −ACUUAUGGUAACUUGACAGUAAU 23 16195 CFTR-Intron2-1096 −UACUUAUGGUAACUUGACAGUAAU 24 16196 CFTR-Intron2-1097 −UGGAUGCUGAGGGAAUGAUUAAU 23 16197 CFTR-Intron2-1098 −UUGGAUGCUGAGGGAAUGAUUAAU 24 16198 CFTR-Intron2-1099 − CUUUCAAAACCUUUAUAU18 16199 CFTR-Intron2-1100 − UGCUUUCAAAACCUUUAUAU 20 16200CFTR-Intron2-1101 − UAUCUCCUCUCAGCCACU 18 16201 CFTR-Intron2-1102 −AUAUCUCCUCUCAGCCACU 19 16202 CFTR-Intron2-1103 − AAUAUCUCCUCUCAGCCACU 2016203 CFTR-Intron2-1104 − AGAAUAUCUCCUCUCAGCCACU 22 16204CFTR-Intron2-1105 − UAGAAUAUCUCCUCUCAGCCACU 23 16205 CFTR-Intron2-1106 −CAUAUUUAGCUUCUUACU 18 16206 CFTR-Intron2-1107 − CCAUAUUUAGCUUCUUACU 1916207 CFTR-Intron2-1108 − UCCAUAUUUAGCUUCUUACU 20 16208CFTR-Intron2-1109 − CUCCAUAUUUAGCUUCUUACU 21 16209 CFTR-Intron2-1110 −UGCUCCAUAUUUAGCUUCUUACU 23 16210 CFTR-Intron2-1111 −CUGCUCCAUAUUUAGCUUCUUACU 24 16211 CFTR-Intron2-1112 − UGUAUUGCCUUGCUCUCU18 16212 CFTR-Intron2-1113 − CUGUAUUGCCUUGCUCUCU 19 16213CFTR-Intron2-399 − UCUGUAUUGCCUUGCUCUCU 20 15499 CFTR-Intron2-1114 −AGGUCUGUAUUGCCUUGCUCUCU 23 16214 CFTR-Intron2-1115 − UCAAAGAAUUAAGCUAGU18 16215 CFTR-Intron2-1116 − UUCAAAGAAUUAAGCUAGU 19 16216CFTR-Intron2-404 − AUUCAAAGAAUUAAGCUAGU 20 15504 CFTR-Intron2-1117 −UAUUCAAAGAAUUAAGCUAGU 21 16217 CFTR-Intron2-1118 −UUAUUCAAAGAAUUAAGCUAGU 22 16218 CFTR-Intron2-1119 −UUUAUUCAAAGAAUUAAGCUAGU 23 16219 CFTR-Intron2-1120 −UUUUAUUCAAAGAAUUAAGCUAGU 24 16220 CFTR-Intron2-1121 − CCGUUCCAAGAUUGUAGU18 16221 CFTR-Intron2-1122 − UCCGUUCCAAGAUUGUAGU 19 16222CFTR-Intron2-1123 − AUCCGUUCCAAGAUUGUAGU 20 16223 CFTR-Intron2-1124 −CAUCCGUUCCAAGAUUGUAGU 21 16224 CFTR-Intron2-1125 −ACAUCCGUUCCAAGAUUGUAGU 22 16225 CFTR-Intron2-1126 −CACAUCCGUUCCAAGAUUGUAGU 23 16226 CFTR-Intron2-1127 −ACACAUCCGUUCCAAGAUUGUAGU 24 16227 CFTR-Intron2-1128 − CCUUUCCAAUCAAAAGGU18 16228 CFTR-Intron2-1129 − UCCUUUCCAAUCAAAAGGU 19 16229CFTR-Intron2-1130 − UUCCUUUCCAAUCAAAAGGU 20 16230 CFTR-Intron2-1131 −UUUCCUUUCCAAUCAAAAGGU 21 16231 CFTR-Intron2-1132 −AGUUUCCUUUCCAAUCAAAAGGU 23 16232 CFTR-Intron2-1133 −CAGUUUCCUUUCCAAUCAAAAGGU 24 16233 CFTR-Intron2-1134 − CCCGGCCUAUUACUCCUU18 16234 CFTR-Intron2-1135 − CCCCGGCCUAUUACUCCUU 19 16235CFTR-Intron2-1136 − UGCCCCGGCCUAUUACUCCUU 21 16236 CFTR-Intron2-1137 −CUGCCCCGGCCUAUUACUCCUU 22 16237 CFTR-Intron2-1138 −ACUGCCCCGGCCUAUUACUCCUU 23 16238 CFTR-Intron2-1139 −CACUGCCCCGGCCUAUUACUCCUU 24 16239 CFTR-Intron2-1140 − UCUGAGUAACCAAAUGUU18 16240 CFTR-Intron2-1141 − CUCUGAGUAACCAAAUGUU 19 16241CFTR-Intron2-1142 − ACUCUGAGUAACCAAAUGUU 20 16242 CFTR-Intron2-1143 −UACUCUGAGUAACCAAAUGUU 21 16243 CFTR-Intron2-1144 −UUACUCUGAGUAACCAAAUGUU 22 16244 CFTR-Intron2-1145 −CUUACUCUGAGUAACCAAAUGUU 23 16245 CFTR-Intron2-1146 −UCUUACUCUGAGUAACCAAAUGUU 24 16246 CFTR-Intron2-1147 − UCAGGAUAUGAACUUUUU18 16247 CFTR-Intron2-1148 − AGUCAGGAUAUGAACUUUUU 20 16248CFTR-Intron2-1149 − UAGUCAGGAUAUGAACUUUUU 21 16249 CFTR-Intron2-1150 −UGUAGUCAGGAUAUGAACUUUUU 23 16250 CFTR-Intron2-1151 −UUGUAGUCAGGAUAUGAACUUUUU 24 16251

Table 38C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within intron 2, start witha 5′G and PAM is NNGRRT. It is contemplated herein that in an embodimentthe targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 38C 3rd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-1152 + GAAUGUUAGCUAUGAAAGAAAAAA 24 16252CFTR-Intron2-1153 + GUAAAAUAGGUAUAUUUUUUAAA 23 16253 CFTR-Intron2-1154 +GUUUCUGUCACUGGCAAUCAA 21 16254 CFTR-Intron2-1155 +GGUUUCUGUCACUGGCAAUCAA 22 16255 CFTR-Intron2-1156 +GGGUUUCUGUCACUGGCAAUCAA 23 16256 CFTR-Intron2-1157 +GCUAUGAAAGAAAAAAUAGAA 21 16257 CFTR-Intron2-1158 +GAAGUAGAGAGACCAGGAGAGCA 23 16258 CFTR-Intron2-1159 +GAUCAGAUGGGAAAGCCAAGGA 22 16259 CFTR-Intron2-1160 +GGAUCAGAUGGGAAAGCCAAGGA 23 16260 CFTR-Intron2-1161 +GAUUCAUUCAACAAAUAUUUA 21 16261 CFTR-Intron2-1162 +GGAUUCAUUCAACAAAUAUUUA 22 16262 CFTR-Intron2-1163 +GAUCACACCACUACACUCCAGC 22 16263 CFTR-Intron2-1164 +GAGAUCACACCACUACACUCCAGC 24 16264 CFTR-Intron2-1165 + GGCAGAUCACUUGAGGUC18 16265 CFTR-Intron2-1166 + GGGCAGAUCACUUGAGGUC 19 16266CFTR-Intron2-1167 + GCGGGCAGAUCACUUGAGGUC 21 16267 CFTR-Intron2-1168 +GGCGGGCAGAUCACUUGAGGUC 22 16268 CFTR-Intron2-1169 +GUGGGCAGAUCACUUGAGGUC 21 16269 CFTR-Intron2-1170 +GGUGGGCAGAUCACUUGAGGUC 22 16270 CFTR-Intron2-1171 +GCUACUCGAGAGGCUGAGGCAG 22 16271 CFTR-Intron2-1172 +GAUUCGCUUGAACCCAGGAGG 21 16272 CFTR-Intron2-1173 +GAGAUUCGCUUGAACCCAGGAGG 23 16273 CFTR-Intron2-1174 +GAGAUAAUGAUGCUUUCCACU 21 16274 CFTR-Intron2-1175 + GCCCUAUUCUAGGCACUU 1816275 CFTR-Intron2-1176 + GGCCCUAUUCUAGGCACUU 19 16276CFTR-Intron2-1177 + GCCAGGCCCUAUUCUAGGCACUU 23 16277 CFTR-Intron2-1178 −GCAAACUCUGCCUCCUGGGUUCAA 24 16278 CFTR-Intron2-1179 − GGCUAAUUUUUGUAGAGA18 16279 CFTR-Intron2-1180 − GCCUGGCUAAUUUUUGUAGAGA 22 16280CFTR-Intron2-1181 − GGCCUGGCUAAUUUUUGUAGAGA 23 16281 CFTR-Intron2-1182 −GUUGCUGUUGUUUUUGAGA 19 16282 CFTR-Intron2-1183 − GUUGUUGCUGUUGUUUUUGAGA22 16283 CFTR-Intron2-1184 − GUGUUGUUUGUUUUUGAGA 19 16284CFTR-Intron2-1185 − GUUUGUGUUGUUUGUUUUUGAGA 23 16285 CFTR-Intron2-1186 −GUUUUGUUUUUUAUUUUUUA 20 16286 CFTR-Intron2-1187 −GUUUAUGAUGUAUCCCCAAGUGCC 24 16287 CFTR-Intron2-1188 −GUCUCGCUGUGUCACCCAGGC 21 16288 CFTR-Intron2-1189 −GAGUCUCGCUGUGUCACCCAGGC 23 16289 CFTR-Intron2-1190 −GUCUUGCUCUGUUGCCCAGGC 21 16290 CFTR-Intron2-1191 −GAGUCUUGCUCUGUUGCCCAGGC 23 16291 CFTR-Intron2-1192 −GCCCACCUUGGCCUCCCAAAAUGC 24 16292 CFTR-Intron2-1193 −GAUUCUCCUGCCUCAGCCUC 20 16293 CFTR-Intron2-1194 − GUGAUUCUCCUGCCUCAGCCUC22 16294 CFTR-Intron2-1195 − GCUCACUGCAAACUCUGCCUC 21 16295CFTR-Intron2-1196 − GUUCAAGCGAAUCUCAGUCUC 21 16296 CFTR-Intron2-1197 −GGUUCAAGCGAAUCUCAGUCUC 22 16297 CFTR-Intron2-1198 −GGGUUCAAGCGAAUCUCAGUCUC 23 16298 CFTR-Intron2-1199 −GCUCACUGCAAACUUCGUCUC 21 16299 CFTR-Intron2-1200 −GGCUCACUGCAAACUUCGUCUC 22 16300 CFTR-Intron2-1201 − GAUAAAAGGGUGAGUGAAG19 16301 CFTR-Intron2-1202 − GCCUCAGCCUCUCGAGUAG 19 16302CFTR-Intron2-1203 − GGCCUGAUGCCAGAUAAAAGG 21 16303 CFTR-Intron2-1204 −GAAAUUUAUUGAAAUAUUUUGG 22 16304 CFTR-Intron2-1205 −GAGAACAUGAAUCUGAAUUUG 21 16305 CFTR-Intron2-1206 −GUAUAUACUCAAUAAAUAUUUG 22 16306 CFTR-Intron2-1207 −GGUAUAUACUCAAUAAAUAUUUG 23 16307 CFTR-Intron2-1208 −GGCCAGAUAGAGAACAUGAAU 21 16308 CFTR-Intron2-1209 − GCUGAGGGAAUGAUUAAU 1816309 CFTR-Intron2-1210 − GAGCCACUAUGCCCAGCU 18 16310 CFTR-Intron2-1211− GUGAGCCACUAUGCCCAGCU 20 16311 CFTR-Intron2-1212 −GUGUGAGCCACUAUGCCCAGCU 22 16312 CFTR-Intron2-1213 −GGUGUGAGCCACUAUGCCCAGCU 23 16313 CFTR-Intron2-1214 − GUGCAAAUGCCAUGAGGU18 16314 CFTR-Intron2-472 − GUGUGCAAAUGCCAUGAGGU 20 15572CFTR-Intron2-1215 − GUGUGUGCAAAUGCCAUGAGGU 22 16315 CFTR-Intron2-1216 −GGUGUGUGCAAAUGCCAUGAGGU 23 16316 CFTR-Intron2-474 − GCCUUGGCCUCCCAAAGUGU20 15574 CFTR-Intron2-1217 − GCCCGCCUUGGCCUCCCAAAGUGU 24 16317

Table 38D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within intron 2, and PAM isNNGRRT. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 38D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-1218 + UGUUAGCUAUGAAAGAAAAAA 21 16318CFTR-Intron2-1219 + AUGUUAGCUAUGAAAGAAAAAA 22 16319 CFTR-Intron2-1220 +AAUGUUAGCUAUGAAAGAAAAAA 23 16320 CFTR-Intron2-1221 + UUUACUUAAGCUAGUAAA18 16321 CFTR-Intron2-1222 + AUUUACUUAAGCUAGUAAA 19 16322CFTR-Intron2-1223 + UAUUUACUUAAGCUAGUAAA 20 16323 CFTR-Intron2-1224 +AUAGGUAUAUUUUUUAAA 18 16324 CFTR-Intron2-1225 + AAUAGGUAUAUUUUUUAAA 1916325 CFTR-Intron2-1226 + AAAUAGGUAUAUUUUUUAAA 20 16326CFTR-Intron2-1227 + AAAAUAGGUAUAUUUUUUAAA 21 16327 CFTR-Intron2-1228 +UAAAAUAGGUAUAUUUUUUAAA 22 16328 CFTR-Intron2-1229 +AGUAAAAUAGGUAUAUUUUUUAAA 24 16329 CFTR-Intron2-1230 + UCUGUCACUGGCAAUCAA18 16330 CFTR-Intron2-1231 + UUCUGUCACUGGCAAUCAA 19 16331CFTR-Intron2-1232 + UUUCUGUCACUGGCAAUCAA 20 16332 CFTR-Intron2-1233 +UGGGUUUCUGUCACUGGCAAUCAA 24 16333 CFTR-Intron2-1234 + UUCUCCAUCAAAGGAGAA18 16334 CFTR-Intron2-1235 + CUUCUCCAUCAAAGGAGAA 19 16335CFTR-Intron2-1236 + CCUUCUCCAUCAAAGGAGAA 20 16336 CFTR-Intron2-1237 +AUGAAAGAAAAAAUAGAA 18 16337 CFTR-Intron2-1238 + UAUGAAAGAAAAAAUAGAA 1916338 CFTR-Intron2-614 + CUAUGAAAGAAAAAAUAGAA 20 15714CFTR-Intron2-1239 + AGCUAUGAAAGAAAAAAUAGAA 22 16339 CFTR-Intron2-1240 +UAGCUAUGAAAGAAAAAAUAGAA 23 16340 CFTR-Intron2-1241 +UUAGCUAUGAAAGAAAAAAUAGAA 24 16341 CFTR-Intron2-1242 + AAAUGCCAAAAAAAGGAA18 16342 CFTR-Intron2-1243 + AAAAUGCCAAAAAAAGGAA 19 16343CFTR-Intron2-1244 + CAAAAUGCCAAAAAAAGGAA 20 16344 CFTR-Intron2-1245 +UCAAAAUGCCAAAAAAAGGAA 21 16345 CFTR-Intron2-1246 +UUCAAAAUGCCAAAAAAAGGAA 22 16346 CFTR-Intron2-1247 +CUUCAAAAUGCCAAAAAAAGGAA 23 16347 CFTR-Intron2-1248 +CCUUCAAAAUGCCAAAAAAAGGAA 24 16348 CFTR-Intron2-1249 + AACAAACAAAAAACAUAA18 16349 CFTR-Intron2-1250 + AAACAAACAAAAAACAUAA 19 16350CFTR-Intron2-616 + CAAACAAACAAAAAACAUAA 20 15716 CFTR-Intron2-1251 +ACAAACAAACAAAAAACAUAA 21 16351 CFTR-Intron2-1252 +CACAAACAAACAAAAAACAUAA 22 16352 CFTR-Intron2-1253 +ACACAAACAAACAAAAAACAUAA 23 16353 CFTR-Intron2-1254 +AACACAAACAAACAAAAAACAUAA 24 16354 CFTR-Intron2-1255 + UUAUAAGAAAAGAAGUAA18 16355 CFTR-Intron2-1256 + UUUAUAAGAAAAGAAGUAA 19 16356CFTR-Intron2-1257 + UUUUAUAAGAAAAGAAGUAA 20 16357 CFTR-Intron2-1258 +AUUUUAUAAGAAAAGAAGUAA 21 16358 CFTR-Intron2-1259 +AAUUUUAUAAGAAAAGAAGUAA 22 16359 CFTR-Intron2-1260 +CAAUUUUAUAAGAAAAGAAGUAA 23 16360 CFTR-Intron2-1261 +CCAAUUUUAUAAGAAAAGAAGUAA 24 16361 CFTR-Intron2-1262 +AGUAGAGAGACCAGGAGAGCA 21 16362 CFTR-Intron2-1263 +AAGUAGAGAGACCAGGAGAGCA 22 16363 CFTR-Intron2-1264 +UGAAGUAGAGAGACCAGGAGAGCA 24 16364 CFTR-Intron2-1265 +AUCAGAUGGGAAAGCCAAGGA 21 16365 CFTR-Intron2-1266 +UGGAUCAGAUGGGAAAGCCAAGGA 24 16366 CFTR-Intron2-1267 + UCAUUCAACAAAUAUUUA18 16367 CFTR-Intron2-1268 + UUCAUUCAACAAAUAUUUA 19 16368CFTR-Intron2-1269 + AUUCAUUCAACAAAUAUUUA 20 16369 CFTR-Intron2-1270 +UGGAUUCAUUCAACAAAUAUUUA 23 16370 CFTR-Intron2-1271 +AUGGAUUCAUUCAACAAAUAUUUA 24 16371 CFTR-Intron2-1272 + ACACCACUACACUCCAGC18 16372 CFTR-Intron2-1273 + CACACCACUACACUCCAGC 19 16373CFTR-Intron2-1274 + UCACACCACUACACUCCAGC 20 16374 CFTR-Intron2-1275 +AUCACACCACUACACUCCAGC 21 16375 CFTR-Intron2-1276 +AGAUCACACCACUACACUCCAGC 23 16376 CFTR-Intron2-667 + CGGGCAGAUCACUUGAGGUC20 15767 CFTR-Intron2-1277 + AGGCGGGCAGAUCACUUGAGGUC 23 16377CFTR-Intron2-1278 + AAGGCGGGCAGAUCACUUGAGGUC 24 16378 CFTR-Intron2-668 +UGGGCAGAUCACUUGAGGUC 20 15768 CFTR-Intron2-1279 +AGGUGGGCAGAUCACUUGAGGUC 23 16379 CFTR-Intron2-1280 +AAGGUGGGCAGAUCACUUGAGGUC 24 16380 CFTR-Intron2-1281 + CUCGAGAGGCUGAGGCAG18 16381 CFTR-Intron2-1282 + ACUCGAGAGGCUGAGGCAG 19 16382CFTR-Intron2-1283 + UACUCGAGAGGCUGAGGCAG 20 16383 CFTR-Intron2-1284 +CUACUCGAGAGGCUGAGGCAG 21 16384 CFTR-Intron2-1285 +AGCUACUCGAGAGGCUGAGGCAG 23 16385 CFTR-Intron2-1286 +CAGCUACUCGAGAGGCUGAGGCAG 24 16386 CFTR-Intron2-1287 +CCUGAGGAGAAGGCAAGGUCG 21 16387 CFTR-Intron2-1288 +ACCUGAGGAGAAGGCAAGGUCG 22 16388 CFTR-Intron2-1289 +UACCUGAGGAGAAGGCAAGGUCG 23 16389 CFTR-Intron2-1290 +UUACCUGAGGAGAAGGCAAGGUCG 24 16390 CFTR-Intron2-1291 + UCGCUUGAACCCAGGAGG18 16391 CFTR-Intron2-1292 + UUCGCUUGAACCCAGGAGG 19 16392CFTR-Intron2-1293 + AUUCGCUUGAACCCAGGAGG 20 16393 CFTR-Intron2-1294 +AGAUUCGCUUGAACCCAGGAGG 22 16394 CFTR-Intron2-1295 +UGAGAUUCGCUUGAACCCAGGAGG 24 16395 CFTR-Intron2-1296 +UUUUUAAAUUGAAUCAACAUG 21 16396 CFTR-Intron2-1297 +UUUUUUAAAUUGAAUCAACAUG 22 16397 CFTR-Intron2-1298 +AUUUUUUAAAUUGAAUCAACAUG 23 16398 CFTR-Intron2-1299 +UAUUUUUUAAAUUGAAUCAACAUG 24 16399 CFTR-Intron2-1300 + AAUUAGCCAGGCAUUGUG18 16400 CFTR-Intron2-1301 + AAAUUAGCCAGGCAUUGUG 19 16401CFTR-Intron2-1302 + AAAAUUAGCCAGGCAUUGUG 20 16402 CFTR-Intron2-1303 +AAAAAUUAGCCAGGCAUUGUG 21 16403 CFTR-Intron2-1304 +CAAAAAUUAGCCAGGCAUUGUG 22 16404 CFTR-Intron2-1305 +ACAAAAAUUAGCCAGGCAUUGUG 23 16405 CFTR-Intron2-1306 +UACAAAAAUUAGCCAGGCAUUGUG 24 16406 CFTR-Intron2-1307 + AAUGCCACCAGGUGGCAU18 16407 CFTR-Intron2-1308 + AAAUGCCACCAGGUGGCAU 19 16408CFTR-Intron2-1309 + CAAAUGCCACCAGGUGGCAU 20 16409 CFTR-Intron2-1310 +AGAGAUAAUGAUGCUUUCCACU 22 16410 CFTR-Intron2-1311 +UAGAGAUAAUGAUGCUUUCCACU 23 16411 CFTR-Intron2-1312 +AUAGAGAUAAUGAUGCUUUCCACU 24 16412 CFTR-Intron2-1313 + UAUAUUUUCUAUUAUAGU18 16413 CFTR-Intron2-1314 + AUAUAUUUUCUAUUAUAGU 19 16414CFTR-Intron2-1315 + UAUAUAUUUUCUAUUAUAGU 20 16415 CFTR-Intron2-1316 +UUAUAUAUUUUCUAUUAUAGU 21 16416 CFTR-Intron2-1317 +AUUAUAUAUUUUCUAUUAUAGU 22 16417 CFTR-Intron2-1318 +AAUUAUAUAUUUUCUAUUAUAGU 23 16418 CFTR-Intron2-1319 +AAAUUAUAUAUUUUCUAUUAUAGU 24 16419 CFTR-Intron2-1320 + ACAAAAAUAAUAGAACGU18 16420 CFTR-Intron2-1321 + AACAAAAAUAAUAGAACGU 19 16421CFTR-Intron2-1322 + AAACAAAAAUAAUAGAACGU 20 16422 CFTR-Intron2-1323 +AAAACAAAAAUAAUAGAACGU 21 16423 CFTR-Intron2-1324 +CAAAACAAAAAUAAUAGAACGU 22 16424 CFTR-Intron2-1325 +ACAAAACAAAAAUAAUAGAACGU 23 16425 CFTR-Intron2-1326 +AACAAAACAAAAAUAAUAGAACGU 24 16426 CFTR-Intron2-718 +AGGCCCUAUUCUAGGCACUU 20 15818 CFTR-Intron2-1327 + CAGGCCCUAUUCUAGGCACUU21 16427 CFTR-Intron2-1328 + CCAGGCCCUAUUCUAGGCACUU 22 16428CFTR-Intron2-1329 + UGCCAGGCCCUAUUCUAGGCACUU 24 16429 CFTR-Intron2-1330− UCUGCCUCCUGGGUUCAA 18 16430 CFTR-Intron2-1331 − CUCUGCCUCCUGGGUUCAA 1916431 CFTR-Intron2-1332 − ACUCUGCCUCCUGGGUUCAA 20 16432CFTR-Intron2-1333 − AACUCUGCCUCCUGGGUUCAA 21 16433 CFTR-Intron2-1334 −AAACUCUGCCUCCUGGGUUCAA 22 16434 CFTR-Intron2-1335 −CAAACUCUGCCUCCUGGGUUCAA 23 16435 CFTR-Intron2-1336 − UGAAUAUCUAAGUUUUAA18 16436 CFTR-Intron2-1337 − UUGAAUAUCUAAGUUUUAA 19 16437CFTR-Intron2-1338 − UUUGAAUAUCUAAGUUUUAA 20 16438 CFTR-Intron2-1339 −UUUUAUUGAUUUUAUUCA 18 16439 CFTR-Intron2-1340 − UUUUUAUUGAUUUUAUUCA 1916440 CFTR-Intron2-1341 − AUUUUUAUUGAUUUUAUUCA 20 16441CFTR-Intron2-1342 − UAUUUUUAUUGAUUUUAUUCA 21 16442 CFTR-Intron2-1343 −UUAUUUUUAUUGAUUUUAUUCA 22 16443 CFTR-Intron2-1344 −UUUAUUUUUAUUGAUUUUAUUCA 23 16444 CFTR-Intron2-1345 −CUUUAUUUUUAUUGAUUUUAUUCA 24 16445 CFTR-Intron2-1346 − AAUACACAUUUGGUUUCA18 16446 CFTR-Intron2-1347 − AAAUACACAUUUGGUUUCA 19 16447CFTR-Intron2-1348 − AAAAUACACAUUUGGUUUCA 20 16448 CFTR-Intron2-1349 −UGGCUAAUUUUUGUAGAGA 19 16449 CFTR-Intron2-626 − CUGGCUAAUUUUUGUAGAGA 2015726 CFTR-Intron2-1350 − CCUGGCUAAUUUUUGUAGAGA 21 16450CFTR-Intron2-1351 − AGGCCUGGCUAAUUUUUGUAGAGA 24 16451 CFTR-Intron2-1352− UUGCUGUUGUUUUUGAGA 18 16452 CFTR-Intron2-1353 − UGUUGCUGUUGUUUUUGAGA20 16453 CFTR-Intron2-1354 − UUGUUGCUGUUGUUUUUGAGA 21 16454CFTR-Intron2-1355 − UGUUGUUGCUGUUGUUUUUGAGA 23 16455 CFTR-Intron2-1356 −UUGUUGUUGCUGUUGUUUUUGAGA 24 16456 CFTR-Intron2-1357 − UGUUGUUUGUUUUUGAGA18 16457 CFTR-Intron2-1358 − UGUGUUGUUUGUUUUUGAGA 20 16458CFTR-Intron2-1359 − UUGUGUUGUUUGUUUUUGAGA 21 16459 CFTR-Intron2-1360 −UUUGUGUUGUUUGUUUUUGAGA 22 16460 CFTR-Intron2-1361 −UGUUUGUGUUGUUUGUUUUUGAGA 24 16461 CFTR-Intron2-1362 −UAGCUUAAGUAAAUAAAAGGA 21 16462 CFTR-Intron2-1363 −CUAGCUUAAGUAAAUAAAAGGA 22 16463 CFTR-Intron2-1364 −ACUAGCUUAAGUAAAUAAAAGGA 23 16464 CFTR-Intron2-1365 −UACUAGCUUAAGUAAAUAAAAGGA 24 16465 CFTR-Intron2-1366 − UGUUGAAUGAAUCCAUGA18 16466 CFTR-Intron2-1367 − UUGUUGAAUGAAUCCAUGA 19 16467CFTR-Intron2-628 − UUUGUUGAAUGAAUCCAUGA 20 15728 CFTR-Intron2-1368 −AUUUGUUGAAUGAAUCCAUGA 21 16468 CFTR-Intron2-1369 −UAUUUGUUGAAUGAAUCCAUGA 22 16469 CFTR-Intron2-1370 −AUAUUUGUUGAAUGAAUCCAUGA 23 16470 CFTR-Intron2-1371 −AAUAUUUGUUGAAUGAAUCCAUGA 24 16471 CFTR-Intron2-1372 − UCAAUAAAUAUUUGUUGA18 16472 CFTR-Intron2-1373 − CUCAAUAAAUAUUUGUUGA 19 16473CFTR-Intron2-1374 − ACUCAAUAAAUAUUUGUUGA 20 16474 CFTR-Intron2-1375 −UACUCAAUAAAUAUUUGUUGA 21 16475 CFTR-Intron2-1376 −AUACUCAAUAAAUAUUUGUUGA 22 16476 CFTR-Intron2-1377 −UAUACUCAAUAAAUAUUUGUUGA 23 16477 CFTR-Intron2-1378 −AUAUACUCAAUAAAUAUUUGUUGA 24 16478 CFTR-Intron2-1379 − UUUGUUUUUUAUUUUUUA18 16479 CFTR-Intron2-1380 − UUUUGUUUUUUAUUUUUUA 19 16480CFTR-Intron2-1381 − UGUUUUGUUUUUUAUUUUUUA 21 16481 CFTR-Intron2-1382 −UUGUUUUGUUUUUUAUUUUUUA 22 16482 CFTR-Intron2-1383 −UUUGUUUUGUUUUUUAUUUUUUA 23 16483 CFTR-Intron2-1384 −CUUUGUUUUGUUUUUUAUUUUUUA 24 16484 CFTR-Intron2-1385 −UAUGAUGUAUCCCCAAGUGCC 21 16485 CFTR-Intron2-1386 −UUAUGAUGUAUCCCCAAGUGCC 22 16486 CFTR-Intron2-1387 −UUUAUGAUGUAUCCCCAAGUGCC 23 16487 CFTR-Intron2-1388 − UCGCUGUGUCACCCAGGC18 16488 CFTR-Intron2-1389 − CUCGCUGUGUCACCCAGGC 19 16489CFTR-Intron2-658 − UCUCGCUGUGUCACCCAGGC 20 15758 CFTR-Intron2-1390 −AGUCUCGCUGUGUCACCCAGGC 22 16490 CFTR-Intron2-1391 −AGAGUCUCGCUGUGUCACCCAGGC 24 16491 CFTR-Intron2-1392 − UUGCUCUGUUGCCCAGGC18 16492 CFTR-Intron2-1393 − CUUGCUCUGUUGCCCAGGC 19 16493CFTR-Intron2-659 − UCUUGCUCUGUUGCCCAGGC 20 15759 CFTR-Intron2-1394 −AGUCUUGCUCUGUUGCCCAGGC 22 16494 CFTR-Intron2-1395 −AGAGUCUUGCUCUGUUGCCCAGGC 24 16495 CFTR-Intron2-1396 − CUUGGCCUCCCAAAAUGC18 16496 CFTR-Intron2-1397 − CCUUGGCCUCCCAAAAUGC 19 16497CFTR-Intron2-663 − ACCUUGGCCUCCCAAAAUGC 20 15763 CFTR-Intron2-1398 −CACCUUGGCCUCCCAAAAUGC 21 16498 CFTR-Intron2-1399 −CCACCUUGGCCUCCCAAAAUGC 22 16499 CFTR-Intron2-1400 −CCCACCUUGGCCUCCCAAAAUGC 23 16500 CFTR-Intron2-1401 − UUCUCCUGCCUCAGCCUC18 16501 CFTR-Intron2-1402 − AUUCUCCUGCCUCAGCCUC 19 16502CFTR-Intron2-1403 − UGAUUCUCCUGCCUCAGCCUC 21 16503 CFTR-Intron2-1404 −AGUGAUUCUCCUGCCUCAGCCUC 23 16504 CFTR-Intron2-1405 −AAGUGAUUCUCCUGCCUCAGCCUC 24 16505 CFTR-Intron2-1406 − CACUGCAAACUCUGCCUC18 16506 CFTR-Intron2-1407 − UCACUGCAAACUCUGCCUC 19 16507CFTR-Intron2-1408 − CUCACUGCAAACUCUGCCUC 20 16508 CFTR-Intron2-1409 −AGCUCACUGCAAACUCUGCCUC 22 16509 CFTR-Intron2-1410 −CAGCUCACUGCAAACUCUGCCUC 23 16510 CFTR-Intron2-1411 −UCAGCUCACUGCAAACUCUGCCUC 24 16511 CFTR-Intron2-1412 − CAAGCGAAUCUCAGUCUC18 16512 CFTR-Intron2-1413 − UCAAGCGAAUCUCAGUCUC 19 16513CFTR-Intron2-1414 − UUCAAGCGAAUCUCAGUCUC 20 16514 CFTR-Intron2-1415 −UGGGUUCAAGCGAAUCUCAGUCUC 24 16515 CFTR-Intron2-1416 − CACUGCAAACUUCGUCUC18 16516 CFTR-Intron2-1417 − UCACUGCAAACUUCGUCUC 19 16517CFTR-Intron2-1418 − CUCACUGCAAACUUCGUCUC 20 16518 CFTR-Intron2-1419 −UGGCUCACUGCAAACUUCGUCUC 23 16519 CFTR-Intron2-1420 −UUGGCUCACUGCAAACUUCGUCUC 24 16520 CFTR-Intron2-1421 − UCUCCUUUGAUGGAGAAG18 16521 CFTR-Intron2-1422 − UUCUCCUUUGAUGGAGAAG 19 16522CFTR-Intron2-1423 − UUUCUCCUUUGAUGGAGAAG 20 16523 CFTR-Intron2-1424 −AUAAAAGGGUGAGUGAAG 18 16524 CFTR-Intron2-672 − AGAUAAAAGGGUGAGUGAAG 2015772 CFTR-Intron2-1425 − CCUCAGCCUCUCGAGUAG 18 16525 CFTR-Intron2-1426− UGCCUCAGCCUCUCGAGUAG 20 16526 CFTR-Intron2-1427 −CUGCCUCAGCCUCUCGAGUAG 21 16527 CFTR-Intron2-1428 −CCUGCCUCAGCCUCUCGAGUAG 22 16528 CFTR-Intron2-1429 −UCCUGCCUCAGCCUCUCGAGUAG 23 16529 CFTR-Intron2-1430 −CUCCUGCCUCAGCCUCUCGAGUAG 24 16530 CFTR-Intron2-1431 −AGGCCUGAUGCCAGAUAAAAGG 22 16531 CFTR-Intron2-1432 −CAGGCCUGAUGCCAGAUAAAAGG 23 16532 CFTR-Intron2-1433 −ACAGGCCUGAUGCCAGAUAAAAGG 24 16533 CFTR-Intron2-1434 −AAAUUUAUUGAAAUAUUUUGG 21 16534 CFTR-Intron2-1435 −UGAAAUUUAUUGAAAUAUUUUGG 23 16535 CFTR-Intron2-1436 −UUGAAAUUUAUUGAAAUAUUUUGG 24 16536 CFTR-Intron2-1437 − UUUGUAUUUUAGUAGAUG18 16537 CFTR-Intron2-1438 − UUUUGUAUUUUAGUAGAUG 19 16538CFTR-Intron2-688 − UUUUUGUAUUUUAGUAGAUG 20 15788 CFTR-Intron2-1439 −AUUUUUGUAUUUUAGUAGAUG 21 16539 CFTR-Intron2-1440 −AAUUUUUGUAUUUUAGUAGAUG 22 16540 CFTR-Intron2-1441 −UAAUUUUUGUAUUUUAGUAGAUG 23 16541 CFTR-Intron2-1442 −CUAAUUUUUGUAUUUUAGUAGAUG 24 16542 CFTR-Intron2-1443 −AGAGAACAUGAAUCUGAAUUUG 22 16543 CFTR-Intron2-1444 −UAGAGAACAUGAAUCUGAAUUUG 23 16544 CFTR-Intron2-1445 −AUAGAGAACAUGAAUCUGAAUUUG 24 16545 CFTR-Intron2-1446 − AUACUCAAUAAAUAUUUG18 16546 CFTR-Intron2-1447 − UAUACUCAAUAAAUAUUUG 19 16547CFTR-Intron2-1448 − AUAUACUCAAUAAAUAUUUG 20 16548 CFTR-Intron2-1449 −UAUAUACUCAAUAAAUAUUUG 21 16549 CFTR-Intron2-1450 −UGGUAUAUACUCAAUAAAUAUUUG 24 16550 CFTR-Intron2-1451 −UGGCCAGAUAGAGAACAUGAAU 22 16551 CFTR-Intron2-1452 −AUGGCCAGAUAGAGAACAUGAAU 23 16552 CFTR-Intron2-1453 −UAUGGCCAGAUAGAGAACAUGAAU 24 16553 CFTR-Intron2-1454 −UGCUGAGGGAAUGAUUAAU 19 16554 CFTR-Intron2-1455 − AUGCUGAGGGAAUGAUUAAU 2016555 CFTR-Intron2-1456 − UUGCUUUCAAAACCUUUAUAU 21 16556CFTR-Intron2-1457 − UUUGCUUUCAAAACCUUUAUAU 22 16557 CFTR-Intron2-1458 −AUUUGCUUUCAAAACCUUUAUAU 23 16558 CFTR-Intron2-1459 −UAUUUGCUUUCAAAACCUUUAUAU 24 16559 CFTR-Intron2-1460 −UGAGCCACUAUGCCCAGCU 19 16560 CFTR-Intron2-1461 − UGUGAGCCACUAUGCCCAGCU21 16561 CFTR-Intron2-1462 − AGGUGUGAGCCACUAUGCCCAGCU 24 16562CFTR-Intron2-1463 − UGUGCAAAUGCCAUGAGGU 19 16563 CFTR-Intron2-1464 −UGUGUGCAAAUGCCAUGAGGU 21 16564 CFTR-Intron2-1465 −UGGUGUGUGCAAAUGCCAUGAGGU 24 16565 CFTR-Intron2-1466 − CUUGGCCUCCCAAAGUGU18 16566 CFTR-Intron2-1467 − CCUUGGCCUCCCAAAGUGU 19 16567CFTR-Intron2-1468 − CGCCUUGGCCUCCCAAAGUGU 21 16568 CFTR-Intron2-1469 −CCGCCUUGGCCUCCCAAAGUGU 22 16569 CFTR-Intron2-1470 −CCCGCCUUGGCCUCCCAAAGUGU 23 16570 CFTR-Intron2-1471 − UGUAAAAAUUGUAUAUUU18 16571 CFTR-Intron2-1472 − AUGUAAAAAUUGUAUAUUU 19 16572CFTR-Intron2-1473 − AAUGUAAAAAUUGUAUAUUU 20 16573 CFTR-Intron2-1474 −AAAUGUAAAAAUUGUAUAUUU 21 16574 CFTR-Intron2-1475 −CAAAUGUAAAAAUUGUAUAUUU 22 16575 CFTR-Intron2-1476 −ACAAAUGUAAAAAUUGUAUAUUU 23 16576 CFTR-Intron2-1477 −AACAAAUGUAAAAAUUGUAUAUUU 24 16577

Table 38E provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within intron 2, and PAM isNNGRRV. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 38E 5th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-1478 + CUUCAAAAUGCCAAAAAA 18 16578CFTR-Intron2-1479 + CCUUCAAAAUGCCAAAAAA 19 16579 CFTR-Intron2-42 +GCCUUCAAAAUGCCAAAAAA 20 15142 CFTR-Intron2-1480 + UGCCUUCAAAAUGCCAAAAAA21 16580 CFTR-Intron2-1481 + UUGCCUUCAAAAUGCCAAAAAA 22 16581CFTR-Intron2-1482 + UUUGCCUUCAAAAUGCCAAAAAA 23 16582 CFTR-Intron2-1483 +CUUUGCCUUCAAAAUGCCAAAAAA 24 16583 CFTR-Intron2-1484 + CCUUCAAAAUGCCAAAAA18 16584 CFTR-Intron2-1485 + GCCUUCAAAAUGCCAAAAA 19 16585CFTR-Intron2-1486 + UGCCUUCAAAAUGCCAAAAA 20 16586 CFTR-Intron2-1487 +UUGCCUUCAAAAUGCCAAAAA 21 16587 CFTR-Intron2-1488 +UUUGCCUUCAAAAUGCCAAAAA 22 16588 CFTR-Intron2-1489 +CUUUGCCUUCAAAAUGCCAAAAA 23 16589 CFTR-Intron2-1490 +ACUUUGCCUUCAAAAUGCCAAAAA 24 16590 CFTR-Intron2-1491 + CAAUCCAUGGUCACAAAA18 16591 CFTR-Intron2-1492 + UCAAUCCAUGGUCACAAAA 19 16592CFTR-Intron2-1493 + UUCAAUCCAUGGUCACAAAA 20 16593 CFTR-Intron2-1494 +AUUCAAUCCAUGGUCACAAAA 21 16594 CFTR-Intron2-1495 +GAUUCAAUCCAUGGUCACAAAA 22 16595 CFTR-Intron2-1496 +GGAUUCAAUCCAUGGUCACAAAA 23 16596 CFTR-Intron2-1497 +AGGAUUCAAUCCAUGGUCACAAAA 24 16597 CFTR-Intron2-1498 + UGGGGGAUACAGUGAAAA18 16598 CFTR-Intron2-1499 + AUGGGGGAUACAGUGAAAA 19 16599CFTR-Intron2-1500 + CAUGGGGGAUACAGUGAAAA 20 16600 CFTR-Intron2-1501 +ACAUGGGGGAUACAGUGAAAA 21 16601 CFTR-Intron2-1502 +AACAUGGGGGAUACAGUGAAAA 22 16602 CFTR-Intron2-1503 +CAACAUGGGGGAUACAGUGAAAA 23 16603 CFTR-Intron2-1504 +UCAACAUGGGGGAUACAGUGAAAA 24 16604 CFTR-Intron2-1505 + AUUAAAGGUCUUUGAAAA18 16605 CFTR-Intron2-1506 + UAUUAAAGGUCUUUGAAAA 19 16606CFTR-Intron2-1507 + GUAUUAAAGGUCUUUGAAAA 20 16607 CFTR-Intron2-1508 +UGUAUUAAAGGUCUUUGAAAA 21 16608 CFTR-Intron2-1509 +AUGUAUUAAAGGUCUUUGAAAA 22 16609 CFTR-Intron2-1510 +CAUGUAUUAAAGGUCUUUGAAAA 23 16610 CFTR-Intron2-1511 +UCAUGUAUUAAAGGUCUUUGAAAA 24 16611 CFTR-Intron2-1512 + GUUUGCUUUUCUGUAAAA18 16612 CFTR-Intron2-1513 + AGUUUGCUUUUCUGUAAAA 19 16613CFTR-Intron2-1514 + CAGUUUGCUUUUCUGUAAAA 20 16614 CFTR-Intron2-1515 +UCAGUUUGCUUUUCUGUAAAA 21 16615 CFTR-Intron2-1516 +CUCAGUUUGCUUUUCUGUAAAA 22 16616 CFTR-Intron2-1517 +CCUCAGUUUGCUUUUCUGUAAAA 23 16617 CFTR-Intron2-1518 +GCCUCAGUUUGCUUUUCUGUAAAA 24 16618 CFTR-Intron2-1519 + UUUUGAUUGGAAAGGAAA18 16619 CFTR-Intron2-1520 + CUUUUGAUUGGAAAGGAAA 19 16620CFTR-Intron2-1521 + CCUUUUGAUUGGAAAGGAAA 20 16621 CFTR-Intron2-1522 +ACCUUUUGAUUGGAAAGGAAA 21 16622 CFTR-Intron2-1523 +AACCUUUUGAUUGGAAAGGAAA 22 16623 CFTR-Intron2-1524 +UAACCUUUUGAUUGGAAAGGAAA 23 16624 CFTR-Intron2-1525 +CUAACCUUUUGAUUGGAAAGGAAA 24 16625 CFTR-Intron2-1526 + GCUGAGAUGUAAAUGAAA18 16626 CFTR-Intron2-1527 + AGCUGAGAUGUAAAUGAAA 19 16627CFTR-Intron2-1528 + GAGCUGAGAUGUAAAUGAAA 20 16628 CFTR-Intron2-1529 +GGAGCUGAGAUGUAAAUGAAA 21 16629 CFTR-Intron2-1530 +AGGAGCUGAGAUGUAAAUGAAA 22 16630 CFTR-Intron2-1531 +CAGGAGCUGAGAUGUAAAUGAAA 23 16631 CFTR-Intron2-1532 +UCAGGAGCUGAGAUGUAAAUGAAA 24 16632 CFTR-Intron2-1533 + GGGAUACAUCAUAAACAA18 16633 CFTR-Intron2-1534 + GGGGAUACAUCAUAAACAA 19 16634CFTR-Intron2-1535 + UGGGGAUACAUCAUAAACAA 20 16635 CFTR-Intron2-1536 +UUGGGGAUACAUCAUAAACAA 21 16636 CFTR-Intron2-1537 +CUUGGGGAUACAUCAUAAACAA 22 16637 CFTR-Intron2-1538 +ACUUGGGGAUACAUCAUAAACAA 23 16638 CFTR-Intron2-1539 +CACUUGGGGAUACAUCAUAAACAA 24 16639 CFTR-Intron2-1540 + ACACUCCAGCCUGGGCAA18 16640 CFTR-Intron2-1541 + UACACUCCAGCCUGGGCAA 19 16641CFTR-Intron2-1542 + UUACACUCCAGCCUGGGCAA 20 16642 CFTR-Intron2-1543 +AUUACACUCCAGCCUGGGCAA 21 16643 CFTR-Intron2-1544 +CAUUACACUCCAGCCUGGGCAA 22 16644 CFTR-Intron2-1545 +CCAUUACACUCCAGCCUGGGCAA 23 16645 CFTR-Intron2-1546 +ACCAUUACACUCCAGCCUGGGCAA 24 16646 CFTR-Intron2-1547 + ACUCACCUUCUCCAUCAA18 16647 CFTR-Intron2-1548 + GACUCACCUUCUCCAUCAA 19 16648CFTR-Intron2-239 + AGACUCACCUUCUCCAUCAA 20 15339 CFTR-Intron2-1549 +CAGACUCACCUUCUCCAUCAA 21 16649 CFTR-Intron2-1550 +GCAGACUCACCUUCUCCAUCAA 22 16650 CFTR-Intron2-1551 +AGCAGACUCACCUUCUCCAUCAA 23 16651 CFTR-Intron2-1552 +GAGCAGACUCACCUUCUCCAUCAA 24 16652 CFTR-Intron2-1553 + AUACCAAUUUUAUAAGAA18 16653 CFTR-Intron2-1554 + AAUACCAAUUUUAUAAGAA 19 16654CFTR-Intron2-1555 + AAAUACCAAUUUUAUAAGAA 20 16655 CFTR-Intron2-1556 +CAAAUACCAAUUUUAUAAGAA 21 16656 CFTR-Intron2-1557 +UCAAAUACCAAUUUUAUAAGAA 22 16657 CFTR-Intron2-1558 +UUCAAAUACCAAUUUUAUAAGAA 23 16658 CFTR-Intron2-1559 +UUUCAAAUACCAAUUUUAUAAGAA 24 16659 CFTR-Intron2-1560 + ACCAGGCCCAGAUCAGAA18 16660 CFTR-Intron2-1561 + UACCAGGCCCAGAUCAGAA 19 16661CFTR-Intron2-242 + AUACCAGGCCCAGAUCAGAA 20 15342 CFTR-Intron2-1562 +CAUACCAGGCCCAGAUCAGAA 21 16662 CFTR-Intron2-1563 +ACAUACCAGGCCCAGAUCAGAA 22 16663 CFTR-Intron2-1564 +CACAUACCAGGCCCAGAUCAGAA 23 16664 CFTR-Intron2-1565 +CCACAUACCAGGCCCAGAUCAGAA 24 16665 CFTR-Intron2-1566 + CUAACCUUUUGAUUGGAA18 16666 CFTR-Intron2-1567 + CCUAACCUUUUGAUUGGAA 19 16667CFTR-Intron2-246 + UCCUAACCUUUUGAUUGGAA 20 15346 CFTR-Intron2-1568 +AUCCUAACCUUUUGAUUGGAA 21 16668 CFTR-Intron2-1569 +GAUCCUAACCUUUUGAUUGGAA 22 16669 CFTR-Intron2-1570 +GGAUCCUAACCUUUUGAUUGGAA 23 16670 CFTR-Intron2-1571 +AGGAUCCUAACCUUUUGAUUGGAA 24 16671 CFTR-Intron2-1572 + UGGCAUAGCAUUGUUGAA18 16672 CFTR-Intron2-1573 + CUGGCAUAGCAUUGUUGAA 19 16673CFTR-Intron2-1574 + ACUGGCAUAGCAUUGUUGAA 20 16674 CFTR-Intron2-1575 +UACUGGCAUAGCAUUGUUGAA 21 16675 CFTR-Intron2-1576 +GUACUGGCAUAGCAUUGUUGAA 22 16676 CFTR-Intron2-1577 +UGUACUGGCAUAGCAUUGUUGAA 23 16677 CFTR-Intron2-1578 +UUGUACUGGCAUAGCAUUGUUGAA 24 16678 CFTR-Intron2-1579 + AAAACAAAACAAAAAUAA18 16679 CFTR-Intron2-1580 + CAAAACAAAACAAAAAUAA 19 16680CFTR-Intron2-1581 + ACAAAACAAAACAAAAAUAA 20 16681 CFTR-Intron2-1582 +AACAAAACAAAACAAAAAUAA 21 16682 CFTR-Intron2-1583 +AAACAAAACAAAACAAAAAUAA 22 16683 CFTR-Intron2-1584 +AAAACAAAACAAAACAAAAAUAA 23 16684 CFTR-Intron2-1585 +AAAAACAAAACAAAACAAAAAUAA 24 16685 CFTR-Intron2-1586 + ACACCAAGUGUUCAAUAA18 16686 CFTR-Intron2-1587 + CACACCAAGUGUUCAAUAA 19 16687CFTR-Intron2-1588 + ACACACCAAGUGUUCAAUAA 20 16688 CFTR-Intron2-1589 +CACACACCAAGUGUUCAAUAA 21 16689 CFTR-Intron2-1590 +GCACACACCAAGUGUUCAAUAA 22 16690 CFTR-Intron2-1591 +UGCACACACCAAGUGUUCAAUAA 23 16691 CFTR-Intron2-1592 +UUGCACACACCAAGUGUUCAAUAA 24 16692 CFTR-Intron2-1593 + UCAGGAGCUGAGAUGUAA18 16693 CFTR-Intron2-1594 + UUCAGGAGCUGAGAUGUAA 19 16694CFTR-Intron2-1595 + CUUCAGGAGCUGAGAUGUAA 20 16695 CFTR-Intron2-1596 +ACUUCAGGAGCUGAGAUGUAA 21 16696 CFTR-Intron2-1597 +UACUUCAGGAGCUGAGAUGUAA 22 16697 CFTR-Intron2-1598 +AUACUUCAGGAGCUGAGAUGUAA 23 16698 CFTR-Intron2-1599 +CAUACUUCAGGAGCUGAGAUGUAA 24 16699 CFTR-Intron2-1600 + GGAAAUGAAUUUAAUUAA18 16700 CFTR-Intron2-1601 + AGGAAAUGAAUUUAAUUAA 19 16701CFTR-Intron2-1602 + AAGGAAAUGAAUUUAAUUAA 20 16702 CFTR-Intron2-1603 +AAAGGAAAUGAAUUUAAUUAA 21 16703 CFTR-Intron2-1604 +AAAAGGAAAUGAAUUUAAUUAA 22 16704 CFTR-Intron2-1605 +AAAAAGGAAAUGAAUUUAAUUAA 23 16705 CFTR-Intron2-1606 +AAAAAAGGAAAUGAAUUUAAUUAA 24 16706 CFTR-Intron2-1607 + UUUUAAAUUGAAUCAACA18 16707 CFTR-Intron2-1608 + UUUUUAAAUUGAAUCAACA 19 16708CFTR-Intron2-621 + UUUUUUAAAUUGAAUCAACA 20 15721 CFTR-Intron2-1609 +AUUUUUUAAAUUGAAUCAACA 21 16709 CFTR-Intron2-1610 +UAUUUUUUAAAUUGAAUCAACA 22 16710 CFTR-Intron2-1611 +AUAUUUUUUAAAUUGAAUCAACA 23 16711 CFTR-Intron2-1612 +UAUAUUUUUUAAAUUGAAUCAACA 24 16712 CFTR-Intron2-1613 + CCACCUUUCUCUCACACA18 16713 CFTR-Intron2-1614 + UCCACCUUUCUCUCACACA 19 16714CFTR-Intron2-1615 + CUCCACCUUUCUCUCACACA 20 16715 CFTR-Intron2-1616 +UCUCCACCUUUCUCUCACACA 21 16716 CFTR-Intron2-1617 +UUCUCCACCUUUCUCUCACACA 22 16717 CFTR-Intron2-1618 +CUUCUCCACCUUUCUCUCACACA 23 16718 CFTR-Intron2-1619 +GCUUCUCCACCUUUCUCUCACACA 24 16719 CFTR-Intron2-1620 + UCCAGCCUGGGUGACACA18 16720 CFTR-Intron2-1621 + CUCCAGCCUGGGUGACACA 19 16721CFTR-Intron2-1622 + ACUCCAGCCUGGGUGACACA 20 16722 CFTR-Intron2-1623 +CACUCCAGCCUGGGUGACACA 21 16723 CFTR-Intron2-1624 +ACACUCCAGCCUGGGUGACACA 22 16724 CFTR-Intron2-1625 +UACACUCCAGCCUGGGUGACACA 23 16725 CFTR-Intron2-1626 +CUACACUCCAGCCUGGGUGACACA 24 16726 CFTR-Intron2-1627 + AAAAUUUCAUGAACCACA18 16727 CFTR-Intron2-1628 + AAAAAUUUCAUGAACCACA 19 16728CFTR-Intron2-455 + GAAAAAUUUCAUGAACCACA 20 15555 CFTR-Intron2-1629 +UGAAAAAUUUCAUGAACCACA 21 16729 CFTR-Intron2-1630 +AUGAAAAAUUUCAUGAACCACA 22 16730 CFTR-Intron2-1631 +GAUGAAAAAUUUCAUGAACCACA 23 16731 CFTR-Intron2-1632 +AGAUGAAAAAUUUCAUGAACCACA 24 16732 CFTR-Intron2-1633 + GUGAAAAAGUGGUCCACA18 16733 CFTR-Intron2-1634 + UGUGAAAAAGUGGUCCACA 19 16734CFTR-Intron2-256 + AUGUGAAAAAGUGGUCCACA 20 15356 CFTR-Intron2-1635 +AAUGUGAAAAAGUGGUCCACA 21 16735 CFTR-Intron2-1636 +CAAUGUGAAAAAGUGGUCCACA 22 16736 CFTR-Intron2-1637 +UCAAUGUGAAAAAGUGGUCCACA 23 16737 CFTR-Intron2-1638 +UUCAAUGUGAAAAAGUGGUCCACA 24 16738 CFTR-Intron2-1639 + GCCUUUUUUCUCUUCACA18 16739 CFTR-Intron2-1640 + AGCCUUUUUUCUCUUCACA 19 16740CFTR-Intron2-1641 + AAGCCUUUUUUCUCUUCACA 20 16741 CFTR-Intron2-1642 +AAAGCCUUUUUUCUCUUCACA 21 16742 CFTR-Intron2-1643 +GAAAGCCUUUUUUCUCUUCACA 22 16743 CFTR-Intron2-1644 +UGAAAGCCUUUUUUCUCUUCACA 23 16744 CFTR-Intron2-1645 +AUGAAAGCCUUUUUUCUCUUCACA 24 16745 CFTR-Intron2-1646 + CACAUUUAGCCAAGGACA18 16746 CFTR-Intron2-1647 + UCACAUUUAGCCAAGGACA 19 16747CFTR-Intron2-1648 + UUCACAUUUAGCCAAGGACA 20 16748 CFTR-Intron2-1649 +UUUCACAUUUAGCCAAGGACA 21 16749 CFTR-Intron2-1650 +UUUUCACAUUUAGCCAAGGACA 22 16750 CFTR-Intron2-1651 +UUUUUCACAUUUAGCCAAGGACA 23 16751 CFTR-Intron2-1652 +AUUUUUCACAUUUAGCCAAGGACA 24 16752 CFTR-Intron2-1653 + AUCAACAUGGGGGAUACA18 16753 CFTR-Intron2-1654 + AAUCAACAUGGGGGAUACA 19 16754CFTR-Intron2-1655 + GAAUCAACAUGGGGGAUACA 20 16755 CFTR-Intron2-1656 +UGAAUCAACAUGGGGGAUACA 21 16756 CFTR-Intron2-1657 +UUGAAUCAACAUGGGGGAUACA 22 16757 CFTR-Intron2-1658 +AUUGAAUCAACAUGGGGGAUACA 23 16758 CFTR-Intron2-1659 +AAUUGAAUCAACAUGGGGGAUACA 24 16759 CFTR-Intron2-1660 + GAUCAGAUGGGAAAGCCA18 16760 CFTR-Intron2-1661 + GGAUCAGAUGGGAAAGCCA 19 16761CFTR-Intron2-623 + UGGAUCAGAUGGGAAAGCCA 20 15723 CFTR-Intron2-1662 +AUGGAUCAGAUGGGAAAGCCA 21 16762 CFTR-Intron2-1663 +AAUGGAUCAGAUGGGAAAGCCA 22 16763 CFTR-Intron2-1664 +AAAUGGAUCAGAUGGGAAAGCCA 23 16764 CFTR-Intron2-1665 +GAAAUGGAUCAGAUGGGAAAGCCA 24 16765 CFTR-Intron2-1666 + CAGGAGACGAAGUUUGCA18 16766 CFTR-Intron2-1667 + CCAGGAGACGAAGUUUGCA 19 16767CFTR-Intron2-1668 + CCCAGGAGACGAAGUUUGCA 20 16768 CFTR-Intron2-1669 +ACCCAGGAGACGAAGUUUGCA 21 16769 CFTR-Intron2-1670 +AACCCAGGAGACGAAGUUUGCA 22 16770 CFTR-Intron2-1671 +GAACCCAGGAGACGAAGUUUGCA 23 16771 CFTR-Intron2-1672 +UGAACCCAGGAGACGAAGUUUGCA 24 16772 CFTR-Intron2-1673 + CAGGAGGCAGAGUUUGCA18 16773 CFTR-Intron2-1674 + CCAGGAGGCAGAGUUUGCA 19 16774CFTR-Intron2-1675 + CCCAGGAGGCAGAGUUUGCA 20 16775 CFTR-Intron2-1676 +ACCCAGGAGGCAGAGUUUGCA 21 16776 CFTR-Intron2-1677 +AACCCAGGAGGCAGAGUUUGCA 22 16777 CFTR-Intron2-1678 +GAACCCAGGAGGCAGAGUUUGCA 23 16778 CFTR-Intron2-1679 +UGAACCCAGGAGGCAGAGUUUGCA 24 16779 CFTR-Intron2-1680 + GACUCACCUUCUCCAUCA18 16780 CFTR-Intron2-1681 + AGACUCACCUUCUCCAUCA 19 16781CFTR-Intron2-1682 + CAGACUCACCUUCUCCAUCA 20 16782 CFTR-Intron2-1683 +GCAGACUCACCUUCUCCAUCA 21 16783 CFTR-Intron2-1684 +AGCAGACUCACCUUCUCCAUCA 22 16784 CFTR-Intron2-1685 +GAGCAGACUCACCUUCUCCAUCA 23 16785 CFTR-Intron2-1686 +GGAGCAGACUCACCUUCUCCAUCA 24 16786 CFTR-Intron2-1687 + UUUCGUGGUCCUUAAAGA18 16787 CFTR-Intron2-1688 + CUUUCGUGGUCCUUAAAGA 19 16788CFTR-Intron2-1689 + UCUUUCGUGGUCCUUAAAGA 20 16789 CFTR-Intron2-1690 +UUCUUUCGUGGUCCUUAAAGA 21 16790 CFTR-Intron2-1691 +CUUCUUUCGUGGUCCUUAAAGA 22 16791 CFTR-Intron2-1692 +CCUUCUUUCGUGGUCCUUAAAGA 23 16792 CFTR-Intron2-1693 +UCCUUCUUUCGUGGUCCUUAAAGA 24 16793 CFTR-Intron2-1694 + UACCAGGCCCAGAUCAGA18 16794 CFTR-Intron2-1695 + AUACCAGGCCCAGAUCAGA 19 16795CFTR-Intron2-275 + CAUACCAGGCCCAGAUCAGA 20 15375 CFTR-Intron2-1696 +ACAUACCAGGCCCAGAUCAGA 21 16796 CFTR-Intron2-1697 +CACAUACCAGGCCCAGAUCAGA 22 16797 CFTR-Intron2-1698 +CCACAUACCAGGCCCAGAUCAGA 23 16798 CFTR-Intron2-1699 +ACCACAUACCAGGCCCAGAUCAGA 24 16799 CFTR-Intron2-1700 + AAGGAGAAAUGGAUCAGA18 16800 CFTR-Intron2-1701 + AAAGGAGAAAUGGAUCAGA 19 16801CFTR-Intron2-276 + CAAAGGAGAAAUGGAUCAGA 20 15376 CFTR-Intron2-1702 +UCAAAGGAGAAAUGGAUCAGA 21 16802 CFTR-Intron2-1703 +AUCAAAGGAGAAAUGGAUCAGA 22 16803 CFTR-Intron2-1704 +CAUCAAAGGAGAAAUGGAUCAGA 23 16804 CFTR-Intron2-1705 +CCAUCAAAGGAGAAAUGGAUCAGA 24 16805 CFTR-Intron2-1706 + CAUCAUAAACAAAAGAGA18 16806 CFTR-Intron2-1707 + ACAUCAUAAACAAAAGAGA 19 16807CFTR-Intron2-1708 + UACAUCAUAAACAAAAGAGA 20 16808 CFTR-Intron2-1709 +AUACAUCAUAAACAAAAGAGA 21 16809 CFTR-Intron2-1710 +GAUACAUCAUAAACAAAAGAGA 22 16810 CFTR-Intron2-1711 +GGAUACAUCAUAAACAAAAGAGA 23 16811 CFTR-Intron2-1712 +GGGAUACAUCAUAAACAAAAGAGA 24 16812 CFTR-Intron2-1713 + UCCCAGCUACUCAGGAGA18 16813 CFTR-Intron2-1714 + GUCCCAGCUACUCAGGAGA 19 16814CFTR-Intron2-1715 + AGUCCCAGCUACUCAGGAGA 20 16815 CFTR-Intron2-1716 +UAGUCCCAGCUACUCAGGAGA 21 16816 CFTR-Intron2-1717 +GUAGUCCCAGCUACUCAGGAGA 22 16817 CFTR-Intron2-1718 +UGUAGUCCCAGCUACUCAGGAGA 23 16818 CFTR-Intron2-1719 +CUGUAGUCCCAGCUACUCAGGAGA 24 16819 CFTR-Intron2-1720 + UAUGAAAGAAAAAAUAGA18 16820 CFTR-Intron2-1721 + CUAUGAAAGAAAAAAUAGA 19 16821CFTR-Intron2-1722 + GCUAUGAAAGAAAAAAUAGA 20 16822 CFTR-Intron2-1723 +AGCUAUGAAAGAAAAAAUAGA 21 16823 CFTR-Intron2-1724 +UAGCUAUGAAAGAAAAAAUAGA 22 16824 CFTR-Intron2-1725 +UUAGCUAUGAAAGAAAAAAUAGA 23 16825 CFTR-Intron2-1726 +GUUAGCUAUGAAAGAAAAAAUAGA 24 16826 CFTR-Intron2-1727 + GAUACAGUGAAAACUGGA18 16827 CFTR-Intron2-1728 + GGAUACAGUGAAAACUGGA 19 16828CFTR-Intron2-1729 + GGGAUACAGUGAAAACUGGA 20 16829 CFTR-Intron2-1730 +GGGGAUACAGUGAAAACUGGA 21 16830 CFTR-Intron2-1731 +GGGGGAUACAGUGAAAACUGGA 22 16831 CFTR-Intron2-1732 +UGGGGGAUACAGUGAAAACUGGA 23 16832 CFTR-Intron2-1733 +AUGGGGGAUACAGUGAAAACUGGA 24 16833 CFTR-Intron2-1734 + CCUAACCUUUUGAUUGGA18 16834 CFTR-Intron2-1735 + UCCUAACCUUUUGAUUGGA 19 16835CFTR-Intron2-1736 + AUCCUAACCUUUUGAUUGGA 20 16836 CFTR-Intron2-1737 +GAUCCUAACCUUUUGAUUGGA 21 16837 CFTR-Intron2-1738 +GGAUCCUAACCUUUUGAUUGGA 22 16838 CFTR-Intron2-1739 +AGGAUCCUAACCUUUUGAUUGGA 23 16839 CFTR-Intron2-1740 +AAGGAUCCUAACCUUUUGAUUGGA 24 16840 CFTR-Intron2-1741 + AGAGAAUGUUAGCUAUGA18 16841 CFTR-Intron2-1742 + CAGAGAAUGUUAGCUAUGA 19 16842CFTR-Intron2-1743 + GCAGAGAAUGUUAGCUAUGA 20 16843 CFTR-Intron2-1744 +AGCAGAGAAUGUUAGCUAUGA 21 16844 CFTR-Intron2-1745 +GAGCAGAGAAUGUUAGCUAUGA 22 16845 CFTR-Intron2-1746 +AGAGCAGAGAAUGUUAGCUAUGA 23 16846 CFTR-Intron2-1747 +GAGAGCAGAGAAUGUUAGCUAUGA 24 16847 CFTR-Intron2-1748 + UCCACUCAGAGUGGCUGA18 16848 CFTR-Intron2-1749 + UUCCACUCAGAGUGGCUGA 19 16849CFTR-Intron2-1750 + UUUCCACUCAGAGUGGCUGA 20 16850 CFTR-Intron2-1751 +CUUUCCACUCAGAGUGGCUGA 21 16851 CFTR-Intron2-1752 +GCUUUCCACUCAGAGUGGCUGA 22 16852 CFTR-Intron2-1753 +UGCUUUCCACUCAGAGUGGCUGA 23 16853 CFTR-Intron2-1754 +AUGCUUUCCACUCAGAGUGGCUGA 24 16854 CFTR-Intron2-1755 + AGGAUCCUAACCUUUUGA18 16855 CFTR-Intron2-1756 + AAGGAUCCUAACCUUUUGA 19 16856CFTR-Intron2-1757 + AAAGGAUCCUAACCUUUUGA 20 16857 CFTR-Intron2-1758 +AAAAGGAUCCUAACCUUUUGA 21 16858 CFTR-Intron2-1759 +CAAAAGGAUCCUAACCUUUUGA 22 16859 CFTR-Intron2-1760 +UCAAAAGGAUCCUAACCUUUUGA 23 16860 CFTR-Intron2-1761 +AUCAAAAGGAUCCUAACCUUUUGA 24 16861 CFTR-Intron2-1762 + AGAGUAAGAAGCUAAAUA18 16862 CFTR-Intron2-1763 + CAGAGUAAGAAGCUAAAUA 19 16863CFTR-Intron2-287 + UCAGAGUAAGAAGCUAAAUA 20 15387 CFTR-Intron2-1764 +CUCAGAGUAAGAAGCUAAAUA 21 16864 CFTR-Intron2-1765 +ACUCAGAGUAAGAAGCUAAAUA 22 16865 CFTR-Intron2-1766 +UACUCAGAGUAAGAAGCUAAAUA 23 16866 CFTR-Intron2-1767 +UUACUCAGAGUAAGAAGCUAAAUA 24 16867 CFTR-Intron2-1768 + AAACAAACAAAAAACAUA18 16868 CFTR-Intron2-1769 + CAAACAAACAAAAAACAUA 19 16869CFTR-Intron2-1770 + ACAAACAAACAAAAAACAUA 20 16870 CFTR-Intron2-1771 +CACAAACAAACAAAAAACAUA 21 16871 CFTR-Intron2-1772 +ACACAAACAAACAAAAAACAUA 22 16872 CFTR-Intron2-1773 +AACACAAACAAACAAAAAACAUA 23 16873 CFTR-Intron2-1774 +CAACACAAACAAACAAAAAACAUA 24 16874 CFTR-Intron2-1775 + GUUUUCUUUUAAAUACUA18 16875 CFTR-Intron2-1776 + UGUUUUCUUUUAAAUACUA 19 16876CFTR-Intron2-1777 + CUGUUUUCUUUUAAAUACUA 20 16877 CFTR-Intron2-1778 +UCUGUUUUCUUUUAAAUACUA 21 16878 CFTR-Intron2-1779 +UUCUGUUUUCUUUUAAAUACUA 22 16879 CFTR-Intron2-1780 +UUUCUGUUUUCUUUUAAAUACUA 23 16880 CFTR-Intron2-1781 +CUUUCUGUUUUCUUUUAAAUACUA 24 16881 CFTR-Intron2-1782 + GGGGGACUACCAUUCCUA18 16882 CFTR-Intron2-1783 + GGGGGGACUACCAUUCCUA 19 16883CFTR-Intron2-1784 + GGGGGGGACUACCAUUCCUA 20 16884 CFTR-Intron2-1785 +UGGGGGGGACUACCAUUCCUA 21 16885 CFTR-Intron2-1786 +AUGGGGGGGACUACCAUUCCUA 22 16886 CFTR-Intron2-1787 +UAUGGGGGGGACUACCAUUCCUA 23 16887 CFTR-Intron2-1788 +UUAUGGGGGGGACUACCAUUCCUA 24 16888 CFTR-Intron2-1789 + UCCCCUAGAAGCUUGCUA18 16889 CFTR-Intron2-1790 + AUCCCCUAGAAGCUUGCUA 19 16890CFTR-Intron2-1791 + CAUCCCCUAGAAGCUUGCUA 20 16891 CFTR-Intron2-1792 +GCAUCCCCUAGAAGCUUGCUA 21 16892 CFTR-Intron2-1793 +GGCAUCCCCUAGAAGCUUGCUA 22 16893 CFTR-Intron2-1794 +UGGCAUCCCCUAGAAGCUUGCUA 23 16894 CFTR-Intron2-1795 +UUGGCAUCCCCUAGAAGCUUGCUA 24 16895 CFTR-Intron2-1796 + UGGCUCUAAAUCACUCUA18 16896 CFTR-Intron2-1797 + AUGGCUCUAAAUCACUCUA 19 16897CFTR-Intron2-1798 + CAUGGCUCUAAAUCACUCUA 20 16898 CFTR-Intron2-1799 +ACAUGGCUCUAAAUCACUCUA 21 16899 CFTR-Intron2-1800 +AACAUGGCUCUAAAUCACUCUA 22 16900 CFTR-Intron2-1801 +AAACAUGGCUCUAAAUCACUCUA 23 16901 CFTR-Intron2-1802 +UAAACAUGGCUCUAAAUCACUCUA 24 16902 CFTR-Intron2-1803 + GUAAAUGAAAGUGAAGUA18 16903 CFTR-Intron2-1804 + UGUAAAUGAAAGUGAAGUA 19 16904CFTR-Intron2-1805 + AUGUAAAUGAAAGUGAAGUA 20 16905 CFTR-Intron2-1806 +GAUGUAAAUGAAAGUGAAGUA 21 16906 CFTR-Intron2-1807 +AGAUGUAAAUGAAAGUGAAGUA 22 16907 CFTR-Intron2-1808 +GAGAUGUAAAUGAAAGUGAAGUA 23 16908 CFTR-Intron2-1809 +UGAGAUGUAAAUGAAAGUGAAGUA 24 16909 CFTR-Intron2-1810 + CUUAAUUUUCAAACUGUA18 16910 CFTR-Intron2-1811 + UCUUAAUUUUCAAACUGUA 19 16911CFTR-Intron2-1812 + AUCUUAAUUUUCAAACUGUA 20 16912 CFTR-Intron2-1813 +CAUCUUAAUUUUCAAACUGUA 21 16913 CFTR-Intron2-1814 +UCAUCUUAAUUUUCAAACUGUA 22 16914 CFTR-Intron2-1815 +AUCAUCUUAAUUUUCAAACUGUA 23 16915 CFTR-Intron2-1816 +UAUCAUCUUAAUUUUCAAACUGUA 24 16916 CFTR-Intron2-1817 + UGCCACUGAUUUCUGUUA18 16917 CFTR-Intron2-1818 + UUGCCACUGAUUUCUGUUA 19 16918CFTR-Intron2-1819 + AUUGCCACUGAUUUCUGUUA 20 16919 CFTR-Intron2-1820 +UAUUGCCACUGAUUUCUGUUA 21 16920 CFTR-Intron2-1821 +UUAUUGCCACUGAUUUCUGUUA 22 16921 CFTR-Intron2-1822 +GUUAUUGCCACUGAUUUCUGUUA 23 16922 CFTR-Intron2-1823 +AGUUAUUGCCACUGAUUUCUGUUA 24 16923 CFTR-Intron2-1824 + AAACUGAGAGAUUCUUUA18 16924 CFTR-Intron2-1825 + GAAACUGAGAGAUUCUUUA 19 16925CFTR-Intron2-57 + GGAAACUGAGAGAUUCUUUA 20 15157 CFTR-Intron2-1826 +AGGAAACUGAGAGAUUCUUUA 21 16926 CFTR-Intron2-1827 +AAGGAAACUGAGAGAUUCUUUA 22 16927 CFTR-Intron2-1828 +AAAGGAAACUGAGAGAUUCUUUA 23 16928 CFTR-Intron2-1829 +GAAAGGAAACUGAGAGAUUCUUUA 24 16929 CFTR-Intron2-1830 + GGGGGAUACAGUGAAAAC18 16930 CFTR-Intron2-1831 + UGGGGGAUACAGUGAAAAC 19 16931CFTR-Intron2-297 + AUGGGGGAUACAGUGAAAAC 20 15397 CFTR-Intron2-1832 +CAUGGGGGAUACAGUGAAAAC 21 16932 CFTR-Intron2-1833 +ACAUGGGGGAUACAGUGAAAAC 22 16933 CFTR-Intron2-1834 +AACAUGGGGGAUACAGUGAAAAC 23 16934 CFTR-Intron2-1835 +CAACAUGGGGGAUACAGUGAAAAC 24 16935 CFTR-Intron2-1836 + UUCUUUAAUGGGUGAAAC18 16936 CFTR-Intron2-1837 + UUUCUUUAAUGGGUGAAAC 19 16937CFTR-Intron2-1838 + AUUUCUUUAAUGGGUGAAAC 20 16938 CFTR-Intron2-1839 +AAUUUCUUUAAUGGGUGAAAC 21 16939 CFTR-Intron2-1840 +GAAUUUCUUUAAUGGGUGAAAC 22 16940 CFTR-Intron2-1841 +GGAAUUUCUUUAAUGGGUGAAAC 23 16941 CFTR-Intron2-1842 +GGGAAUUUCUUUAAUGGGUGAAAC 24 16942 CFTR-Intron2-1843 + UUUUUAAAUUGAAUCAAC18 16943 CFTR-Intron2-1844 + UUUUUUAAAUUGAAUCAAC 19 16944CFTR-Intron2-1845 + AUUUUUUAAAUUGAAUCAAC 20 16945 CFTR-Intron2-1846 +UAUUUUUUAAAUUGAAUCAAC 21 16946 CFTR-Intron2-1847 +AUAUUUUUUAAAUUGAAUCAAC 22 16947 CFTR-Intron2-1848 +UAUAUUUUUUAAAUUGAAUCAAC 23 16948 CFTR-Intron2-1849 +GUAUAUUUUUUAAAUUGAAUCAAC 24 16949 CFTR-Intron2-1850 + GGAGCAAAGAGUUCUAAC18 16950 CFTR-Intron2-1851 + AGGAGCAAAGAGUUCUAAC 19 16951CFTR-Intron2-1852 + UAGGAGCAAAGAGUUCUAAC 20 16952 CFTR-Intron2-1853 +AUAGGAGCAAAGAGUUCUAAC 21 16953 CFTR-Intron2-1854 +GAUAGGAGCAAAGAGUUCUAAC 22 16954 CFTR-Intron2-1855 +AGAUAGGAGCAAAGAGUUCUAAC 23 16955 CFTR-Intron2-1856 +AAGAUAGGAGCAAAGAGUUCUAAC 24 16956 CFTR-Intron2-1857 + CAACCAUCUGGCAACCAC18 16957 CFTR-Intron2-1858 + UCAACCAUCUGGCAACCAC 19 16958CFTR-Intron2-1859 + UUCAACCAUCUGGCAACCAC 20 16959 CFTR-Intron2-1860 +CUUCAACCAUCUGGCAACCAC 21 16960 CFTR-Intron2-1861 +UCUUCAACCAUCUGGCAACCAC 22 16961 CFTR-Intron2-1862 +UUCUUCAACCAUCUGGCAACCAC 23 16962 CFTR-Intron2-1863 +GUUCUUCAACCAUCUGGCAACCAC 24 16963 CFTR-Intron2-1864 + AAAAAUUUCAUGAACCAC18 16964 CFTR-Intron2-1865 + GAAAAAUUUCAUGAACCAC 19 16965CFTR-Intron2-1866 + UGAAAAAUUUCAUGAACCAC 20 16966 CFTR-Intron2-1867 +AUGAAAAAUUUCAUGAACCAC 21 16967 CFTR-Intron2-1868 +GAUGAAAAAUUUCAUGAACCAC 22 16968 CFTR-Intron2-1869 +AGAUGAAAAAUUUCAUGAACCAC 23 16969 CFTR-Intron2-1870 +GAGAUGAAAAAUUUCAUGAACCAC 24 16970 CFTR-Intron2-1871 + UGUGAAAAAGUGGUCCAC18 16971 CFTR-Intron2-1872 + AUGUGAAAAAGUGGUCCAC 19 16972CFTR-Intron2-1873 + AAUGUGAAAAAGUGGUCCAC 20 16973 CFTR-Intron2-1874 +CAAUGUGAAAAAGUGGUCCAC 21 16974 CFTR-Intron2-1875 +UCAAUGUGAAAAAGUGGUCCAC 22 16975 CFTR-Intron2-1876 +UUCAAUGUGAAAAAGUGGUCCAC 23 16976 CFTR-Intron2-1877 +GUUCAAUGUGAAAAAGUGGUCCAC 24 16977 CFTR-Intron2-1878 + AGGCCCUAUUCUAGGCAC18 16978 CFTR-Intron2-1879 + CAGGCCCUAUUCUAGGCAC 19 16979CFTR-Intron2-1880 + CCAGGCCCUAUUCUAGGCAC 20 16980 CFTR-Intron2-1881 +GCCAGGCCCUAUUCUAGGCAC 21 16981 CFTR-Intron2-1882 +UGCCAGGCCCUAUUCUAGGCAC 22 16982 CFTR-Intron2-1883 +AUGCCAGGCCCUAUUCUAGGCAC 23 16983 CFTR-Intron2-1884 +UAUGCCAGGCCCUAUUCUAGGCAC 24 16984 CFTR-Intron2-1885 + CUGAGGCAGGAGAAUCAC18 16985 CFTR-Intron2-1886 + GCUGAGGCAGGAGAAUCAC 19 16986CFTR-Intron2-1887 + GGCUGAGGCAGGAGAAUCAC 20 16987 CFTR-Intron2-1888 +AGGCUGAGGCAGGAGAAUCAC 21 16988 CFTR-Intron2-1889 +GAGGCUGAGGCAGGAGAAUCAC 22 16989 CFTR-Intron2-1890 +AGAGGCUGAGGCAGGAGAAUCAC 23 16990 CFTR-Intron2-1891 +GAGAGGCUGAGGCAGGAGAAUCAC 24 16991 CFTR-Intron2-1892 + CCAAGGCGGGCAGAUCAC18 16992 CFTR-Intron2-1893 + GCCAAGGCGGGCAGAUCAC 19 16993CFTR-Intron2-1894 + GGCCAAGGCGGGCAGAUCAC 20 16994 CFTR-Intron2-1895 +AGGCCAAGGCGGGCAGAUCAC 21 16995 CFTR-Intron2-1896 +GAGGCCAAGGCGGGCAGAUCAC 22 16996 CFTR-Intron2-1897 +GGAGGCCAAGGCGGGCAGAUCAC 23 16997 CFTR-Intron2-1898 +GGGAGGCCAAGGCGGGCAGAUCAC 24 16998 CFTR-Intron2-1899 + CCAAGGUGGGCAGAUCAC18 16999 CFTR-Intron2-1900 + GCCAAGGUGGGCAGAUCAC 19 17000CFTR-Intron2-1901 + GGCCAAGGUGGGCAGAUCAC 20 17001 CFTR-Intron2-1902 +AGGCCAAGGUGGGCAGAUCAC 21 17002 CFTR-Intron2-1903 +GAGGCCAAGGUGGGCAGAUCAC 22 17003 CFTR-Intron2-1904 +GGAGGCCAAGGUGGGCAGAUCAC 23 17004 CFTR-Intron2-1905 +GGGAGGCCAAGGUGGGCAGAUCAC 24 17005 CFTR-Intron2-1906 + AAAGUGAAGUAGAGAGAC18 17006 CFTR-Intron2-1907 + GAAAGUGAAGUAGAGAGAC 19 17007CFTR-Intron2-1908 + UGAAAGUGAAGUAGAGAGAC 20 17008 CFTR-Intron2-1909 +AUGAAAGUGAAGUAGAGAGAC 21 17009 CFTR-Intron2-1910 +AAUGAAAGUGAAGUAGAGAGAC 22 17010 CFTR-Intron2-1911 +AAAUGAAAGUGAAGUAGAGAGAC 23 17011 CFTR-Intron2-1912 +UAAAUGAAAGUGAAGUAGAGAGAC 24 17012 CFTR-Intron2-1913 + GCCUGUAAACCCAGCUAC18 17013 CFTR-Intron2-1914 + UGCCUGUAAACCCAGCUAC 19 17014CFTR-Intron2-1915 + GUGCCUGUAAACCCAGCUAC 20 17015 CFTR-Intron2-1916 +AGUGCCUGUAAACCCAGCUAC 21 17016 CFTR-Intron2-1917 +GAGUGCCUGUAAACCCAGCUAC 22 17017 CFTR-Intron2-1918 +CGAGUGCCUGUAAACCCAGCUAC 23 17018 CFTR-Intron2-1919 +GCGAGUGCCUGUAAACCCAGCUAC 24 17019 CFTR-Intron2-1920 + AUAGAAUGGGGUAGUUAC18 17020 CFTR-Intron2-1921 + AAUAGAAUGGGGUAGUUAC 19 17021CFTR-Intron2-1922 + AAAUAGAAUGGGGUAGUUAC 20 17022 CFTR-Intron2-1923 +AAAAUAGAAUGGGGUAGUUAC 21 17023 CFTR-Intron2-1924 +AAAAAUAGAAUGGGGUAGUUAC 22 17024 CFTR-Intron2-1925 +AAAAAAUAGAAUGGGGUAGUUAC 23 17025 CFTR-Intron2-1926 +GAAAAAAUAGAAUGGGGUAGUUAC 24 17026 CFTR-Intron2-1927 + AGGAGAAUCACUUGAACC18 17027 CFTR-Intron2-1928 + CAGGAGAAUCACUUGAACC 19 17028CFTR-Intron2-1929 + GCAGGAGAAUCACUUGAACC 20 17029 CFTR-Intron2-1930 +GGCAGGAGAAUCACUUGAACC 21 17030 CFTR-Intron2-1931 +AGGCAGGAGAAUCACUUGAACC 22 17031 CFTR-Intron2-1932 +GAGGCAGGAGAAUCACUUGAACC 23 17032 CFTR-Intron2-1933 +UGAGGCAGGAGAAUCACUUGAACC 24 17033 CFTR-Intron2-1934 + CUGAGAUUCGCUUGAACC18 17034 CFTR-Intron2-1935 + ACUGAGAUUCGCUUGAACC 19 17035CFTR-Intron2-1936 + GACUGAGAUUCGCUUGAACC 20 17036 CFTR-Intron2-1937 +AGACUGAGAUUCGCUUGAACC 21 17037 CFTR-Intron2-1938 +GAGACUGAGAUUCGCUUGAACC 22 17038 CFTR-Intron2-1939 +GGAGACUGAGAUUCGCUUGAACC 23 17039 CFTR-Intron2-1940 +AGGAGACUGAGAUUCGCUUGAACC 24 17040 CFTR-Intron2-1941 + GAGCAAAGAGUUCUAACC18 17041 CFTR-Intron2-1942 + GGAGCAAAGAGUUCUAACC 19 17042CFTR-Intron2-305 + AGGAGCAAAGAGUUCUAACC 20 15405 CFTR-Intron2-1943 +UAGGAGCAAAGAGUUCUAACC 21 17043 CFTR-Intron2-1944 +AUAGGAGCAAAGAGUUCUAACC 22 17044 CFTR-Intron2-1945 +GAUAGGAGCAAAGAGUUCUAACC 23 17045 CFTR-Intron2-1946 +AGAUAGGAGCAAAGAGUUCUAACC 24 17046 CFTR-Intron2-1947 + AAGUGAAGUAGAGAGACC18 17047 CFTR-Intron2-1948 + AAAGUGAAGUAGAGAGACC 19 17048CFTR-Intron2-60 + GAAAGUGAAGUAGAGAGACC 20 15160 CFTR-Intron2-1949 +UGAAAGUGAAGUAGAGAGACC 21 17049 CFTR-Intron2-1950 +AUGAAAGUGAAGUAGAGAGACC 22 17050 CFTR-Intron2-1951 +AAUGAAAGUGAAGUAGAGAGACC 23 17051 CFTR-Intron2-1952 +AAAUGAAAGUGAAGUAGAGAGACC 24 17052 CFTR-Intron2-1953 + AAGAGGUCUCUAGUGACC18 17053 CFTR-Intron2-1954 + UAAGAGGUCUCUAGUGACC 19 17054CFTR-Intron2-1955 + AUAAGAGGUCUCUAGUGACC 20 17055 CFTR-Intron2-1956 +CAUAAGAGGUCUCUAGUGACC 21 17056 CFTR-Intron2-1957 +UCAUAAGAGGUCUCUAGUGACC 22 17057 CFTR-Intron2-1958 +UUCAUAAGAGGUCUCUAGUGACC 23 17058 CFTR-Intron2-1959 +UUUCAUAAGAGGUCUCUAGUGACC 24 17059 CFTR-Intron2-1960 + GGAGAAUCACUUGAACCC18 17060 CFTR-Intron2-1961 + AGGAGAAUCACUUGAACCC 19 17061CFTR-Intron2-636 + CAGGAGAAUCACUUGAACCC 20 15736 CFTR-Intron2-1962 +GCAGGAGAAUCACUUGAACCC 21 17062 CFTR-Intron2-1963 +GGCAGGAGAAUCACUUGAACCC 22 17063 CFTR-Intron2-1964 +AGGCAGGAGAAUCACUUGAACCC 23 17064 CFTR-Intron2-1965 +GAGGCAGGAGAAUCACUUGAACCC 24 17065 CFTR-Intron2-1966 + UGAGAUUCGCUUGAACCC18 17066 CFTR-Intron2-1967 + CUGAGAUUCGCUUGAACCC 19 17067CFTR-Intron2-637 + ACUGAGAUUCGCUUGAACCC 20 15737 CFTR-Intron2-1968 +GACUGAGAUUCGCUUGAACCC 21 17068 CFTR-Intron2-1969 +AGACUGAGAUUCGCUUGAACCC 22 17069 CFTR-Intron2-1970 +GAGACUGAGAUUCGCUUGAACCC 23 17070 CFTR-Intron2-1971 +GGAGACUGAGAUUCGCUUGAACCC 24 17071 CFTR-Intron2-1972 + AUGGAUCUUGGCAUCCCC18 17072 CFTR-Intron2-1973 + CAUGGAUCUUGGCAUCCCC 19 17073CFTR-Intron2-1974 + GCAUGGAUCUUGGCAUCCCC 20 17074 CFTR-Intron2-1975 +AGCAUGGAUCUUGGCAUCCCC 21 17075 CFTR-Intron2-1976 +AAGCAUGGAUCUUGGCAUCCCC 22 17076 CFTR-Intron2-1977 +UAAGCAUGGAUCUUGGCAUCCCC 23 17077 CFTR-Intron2-1978 +CUAAGCAUGGAUCUUGGCAUCCCC 24 17078 CFTR-Intron2-1979 + CUAGACUAUGAGUGGCCC18 17079 CFTR-Intron2-1980 + UCUAGACUAUGAGUGGCCC 19 17080CFTR-Intron2-1981 + UUCUAGACUAUGAGUGGCCC 20 17081 CFTR-Intron2-1982 +AUUCUAGACUAUGAGUGGCCC 21 17082 CFTR-Intron2-1983 +CAUUCUAGACUAUGAGUGGCCC 22 17083 CFTR-Intron2-1984 +UCAUUCUAGACUAUGAGUGGCCC 23 17084 CFTR-Intron2-1985 +UUCAUUCUAGACUAUGAGUGGCCC 24 17085 CFTR-Intron2-1986 + AUUACCUUAAGACUUCCC18 17086 CFTR-Intron2-1987 + CAUUACCUUAAGACUUCCC 19 17087CFTR-Intron2-314 + CCAUUACCUUAAGACUUCCC 20 15414 CFTR-Intron2-1988 +GCCAUUACCUUAAGACUUCCC 21 17088 CFTR-Intron2-1989 +AGCCAUUACCUUAAGACUUCCC 22 17089 CFTR-Intron2-1990 +UAGCCAUUACCUUAAGACUUCCC 23 17090 CFTR-Intron2-1991 +GUAGCCAUUACCUUAAGACUUCCC 24 17091 CFTR-Intron2-1992 + GGAUCAGAUGGGAAAGCC18 17092 CFTR-Intron2-1993 + UGGAUCAGAUGGGAAAGCC 19 17093CFTR-Intron2-1994 + AUGGAUCAGAUGGGAAAGCC 20 17094 CFTR-Intron2-1995 +AAUGGAUCAGAUGGGAAAGCC 21 17095 CFTR-Intron2-1996 +AAAUGGAUCAGAUGGGAAAGCC 22 17096 CFTR-Intron2-1997 +GAAAUGGAUCAGAUGGGAAAGCC 23 17097 CFTR-Intron2-1998 +AGAAAUGGAUCAGAUGGGAAAGCC 24 17098 CFTR-Intron2-1999 + GAUUUUUCACAUUUAGCC18 17099 CFTR-Intron2-2000 + GGAUUUUUCACAUUUAGCC 19 17100CFTR-Intron2-2001 + GGGAUUUUUCACAUUUAGCC 20 17101 CFTR-Intron2-2002 +UGGGAUUUUUCACAUUUAGCC 21 17102 CFTR-Intron2-2003 +CUGGGAUUUUUCACAUUUAGCC 22 17103 CFTR-Intron2-2004 +UCUGGGAUUUUUCACAUUUAGCC 23 17104 CFTR-Intron2-2005 +CUCUGGGAUUUUUCACAUUUAGCC 24 17105 CFTR-Intron2-2006 + GGGGGGGACUACCAUUCC18 17106 CFTR-Intron2-2007 + UGGGGGGGACUACCAUUCC 19 17107CFTR-Intron2-2008 + AUGGGGGGGACUACCAUUCC 20 17108 CFTR-Intron2-2009 +UAUGGGGGGGACUACCAUUCC 21 17109 CFTR-Intron2-2010 +UUAUGGGGGGGACUACCAUUCC 22 17110 CFTR-Intron2-2011 +UUUAUGGGGGGGACUACCAUUCC 23 17111 CFTR-Intron2-2012 +CUUUAUGGGGGGGACUACCAUUCC 24 17112 CFTR-Intron2-2013 + CAUUACCUUAAGACUUCC18 17113 CFTR-Intron2-2014 + CCAUUACCUUAAGACUUCC 19 17114CFTR-Intron2-2015 + GCCAUUACCUUAAGACUUCC 20 17115 CFTR-Intron2-2016 +AGCCAUUACCUUAAGACUUCC 21 17116 CFTR-Intron2-2017 +UAGCCAUUACCUUAAGACUUCC 22 17117 CFTR-Intron2-2018 +GUAGCCAUUACCUUAAGACUUCC 23 17118 CFTR-Intron2-2019 +AGUAGCCAUUACCUUAAGACUUCC 24 17119 CFTR-Intron2-2020 + GCACCAUUACACUCCAGC18 17120 CFTR-Intron2-2021 + UGCACCAUUACACUCCAGC 19 17121CFTR-Intron2-2022 + UUGCACCAUUACACUCCAGC 20 17122 CFTR-Intron2-2023 +AUUGCACCAUUACACUCCAGC 21 17123 CFTR-Intron2-2024 +AAUUGCACCAUUACACUCCAGC 22 17124 CFTR-Intron2-2025 +AAAUUGCACCAUUACACUCCAGC 23 17125 CFTR-Intron2-2026 +AAAAUUGCACCAUUACACUCCAGC 24 17126 CFTR-Intron2-2027 + CAGGAGACUGAGAUUCGC18 17127 CFTR-Intron2-2028 + UCAGGAGACUGAGAUUCGC 19 17128CFTR-Intron2-2029 + CUCAGGAGACUGAGAUUCGC 20 17129 CFTR-Intron2-2030 +ACUCAGGAGACUGAGAUUCGC 21 17130 CFTR-Intron2-2031 +UACUCAGGAGACUGAGAUUCGC 22 17131 CFTR-Intron2-2032 +CUACUCAGGAGACUGAGAUUCGC 23 17132 CFTR-Intron2-2033 +GCUACUCAGGAGACUGAGAUUCGC 24 17133 CFTR-Intron2-2034 + UACUCGAGAGGCUGAGGC18 17134 CFTR-Intron2-2035 + CUACUCGAGAGGCUGAGGC 19 17135CFTR-Intron2-461 + GCUACUCGAGAGGCUGAGGC 20 15561 CFTR-Intron2-2036 +AGCUACUCGAGAGGCUGAGGC 21 17136 CFTR-Intron2-2037 +CAGCUACUCGAGAGGCUGAGGC 22 17137 CFTR-Intron2-2038 +CCAGCUACUCGAGAGGCUGAGGC 23 17138 CFTR-Intron2-2039 +CCCAGCUACUCGAGAGGCUGAGGC 24 17139 CFTR-Intron2-2040 + UCUAAAGGAGUAAUAGGC18 17140 CFTR-Intron2-2041 + CUCUAAAGGAGUAAUAGGC 19 17141CFTR-Intron2-662 + ACUCUAAAGGAGUAAUAGGC 20 15762 CFTR-Intron2-2042 +CACUCUAAAGGAGUAAUAGGC 21 17142 CFTR-Intron2-2043 +UCACUCUAAAGGAGUAAUAGGC 22 17143 CFTR-Intron2-2044 +AUCACUCUAAAGGAGUAAUAGGC 23 17144 CFTR-Intron2-2045 +AAUCACUCUAAAGGAGUAAUAGGC 24 17145 CFTR-Intron2-2046 + CAGGCCUGUGCUGUUGGC18 17146 CFTR-Intron2-2047 + UCAGGCCUGUGCUGUUGGC 19 17147CFTR-Intron2-2048 + AUCAGGCCUGUGCUGUUGGC 20 17148 CFTR-Intron2-2049 +CAUCAGGCCUGUGCUGUUGGC 21 17149 CFTR-Intron2-2050 +GCAUCAGGCCUGUGCUGUUGGC 22 17150 CFTR-Intron2-2051 +GGCAUCAGGCCUGUGCUGUUGGC 23 17151 CFTR-Intron2-2052 +UGGCAUCAGGCCUGUGCUGUUGGC 24 17152 CFTR-Intron2-2053 + CAUAUCCUGACUACAAUC18 17153 CFTR-Intron2-2054 + UCAUAUCCUGACUACAAUC 19 17154CFTR-Intron2-2055 + UUCAUAUCCUGACUACAAUC 20 17155 CFTR-Intron2-2056 +GUUCAUAUCCUGACUACAAUC 21 17156 CFTR-Intron2-2057 +AGUUCAUAUCCUGACUACAAUC 22 17157 CFTR-Intron2-2058 +AAGUUCAUAUCCUGACUACAAUC 23 17158 CFTR-Intron2-2059 +AAAGUUCAUAUCCUGACUACAAUC 24 17159 CFTR-Intron2-2060 + CUGUAAACCCAGCUACUC18 17160 CFTR-Intron2-2061 + CCUGUAAACCCAGCUACUC 19 17161CFTR-Intron2-2062 + GCCUGUAAACCCAGCUACUC 20 17162 CFTR-Intron2-2063 +UGCCUGUAAACCCAGCUACUC 21 17163 CFTR-Intron2-2064 +GUGCCUGUAAACCCAGCUACUC 22 17164 CFTR-Intron2-2065 +AGUGCCUGUAAACCCAGCUACUC 23 17165 CFTR-Intron2-2066 +GAGUGCCUGUAAACCCAGCUACUC 24 17166 CFTR-Intron2-2067 + CUGUAGUCCCAGCUACUC18 17167 CFTR-Intron2-2068 + CCUGUAGUCCCAGCUACUC 19 17168CFTR-Intron2-463 + GCCUGUAGUCCCAGCUACUC 20 15563 CFTR-Intron2-2069 +UGCCUGUAGUCCCAGCUACUC 21 17169 CFTR-Intron2-2070 +AUGCCUGUAGUCCCAGCUACUC 22 17170 CFTR-Intron2-2071 +CAUGCCUGUAGUCCCAGCUACUC 23 17171 CFTR-Intron2-2072 +GCAUGCCUGUAGUCCCAGCUACUC 24 17172 CFTR-Intron2-2073 + UGAGGAGAAGGCAAGGUC18 17173 CFTR-Intron2-2074 + CUGAGGAGAAGGCAAGGUC 19 17174CFTR-Intron2-333 + CCUGAGGAGAAGGCAAGGUC 20 15433 CFTR-Intron2-2075 +ACCUGAGGAGAAGGCAAGGUC 21 17175 CFTR-Intron2-2076 +UACCUGAGGAGAAGGCAAGGUC 22 17176 CFTR-Intron2-2077 +UUACCUGAGGAGAAGGCAAGGUC 23 17177 CFTR-Intron2-2078 +GUUACCUGAGGAGAAGGCAAGGUC 24 17178 CFTR-Intron2-2079 + UGGUGGAAACCAUACUUC18 17179 CFTR-Intron2-2080 + AUGGUGGAAACCAUACUUC 19 17180CFTR-Intron2-669 + CAUGGUGGAAACCAUACUUC 20 15769 CFTR-Intron2-2081 +ACAUGGUGGAAACCAUACUUC 21 17181 CFTR-Intron2-2082 +AACAUGGUGGAAACCAUACUUC 22 17182 CFTR-Intron2-2083 +GAACAUGGUGGAAACCAUACUUC 23 17183 CFTR-Intron2-2084 +GGAACAUGGUGGAAACCAUACUUC 24 17184 CFTR-Intron2-2085 + UCACAUAGUUCAGGCUUC18 17185 CFTR-Intron2-2086 + UUCACAUAGUUCAGGCUUC 19 17186CFTR-Intron2-2087 + CUUCACAUAGUUCAGGCUUC 20 17187 CFTR-Intron2-2088 +UCUUCACAUAGUUCAGGCUUC 21 17188 CFTR-Intron2-2089 +GUCUUCACAUAGUUCAGGCUUC 22 17189 CFTR-Intron2-2090 +GGUCUUCACAUAGUUCAGGCUUC 23 17190 CFTR-Intron2-2091 +AGGUCUUCACAUAGUUCAGGCUUC 24 17191 CFTR-Intron2-2092 + ACAGAGAUGAAAAAUUUC18 17192 CFTR-Intron2-2093 + UACAGAGAUGAAAAAUUUC 19 17193CFTR-Intron2-2094 + GUACAGAGAUGAAAAAUUUC 20 17194 CFTR-Intron2-2095 +UGUACAGAGAUGAAAAAUUUC 21 17195 CFTR-Intron2-2096 +CUGUACAGAGAUGAAAAAUUUC 22 17196 CFTR-Intron2-2097 +ACUGUACAGAGAUGAAAAAUUUC 23 17197 CFTR-Intron2-2098 +AACUGUACAGAGAUGAAAAAUUUC 24 17198 CFTR-Intron2-2099 + ACCAAAUGUGUAUUUUUC18 17199 CFTR-Intron2-2100 + AACCAAAUGUGUAUUUUUC 19 17200CFTR-Intron2-670 + AAACCAAAUGUGUAUUUUUC 20 15770 CFTR-Intron2-2101 +GAAACCAAAUGUGUAUUUUUC 21 17201 CFTR-Intron2-2102 +UGAAACCAAAUGUGUAUUUUUC 22 17202 CFTR-Intron2-2103 +CUGAAACCAAAUGUGUAUUUUUC 23 17203 CFTR-Intron2-2104 +UCUGAAACCAAAUGUGUAUUUUUC 24 17204 CFTR-Intron2-2105 + UCACCUUCUCCAUCAAAG18 17205 CFTR-Intron2-2106 + CUCACCUUCUCCAUCAAAG 19 17206CFTR-Intron2-2107 + ACUCACCUUCUCCAUCAAAG 20 17207 CFTR-Intron2-2108 +GACUCACCUUCUCCAUCAAAG 21 17208 CFTR-Intron2-2109 +AGACUCACCUUCUCCAUCAAAG 22 17209 CFTR-Intron2-2110 +CAGACUCACCUUCUCCAUCAAAG 23 17210 CFTR-Intron2-2111 +GCAGACUCACCUUCUCCAUCAAAG 24 17211 CFTR-Intron2-2112 + AAACUUAGAUAUUCAAAG18 17212 CFTR-Intron2-2113 + AAAACUUAGAUAUUCAAAG 19 17213CFTR-Intron2-2114 + UAAAACUUAGAUAUUCAAAG 20 17214 CFTR-Intron2-2115 +UUAAAACUUAGAUAUUCAAAG 21 17215 CFTR-Intron2-2116 +AUUAAAACUUAGAUAUUCAAAG 22 17216 CFTR-Intron2-2117 +AAUUAAAACUUAGAUAUUCAAAG 23 17217 CFTR-Intron2-2118 +CAAUUAAAACUUAGAUAUUCAAAG 24 17218 CFTR-Intron2-2119 + ACACUUUGGGAGGCCAAG18 17219 CFTR-Intron2-2120 + AACACUUUGGGAGGCCAAG 19 17220CFTR-Intron2-2121 + CAACACUUUGGGAGGCCAAG 20 17221 CFTR-Intron2-2122 +CCAACACUUUGGGAGGCCAAG 21 17222 CFTR-Intron2-2123 +CCCAACACUUUGGGAGGCCAAG 22 17223 CFTR-Intron2-2124 +UCCCAACACUUUGGGAGGCCAAG 23 17224 CFTR-Intron2-2125 +AUCCCAACACUUUGGGAGGCCAAG 24 17225 CFTR-Intron2-2126 + GCAUUUUGGGAGGCCAAG18 17226 CFTR-Intron2-2127 + AGCAUUUUGGGAGGCCAAG 19 17227CFTR-Intron2-2128 + CAGCAUUUUGGGAGGCCAAG 20 17228 CFTR-Intron2-2129 +CCAGCAUUUUGGGAGGCCAAG 21 17229 CFTR-Intron2-2130 +CCCAGCAUUUUGGGAGGCCAAG 22 17230 CFTR-Intron2-2131 +UCCCAGCAUUUUGGGAGGCCAAG 23 17231 CFTR-Intron2-2132 +AUCCCAGCAUUUUGGGAGGCCAAG 24 17232 CFTR-Intron2-2133 + AUGUAAAUGAAAGUGAAG18 17233 CFTR-Intron2-2134 + GAUGUAAAUGAAAGUGAAG 19 17234CFTR-Intron2-2135 + AGAUGUAAAUGAAAGUGAAG 20 17235 CFTR-Intron2-2136 +GAGAUGUAAAUGAAAGUGAAG 21 17236 CFTR-Intron2-2137 +UGAGAUGUAAAUGAAAGUGAAG 22 17237 CFTR-Intron2-2138 +CUGAGAUGUAAAUGAAAGUGAAG 23 17238 CFTR-Intron2-2139 +GCUGAGAUGUAAAUGAAAGUGAAG 24 17239 CFTR-Intron2-2140 + UAAAGGAGUAAUACACAG18 17240 CFTR-Intron2-2141 + AUAAAGGAGUAAUACACAG 19 17241CFTR-Intron2-2142 + CAUAAAGGAGUAAUACACAG 20 17242 CFTR-Intron2-2143 +ACAUAAAGGAGUAAUACACAG 21 17243 CFTR-Intron2-2144 +AACAUAAAGGAGUAAUACACAG 22 17244 CFTR-Intron2-2145 +AAACAUAAAGGAGUAAUACACAG 23 17245 CFTR-Intron2-2146 +AAAACAUAAAGGAGUAAUACACAG 24 17246 CFTR-Intron2-2147 + GUGAAGUAGAGAGACCAG18 17247 CFTR-Intron2-2148 + AGUGAAGUAGAGAGACCAG 19 17248CFTR-Intron2-2149 + AAGUGAAGUAGAGAGACCAG 20 17249 CFTR-Intron2-2150 +AAAGUGAAGUAGAGAGACCAG 21 17250 CFTR-Intron2-2151 +GAAAGUGAAGUAGAGAGACCAG 22 17251 CFTR-Intron2-2152 +UGAAAGUGAAGUAGAGAGACCAG 23 17252 CFTR-Intron2-2153 +AUGAAAGUGAAGUAGAGAGACCAG 24 17253 CFTR-Intron2-2154 + AUACCAGGCCCAGAUCAG18 17254 CFTR-Intron2-2155 + CAUACCAGGCCCAGAUCAG 19 17255CFTR-Intron2-2156 + ACAUACCAGGCCCAGAUCAG 20 17256 CFTR-Intron2-2157 +CACAUACCAGGCCCAGAUCAG 21 17257 CFTR-Intron2-2158 +CCACAUACCAGGCCCAGAUCAG 22 17258 CFTR-Intron2-2159 +ACCACAUACCAGGCCCAGAUCAG 23 17259 CFTR-Intron2-2160 +GACCACAUACCAGGCCCAGAUCAG 24 17260 CFTR-Intron2-2161 + AAAGGAGAAAUGGAUCAG18 17261 CFTR-Intron2-2162 + CAAAGGAGAAAUGGAUCAG 19 17262CFTR-Intron2-2163 + UCAAAGGAGAAAUGGAUCAG 20 17263 CFTR-Intron2-2164 +AUCAAAGGAGAAAUGGAUCAG 21 17264 CFTR-Intron2-2165 +CAUCAAAGGAGAAAUGGAUCAG 22 17265 CFTR-Intron2-2166 +CCAUCAAAGGAGAAAUGGAUCAG 23 17266 CFTR-Intron2-2167 +UCCAUCAAAGGAGAAAUGGAUCAG 24 17267 CFTR-Intron2-2168 + AGGCAAUACAGACCUCAG18 17268 CFTR-Intron2-2169 + AAGGCAAUACAGACCUCAG 19 17269CFTR-Intron2-2170 + CAAGGCAAUACAGACCUCAG 20 17270 CFTR-Intron2-2171 +GCAAGGCAAUACAGACCUCAG 21 17271 CFTR-Intron2-2172 +AGCAAGGCAAUACAGACCUCAG 22 17272 CFTR-Intron2-2173 +GAGCAAGGCAAUACAGACCUCAG 23 17273 CFTR-Intron2-2174 +AGAGCAAGGCAAUACAGACCUCAG 24 17274 CFTR-Intron2-2175 + UUUUCAAACUGUACAGAG18 17275 CFTR-Intron2-2176 + AUUUUCAAACUGUACAGAG 19 17276CFTR-Intron2-2177 + AAUUUUCAAACUGUACAGAG 20 17277 CFTR-Intron2-2178 +UAAUUUUCAAACUGUACAGAG 21 17278 CFTR-Intron2-2179 +UUAAUUUUCAAACUGUACAGAG 22 17279 CFTR-Intron2-2180 +CUUAAUUUUCAAACUGUACAGAG 23 17280 CFTR-Intron2-2181 +UCUUAAUUUUCAAACUGUACAGAG 24 17281 CFTR-Intron2-2182 + GUAGAGAGACCAGGAGAG18 17282 CFTR-Intron2-2183 + AGUAGAGAGACCAGGAGAG 19 17283CFTR-Intron2-2184 + AAGUAGAGAGACCAGGAGAG 20 17284 CFTR-Intron2-2185 +GAAGUAGAGAGACCAGGAGAG 21 17285 CFTR-Intron2-2186 +UGAAGUAGAGAGACCAGGAGAG 22 17286 CFTR-Intron2-2187 +GUGAAGUAGAGAGACCAGGAGAG 23 17287 CFTR-Intron2-2188 +AGUGAAGUAGAGAGACCAGGAGAG 24 17288 CFTR-Intron2-2189 + AUCACUUGAACCCAGGAG18 17289 CFTR-Intron2-2190 + AAUCACUUGAACCCAGGAG 19 17290CFTR-Intron2-2191 + GAAUCACUUGAACCCAGGAG 20 17291 CFTR-Intron2-2192 +AGAAUCACUUGAACCCAGGAG 21 17292 CFTR-Intron2-2193 +GAGAAUCACUUGAACCCAGGAG 22 17293 CFTR-Intron2-2194 +GGAGAAUCACUUGAACCCAGGAG 23 17294 CFTR-Intron2-2195 +AGGAGAAUCACUUGAACCCAGGAG 24 17295 CFTR-Intron2-2196 + GAAACCAUACUUCAGGAG18 17296 CFTR-Intron2-2197 + GGAAACCAUACUUCAGGAG 19 17297CFTR-Intron2-2198 + UGGAAACCAUACUUCAGGAG 20 17298 CFTR-Intron2-2199 +GUGGAAACCAUACUUCAGGAG 21 17299 CFTR-Intron2-2200 +GGUGGAAACCAUACUUCAGGAG 22 17300 CFTR-Intron2-2201 +UGGUGGAAACCAUACUUCAGGAG 23 17301 CFTR-Intron2-2202 +AUGGUGGAAACCAUACUUCAGGAG 24 17302 CFTR-Intron2-2203 + AUGGGGUAGUUACCUGAG18 17303 CFTR-Intron2-2204 + AAUGGGGUAGUUACCUGAG 19 17304CFTR-Intron2-2205 + GAAUGGGGUAGUUACCUGAG 20 17305 CFTR-Intron2-2206 +AGAAUGGGGUAGUUACCUGAG 21 17306 CFTR-Intron2-2207 +UAGAAUGGGGUAGUUACCUGAG 22 17307 CFTR-Intron2-2208 +AUAGAAUGGGGUAGUUACCUGAG 23 17308 CFTR-Intron2-2209 +AAUAGAAUGGGGUAGUUACCUGAG 24 17309 CFTR-Intron2-2210 + CCACUCAGAGUGGCUGAG18 17310 CFTR-Intron2-2211 + UCCACUCAGAGUGGCUGAG 19 17311CFTR-Intron2-343 + UUCCACUCAGAGUGGCUGAG 20 15443 CFTR-Intron2-2212 +UUUCCACUCAGAGUGGCUGAG 21 17312 CFTR-Intron2-2213 +CUUUCCACUCAGAGUGGCUGAG 22 17313 CFTR-Intron2-2214 +GCUUUCCACUCAGAGUGGCUGAG 23 17314 CFTR-Intron2-2215 +UGCUUUCCACUCAGAGUGGCUGAG 24 17315 CFTR-Intron2-2216 + GGCAGAGUUUGCAGUGAG18 17316 CFTR-Intron2-2217 + AGGCAGAGUUUGCAGUGAG 19 17317CFTR-Intron2-2218 + GAGGCAGAGUUUGCAGUGAG 20 17318 CFTR-Intron2-2219 +GGAGGCAGAGUUUGCAGUGAG 21 17319 CFTR-Intron2-2220 +AGGAGGCAGAGUUUGCAGUGAG 22 17320 CFTR-Intron2-2221 +CAGGAGGCAGAGUUUGCAGUGAG 23 17321 CFTR-Intron2-2222 +CCAGGAGGCAGAGUUUGCAGUGAG 24 17322 CFTR-Intron2-2223 + UAGGUGAUGUGGUUCUAG18 17323 CFTR-Intron2-2224 + GUAGGUGAUGUGGUUCUAG 19 17324CFTR-Intron2-2225 + AGUAGGUGAUGUGGUUCUAG 20 17325 CFTR-Intron2-2226 +GAGUAGGUGAUGUGGUUCUAG 21 17326 CFTR-Intron2-2227 +AGAGUAGGUGAUGUGGUUCUAG 22 17327 CFTR-Intron2-2228 +AAGAGUAGGUGAUGUGGUUCUAG 23 17328 CFTR-Intron2-2229 +CAAGAGUAGGUGAUGUGGUUCUAG 24 17329 CFTR-Intron2-2230 + AUUUCAUGAACCACAAGG18 17330 CFTR-Intron2-2231 + AAUUUCAUGAACCACAAGG 19 17331CFTR-Intron2-2232 + AAAUUUCAUGAACCACAAGG 20 17332 CFTR-Intron2-2233 +AAAAUUUCAUGAACCACAAGG 21 17333 CFTR-Intron2-2234 +AAAAAUUUCAUGAACCACAAGG 22 17334 CFTR-Intron2-2235 +GAAAAAUUUCAUGAACCACAAGG 23 17335 CFTR-Intron2-2236 +UGAAAAAUUUCAUGAACCACAAGG 24 17336 CFTR-Intron2-2237 + CAGAUGGGAAAGCCAAGG18 17337 CFTR-Intron2-2238 + UCAGAUGGGAAAGCCAAGG 19 17338CFTR-Intron2-2239 + AUCAGAUGGGAAAGCCAAGG 20 17339 CFTR-Intron2-2240 +GAUCAGAUGGGAAAGCCAAGG 21 17340 CFTR-Intron2-2241 +GGAUCAGAUGGGAAAGCCAAGG 22 17341 CFTR-Intron2-2242 +UGGAUCAGAUGGGAAAGCCAAGG 23 17342 CFTR-Intron2-2243 +AUGGAUCAGAUGGGAAAGCCAAGG 24 17343 CFTR-Intron2-2244 + CCUGAGGAGAAGGCAAGG18 17344 CFTR-Intron2-2245 + ACCUGAGGAGAAGGCAAGG 19 17345CFTR-Intron2-2246 + UACCUGAGGAGAAGGCAAGG 20 17346 CFTR-Intron2-2247 +UUACCUGAGGAGAAGGCAAGG 21 17347 CFTR-Intron2-2248 +GUUACCUGAGGAGAAGGCAAGG 22 17348 CFTR-Intron2-2249 +AGUUACCUGAGGAGAAGGCAAGG 23 17349 CFTR-Intron2-2250 +UAGUUACCUGAGGAGAAGGCAAGG 24 17350 CFTR-Intron2-2251 + AAGAAAAGAAGUAACAGG18 17351 CFTR-Intron2-2252 + UAAGAAAAGAAGUAACAGG 19 17352CFTR-Intron2-2253 + AUAAGAAAAGAAGUAACAGG 20 17353 CFTR-Intron2-2254 +UAUAAGAAAAGAAGUAACAGG 21 17354 CFTR-Intron2-2255 +UUAUAAGAAAAGAAGUAACAGG 22 17355 CFTR-Intron2-2256 +UUUAUAAGAAAAGAAGUAACAGG 23 17356 CFTR-Intron2-2257 +UUUUAUAAGAAAAGAAGUAACAGG 24 17357 CFTR-Intron2-2258 + ACCCAGCUACUCGAGAGG18 17358 CFTR-Intron2-2259 + AACCCAGCUACUCGAGAGG 19 17359CFTR-Intron2-2260 + AAACCCAGCUACUCGAGAGG 20 17360 CFTR-Intron2-2261 +UAAACCCAGCUACUCGAGAGG 21 17361 CFTR-Intron2-2262 +GUAAACCCAGCUACUCGAGAGG 22 17362 CFTR-Intron2-2263 +UGUAAACCCAGCUACUCGAGAGG 23 17363 CFTR-Intron2-2264 +CUGUAAACCCAGCUACUCGAGAGG 24 17364 CFTR-Intron2-2265 + CUACUCGAGAGGCUGAGG18 17365 CFTR-Intron2-2266 + GCUACUCGAGAGGCUGAGG 19 17366CFTR-Intron2-2267 + AGCUACUCGAGAGGCUGAGG 20 17367 CFTR-Intron2-2268 +CAGCUACUCGAGAGGCUGAGG 21 17368 CFTR-Intron2-2269 +CCAGCUACUCGAGAGGCUGAGG 22 17369 CFTR-Intron2-2270 +CCCAGCUACUCGAGAGGCUGAGG 23 17370 CFTR-Intron2-2271 +ACCCAGCUACUCGAGAGGCUGAGG 24 17371 CFTR-Intron2-2272 + CUCUAAAGGAGUAAUAGG18 17372 CFTR-Intron2-2273 + ACUCUAAAGGAGUAAUAGG 19 17373CFTR-Intron2-2274 + CACUCUAAAGGAGUAAUAGG 20 17374 CFTR-Intron2-2275 +UCACUCUAAAGGAGUAAUAGG 21 17375 CFTR-Intron2-2276 +AUCACUCUAAAGGAGUAAUAGG 22 17376 CFTR-Intron2-2277 +AAUCACUCUAAAGGAGUAAUAGG 23 17377 CFTR-Intron2-2278 +AAAUCACUCUAAAGGAGUAAUAGG 24 17378 CFTR-Intron2-2279 + AGGCCCAGAUCAGAAGGG18 17379 CFTR-Intron2-2280 + CAGGCCCAGAUCAGAAGGG 19 17380CFTR-Intron2-2281 + CCAGGCCCAGAUCAGAAGGG 20 17381 CFTR-Intron2-2282 +ACCAGGCCCAGAUCAGAAGGG 21 17382 CFTR-Intron2-2283 +UACCAGGCCCAGAUCAGAAGGG 22 17383 CFTR-Intron2-2284 +AUACCAGGCCCAGAUCAGAAGGG 23 17384 CFTR-Intron2-2285 +CAUACCAGGCCCAGAUCAGAAGGG 24 17385 CFTR-Intron2-2286 + AGAAAAGAAGUAACAGGG18 17386 CFTR-Intron2-2287 + AAGAAAAGAAGUAACAGGG 19 17387CFTR-Intron2-681 + UAAGAAAAGAAGUAACAGGG 20 15781 CFTR-Intron2-2288 +AUAAGAAAAGAAGUAACAGGG 21 17388 CFTR-Intron2-2289 +UAUAAGAAAAGAAGUAACAGGG 22 17389 CFTR-Intron2-2290 +UUAUAAGAAAAGAAGUAACAGGG 23 17390 CFTR-Intron2-2291 +UUUAUAAGAAAAGAAGUAACAGGG 24 17391 CFTR-Intron2-2292 + UGAGAGAUUCUUUAUGGG18 17392 CFTR-Intron2-2293 + CUGAGAGAUUCUUUAUGGG 19 17393CFTR-Intron2-353 + ACUGAGAGAUUCUUUAUGGG 20 15453 CFTR-Intron2-2294 +AACUGAGAGAUUCUUUAUGGG 21 17394 CFTR-Intron2-2295 +AAACUGAGAGAUUCUUUAUGGG 22 17395 CFTR-Intron2-2296 +GAAACUGAGAGAUUCUUUAUGGG 23 17396 CFTR-Intron2-2297 +GGAAACUGAGAGAUUCUUUAUGGG 24 17397 CFTR-Intron2-2298 + GGGGAAUUUCUUUAAUGG18 17398 CFTR-Intron2-2299 + CGGGGAAUUUCUUUAAUGG 19 17399CFTR-Intron2-2300 + UCGGGGAAUUUCUUUAAUGG 20 17400 CFTR-Intron2-2301 +GUCGGGGAAUUUCUUUAAUGG 21 17401 CFTR-Intron2-2302 +GGUCGGGGAAUUUCUUUAAUGG 22 17402 CFTR-Intron2-2303 +AGGUCGGGGAAUUUCUUUAAUGG 23 17403 CFTR-Intron2-2304 +AAGGUCGGGGAAUUUCUUUAAUGG 24 17404 CFTR-Intron2-2305 + GUAGUUUUAGGAACAUGG18 17405 CFTR-Intron2-2306 + UGUAGUUUUAGGAACAUGG 19 17406CFTR-Intron2-355 + AUGUAGUUUUAGGAACAUGG 20 15455 CFTR-Intron2-2307 +AAUGUAGUUUUAGGAACAUGG 21 17407 CFTR-Intron2-2308 +CAAUGUAGUUUUAGGAACAUGG 22 17408 CFTR-Intron2-2309 +GCAAUGUAGUUUUAGGAACAUGG 23 17409 CFTR-Intron2-2310 +GGCAAUGUAGUUUUAGGAACAUGG 24 17410 CFTR-Intron2-2311 + CUGAGAGAUUCUUUAUGG18 17411 CFTR-Intron2-2312 + ACUGAGAGAUUCUUUAUGG 19 17412CFTR-Intron2-356 + AACUGAGAGAUUCUUUAUGG 20 15456 CFTR-Intron2-2313 +AAACUGAGAGAUUCUUUAUGG 21 17413 CFTR-Intron2-2314 +GAAACUGAGAGAUUCUUUAUGG 22 17414 CFTR-Intron2-2315 +GGAAACUGAGAGAUUCUUUAUGG 23 17415 CFTR-Intron2-2316 +AGGAAACUGAGAGAUUCUUUAUGG 24 17416 CFTR-Intron2-2317 + AAAUAGUCUGAAAACUGG18 17417 CFTR-Intron2-2318 + UAAAUAGUCUGAAAACUGG 19 17418CFTR-Intron2-2319 + UUAAAUAGUCUGAAAACUGG 20 17419 CFTR-Intron2-2320 +AUUAAAUAGUCUGAAAACUGG 21 17420 CFTR-Intron2-2321 +CAUUAAAUAGUCUGAAAACUGG 22 17421 CFTR-Intron2-2322 +ACAUUAAAUAGUCUGAAAACUGG 23 17422 CFTR-Intron2-2323 +GACAUUAAAUAGUCUGAAAACUGG 24 17423 CFTR-Intron2-2324 + GCUUUCCACUCAGAGUGG18 17424 CFTR-Intron2-2325 + UGCUUUCCACUCAGAGUGG 19 17425CFTR-Intron2-2326 + AUGCUUUCCACUCAGAGUGG 20 17426 CFTR-Intron2-2327 +GAUGCUUUCCACUCAGAGUGG 21 17427 CFTR-Intron2-2328 +UGAUGCUUUCCACUCAGAGUGG 22 17428 CFTR-Intron2-2329 +AUGAUGCUUUCCACUCAGAGUGG 23 17429 CFTR-Intron2-2330 +AAUGAUGCUUUCCACUCAGAGUGG 24 17430 CFTR-Intron2-2331 + GUCCACACGGAAGUAAUG18 17431 CFTR-Intron2-2332 + GGUCCACACGGAAGUAAUG 19 17432CFTR-Intron2-2333 + UGGUCCACACGGAAGUAAUG 20 17433 CFTR-Intron2-2334 +GUGGUCCACACGGAAGUAAUG 21 17434 CFTR-Intron2-2335 +AGUGGUCCACACGGAAGUAAUG 22 17435 CFTR-Intron2-2336 +AAGUGGUCCACACGGAAGUAAUG 23 17436 CFTR-Intron2-2337 +AAAGUGGUCCACACGGAAGUAAUG 24 17437 CFTR-Intron2-2338 + ACCAGCCUGGCCAACAUG18 17438 CFTR-Intron2-2339 + GACCAGCCUGGCCAACAUG 19 17439CFTR-Intron2-2340 + AGACCAGCCUGGCCAACAUG 20 17440 CFTR-Intron2-2341 +AAGACCAGCCUGGCCAACAUG 21 17441 CFTR-Intron2-2342 +CAAGACCAGCCUGGCCAACAUG 22 17442 CFTR-Intron2-2343 +UCAAGACCAGCCUGGCCAACAUG 23 17443 CFTR-Intron2-2344 +UUCAAGACCAGCCUGGCCAACAUG 24 17444 CFTR-Intron2-2345 + UGUAGUUUUAGGAACAUG18 17445 CFTR-Intron2-2346 + AUGUAGUUUUAGGAACAUG 19 17446CFTR-Intron2-2347 + AAUGUAGUUUUAGGAACAUG 20 17447 CFTR-Intron2-2348 +CAAUGUAGUUUUAGGAACAUG 21 17448 CFTR-Intron2-2349 +GCAAUGUAGUUUUAGGAACAUG 22 17449 CFTR-Intron2-2350 +GGCAAUGUAGUUUUAGGAACAUG 23 17450 CFTR-Intron2-2351 +GGGCAAUGUAGUUUUAGGAACAUG 24 17451 CFTR-Intron2-2352 + UUGCACACUGCAGUUAUG18 17452 CFTR-Intron2-2353 + UUUGCACACUGCAGUUAUG 19 17453CFTR-Intron2-2354 + GUUUGCACACUGCAGUUAUG 20 17454 CFTR-Intron2-2355 +GGUUUGCACACUGCAGUUAUG 21 17455 CFTR-Intron2-2356 +UGGUUUGCACACUGCAGUUAUG 22 17456 CFTR-Intron2-2357 +GUGGUUUGCACACUGCAGUUAUG 23 17457 CFTR-Intron2-2358 +UGUGGUUUGCACACUGCAGUUAUG 24 17458 CFTR-Intron2-2359 + CCAGGGACCCACUUUAUG18 17459 CFTR-Intron2-2360 + ACCAGGGACCCACUUUAUG 19 17460CFTR-Intron2-2361 + AACCAGGGACCCACUUUAUG 20 17461 CFTR-Intron2-2362 +UAACCAGGGACCCACUUUAUG 21 17462 CFTR-Intron2-2363 +CUAACCAGGGACCCACUUUAUG 22 17463 CFTR-Intron2-2364 +UCUAACCAGGGACCCACUUUAUG 23 17464 CFTR-Intron2-2365 +UUCUAACCAGGGACCCACUUUAUG 24 17465 CFTR-Intron2-2366 + ACUGAGAGAUUCUUUAUG18 17466 CFTR-Intron2-2367 + AACUGAGAGAUUCUUUAUG 19 17467CFTR-Intron2-361 + AAACUGAGAGAUUCUUUAUG 20 15461 CFTR-Intron2-2368 +GAAACUGAGAGAUUCUUUAUG 21 17468 CFTR-Intron2-2369 +GGAAACUGAGAGAUUCUUUAUG 22 17469 CFTR-Intron2-2370 +AGGAAACUGAGAGAUUCUUUAUG 23 17470 CFTR-Intron2-2371 +AAGGAAACUGAGAGAUUCUUUAUG 24 17471 CFTR-Intron2-2372 + GAAUGGGGUAGUUACCUG18 17472 CFTR-Intron2-2373 + AGAAUGGGGUAGUUACCUG 19 17473CFTR-Intron2-362 + UAGAAUGGGGUAGUUACCUG 20 15462 CFTR-Intron2-2374 +AUAGAAUGGGGUAGUUACCUG 21 17474 CFTR-Intron2-2375 +AAUAGAAUGGGGUAGUUACCUG 22 17475 CFTR-Intron2-2376 +AAAUAGAAUGGGGUAGUUACCUG 23 17476 CFTR-Intron2-2377 +AAAAUAGAAUGGGGUAGUUACCUG 24 17477 CFTR-Intron2-2378 + GGUCACUUCCCAAGGGUG18 17478 CFTR-Intron2-2379 + GGGUCACUUCCCAAGGGUG 19 17479CFTR-Intron2-2380 + AGGGUCACUUCCCAAGGGUG 20 17480 CFTR-Intron2-2381 +CAGGGUCACUUCCCAAGGGUG 21 17481 CFTR-Intron2-2382 +CCAGGGUCACUUCCCAAGGGUG 22 17482 CFTR-Intron2-2383 +GCCAGGGUCACUUCCCAAGGGUG 23 17483 CFTR-Intron2-2384 +AGCCAGGGUCACUUCCCAAGGGUG 24 17484 CFTR-Intron2-2385 + UAAAGGUCUUUGAAAAAU18 17485 CFTR-Intron2-2386 + UUAAAGGUCUUUGAAAAAU 19 17486CFTR-Intron2-2387 + AUUAAAGGUCUUUGAAAAAU 20 17487 CFTR-Intron2-2388 +UAUUAAAGGUCUUUGAAAAAU 21 17488 CFTR-Intron2-2389 +GUAUUAAAGGUCUUUGAAAAAU 22 17489 CFTR-Intron2-2390 +UGUAUUAAAGGUCUUUGAAAAAU 23 17490 CFTR-Intron2-2391 +AUGUAUUAAAGGUCUUUGAAAAAU 24 17491 CFTR-Intron2-2392 + ACAAGGCAGUUAUGAAAU18 17492 CFTR-Intron2-2393 + CACAAGGCAGUUAUGAAAU 19 17493CFTR-Intron2-2394 + UCACAAGGCAGUUAUGAAAU 20 17494 CFTR-Intron2-2395 +GUCACAAGGCAGUUAUGAAAU 21 17495 CFTR-Intron2-2396 +GGUCACAAGGCAGUUAUGAAAU 22 17496 CFTR-Intron2-2397 +UGGUCACAAGGCAGUUAUGAAAU 23 17497 CFTR-Intron2-2398 +AUGGUCACAAGGCAGUUAUGAAAU 24 17498 CFTR-Intron2-2399 + CAGAGUAAGAAGCUAAAU18 17499 CFTR-Intron2-2400 + UCAGAGUAAGAAGCUAAAU 19 17500CFTR-Intron2-2401 + CUCAGAGUAAGAAGCUAAAU 20 17501 CFTR-Intron2-2402 +ACUCAGAGUAAGAAGCUAAAU 21 17502 CFTR-Intron2-2403 +UACUCAGAGUAAGAAGCUAAAU 22 17503 CFTR-Intron2-2404 +UUACUCAGAGUAAGAAGCUAAAU 23 17504 CFTR-Intron2-2405 +GUUACUCAGAGUAAGAAGCUAAAU 24 17505 CFTR-Intron2-2406 + CAACAAAAUGGGUUCAAU18 17506 CFTR-Intron2-2407 + CCAACAAAAUGGGUUCAAU 19 17507CFTR-Intron2-2408 + ACCAACAAAAUGGGUUCAAU 20 17508 CFTR-Intron2-2409 +AACCAACAAAAUGGGUUCAAU 21 17509 CFTR-Intron2-2410 +AAACCAACAAAAUGGGUUCAAU 22 17510 CFTR-Intron2-2411 +UAAACCAACAAAAUGGGUUCAAU 23 17511 CFTR-Intron2-2412 +AUAAACCAACAAAAUGGGUUCAAU 24 17512 CFTR-Intron2-2413 + CCCUAGAAGCUUGCUAAU18 17513 CFTR-Intron2-2414 + CCCCUAGAAGCUUGCUAAU 19 17514CFTR-Intron2-2415 + UCCCCUAGAAGCUUGCUAAU 20 17515 CFTR-Intron2-2416 +AUCCCCUAGAAGCUUGCUAAU 21 17516 CFTR-Intron2-2417 +CAUCCCCUAGAAGCUUGCUAAU 22 17517 CFTR-Intron2-2418 +GCAUCCCCUAGAAGCUUGCUAAU 23 17518 CFTR-Intron2-2419 +GGCAUCCCCUAGAAGCUUGCUAAU 24 17519 CFTR-Intron2-2420 + UUUAAAUUGAAUCAACAU18 17520 CFTR-Intron2-2421 + UUUUAAAUUGAAUCAACAU 19 17521CFTR-Intron2-699 + UUUUUAAAUUGAAUCAACAU 20 15799 CFTR-Intron2-2422 +UUUUUUAAAUUGAAUCAACAU 21 17522 CFTR-Intron2-2423 +AUUUUUUAAAUUGAAUCAACAU 22 17523 CFTR-Intron2-2424 +UAUUUUUUAAAUUGAAUCAACAU 23 17524 CFTR-Intron2-2425 +AUAUUUUUUAAAUUGAAUCAACAU 24 17525 CFTR-Intron2-2426 + GGUGUUGUUAUAUUUCAU18 17526 CFTR-Intron2-2427 + AGGUGUUGUUAUAUUUCAU 19 17527CFTR-Intron2-2428 + AAGGUGUUGUUAUAUUUCAU 20 17528 CFTR-Intron2-2429 +AAAGGUGUUGUUAUAUUUCAU 21 17529 CFTR-Intron2-2430 +GAAAGGUGUUGUUAUAUUUCAU 22 17530 CFTR-Intron2-2431 +AGAAAGGUGUUGUUAUAUUUCAU 23 17531 CFTR-Intron2-2432 +UAGAAAGGUGUUGUUAUAUUUCAU 24 17532 CFTR-Intron2-2433 + UUCGUGGUCCUUAAAGAU18 17533 CFTR-Intron2-2434 + UUUCGUGGUCCUUAAAGAU 19 17534CFTR-Intron2-375 + CUUUCGUGGUCCUUAAAGAU 20 15475 CFTR-Intron2-2435 +UCUUUCGUGGUCCUUAAAGAU 21 17535 CFTR-Intron2-2436 +UUCUUUCGUGGUCCUUAAAGAU 22 17536 CFTR-Intron2-2437 +CUUCUUUCGUGGUCCUUAAAGAU 23 17537 CFTR-Intron2-2438 +CCUUCUUUCGUGGUCCUUAAAGAU 24 17538 CFTR-Intron2-2439 + CACAUACCAGGCCCAGAU18 17539 CFTR-Intron2-2440 + CCACAUACCAGGCCCAGAU 19 17540CFTR-Intron2-2441 + ACCACAUACCAGGCCCAGAU 20 17541 CFTR-Intron2-2442 +GACCACAUACCAGGCCCAGAU 21 17542 CFTR-Intron2-2443 +GGACCACAUACCAGGCCCAGAU 22 17543 CFTR-Intron2-2444 +AGGACCACAUACCAGGCCCAGAU 23 17544 CFTR-Intron2-2445 +UAGGACCACAUACCAGGCCCAGAU 24 17545 CFTR-Intron2-2446 + AGGAGAAAUGGAUCAGAU18 17546 CFTR-Intron2-2447 + AAGGAGAAAUGGAUCAGAU 19 17547CFTR-Intron2-376 + AAAGGAGAAAUGGAUCAGAU 20 15476 CFTR-Intron2-2448 +CAAAGGAGAAAUGGAUCAGAU 21 17548 CFTR-Intron2-2449 +UCAAAGGAGAAAUGGAUCAGAU 22 17549 CFTR-Intron2-2450 +AUCAAAGGAGAAAUGGAUCAGAU 23 17550 CFTR-Intron2-2451 +CAUCAAAGGAGAAAUGGAUCAGAU 24 17551 CFTR-Intron2-2452 + GUAAUACACAGCUGAGAU18 17552 CFTR-Intron2-2453 + AGUAAUACACAGCUGAGAU 19 17553CFTR-Intron2-2454 + GAGUAAUACACAGCUGAGAU 20 17554 CFTR-Intron2-2455 +GGAGUAAUACACAGCUGAGAU 21 17555 CFTR-Intron2-2456 +AGGAGUAAUACACAGCUGAGAU 22 17556 CFTR-Intron2-2457 +AAGGAGUAAUACACAGCUGAGAU 23 17557 CFTR-Intron2-2458 +AAAGGAGUAAUACACAGCUGAGAU 24 17558 CFTR-Intron2-2459 + GGAUCCUAACCUUUUGAU18 17559 CFTR-Intron2-2460 + AGGAUCCUAACCUUUUGAU 19 17560CFTR-Intron2-379 + AAGGAUCCUAACCUUUUGAU 20 15479 CFTR-Intron2-2461 +AAAGGAUCCUAACCUUUUGAU 21 17561 CFTR-Intron2-2462 +AAAAGGAUCCUAACCUUUUGAU 22 17562 CFTR-Intron2-2463 +CAAAAGGAUCCUAACCUUUUGAU 23 17563 CFTR-Intron2-2464 +UCAAAAGGAUCCUAACCUUUUGAU 24 17564 CFTR-Intron2-2465 + UUUUCUUUUAAAUACUAU18 17565 CFTR-Intron2-2466 + GUUUUCUUUUAAAUACUAU 19 17566CFTR-Intron2-700 + UGUUUUCUUUUAAAUACUAU 20 15800 CFTR-Intron2-2467 +CUGUUUUCUUUUAAAUACUAU 21 17567 CFTR-Intron2-2468 +UCUGUUUUCUUUUAAAUACUAU 22 17568 CFTR-Intron2-2469 +UUCUGUUUUCUUUUAAAUACUAU 23 17569 CFTR-Intron2-2470 +UUUCUGUUUUCUUUUAAAUACUAU 24 17570 CFTR-Intron2-2471 + AACUGAGAGAUUCUUUAU18 17571 CFTR-Intron2-2472 + AAACUGAGAGAUUCUUUAU 19 17572CFTR-Intron2-73 + GAAACUGAGAGAUUCUUUAU 20 15173 CFTR-Intron2-2473 +GGAAACUGAGAGAUUCUUUAU 21 17573 CFTR-Intron2-2474 +AGGAAACUGAGAGAUUCUUUAU 22 17574 CFTR-Intron2-2475 +AAGGAAACUGAGAGAUUCUUUAU 23 17575 CFTR-Intron2-2476 +AAAGGAAACUGAGAGAUUCUUUAU 24 17576 CFTR-Intron2-2477 + UUCAAAUACCAAUUUUAU18 17577 CFTR-Intron2-2478 + UUUCAAAUACCAAUUUUAU 19 17578CFTR-Intron2-2479 + AUUUCAAAUACCAAUUUUAU 20 17579 CFTR-Intron2-2480 +AAUUUCAAAUACCAAUUUUAU 21 17580 CFTR-Intron2-2481 +AAAUUUCAAAUACCAAUUUUAU 22 17581 CFTR-Intron2-2482 +UAAAUUUCAAAUACCAAUUUUAU 23 17582 CFTR-Intron2-2483 +AUAAAUUUCAAAUACCAAUUUUAU 24 17583 CFTR-Intron2-2484 + UUGAUUGGAAAGGAAACU18 17584 CFTR-Intron2-2485 + UUUGAUUGGAAAGGAAACU 19 17585CFTR-Intron2-2486 + UUUUGAUUGGAAAGGAAACU 20 17586 CFTR-Intron2-2487 +CUUUUGAUUGGAAAGGAAACU 21 17587 CFTR-Intron2-2488 +CCUUUUGAUUGGAAAGGAAACU 22 17588 CFTR-Intron2-2489 +ACCUUUUGAUUGGAAAGGAAACU 23 17589 CFTR-Intron2-2490 +AACCUUUUGAUUGGAAAGGAAACU 24 17590 CFTR-Intron2-2491 + GCCACUAAUCCCAACACU18 17591 CFTR-Intron2-2492 + CGCCACUAAUCCCAACACU 19 17592CFTR-Intron2-2493 + ACGCCACUAAUCCCAACACU 20 17593 CFTR-Intron2-2494 +CACGCCACUAAUCCCAACACU 21 17594 CFTR-Intron2-2495 +UCACGCCACUAAUCCCAACACU 22 17595 CFTR-Intron2-2496 +CUCACGCCACUAAUCCCAACACU 23 17596 CFTR-Intron2-2497 +GCUCACGCCACUAAUCCCAACACU 24 17597 CFTR-Intron2-2498 + GGCCCUAUUCUAGGCACU18 17598 CFTR-Intron2-2499 + AGGCCCUAUUCUAGGCACU 19 17599CFTR-Intron2-703 + CAGGCCCUAUUCUAGGCACU 20 15803 CFTR-Intron2-2500 +CCAGGCCCUAUUCUAGGCACU 21 17600 CFTR-Intron2-2501 +GCCAGGCCCUAUUCUAGGCACU 22 17601 CFTR-Intron2-2502 +UGCCAGGCCCUAUUCUAGGCACU 23 17602 CFTR-Intron2-2503 +AUGCCAGGCCCUAUUCUAGGCACU 24 17603 CFTR-Intron2-2504 + CCUGUAGUCCCAGCUACU18 17604 CFTR-Intron2-2505 + GCCUGUAGUCCCAGCUACU 19 17605CFTR-Intron2-2506 + UGCCUGUAGUCCCAGCUACU 20 17606 CFTR-Intron2-2507 +AUGCCUGUAGUCCCAGCUACU 21 17607 CFTR-Intron2-2508 +CAUGCCUGUAGUCCCAGCUACU 22 17608 CFTR-Intron2-2509 +GCAUGCCUGUAGUCCCAGCUACU 23 17609 CFTR-Intron2-2510 +UGCAUGCCUGUAGUCCCAGCUACU 24 17610 CFTR-Intron2-2511 + AGAAUGGGGUAGUUACCU18 17611 CFTR-Intron2-2512 + UAGAAUGGGGUAGUUACCU 19 17612CFTR-Intron2-2513 + AUAGAAUGGGGUAGUUACCU 20 17613 CFTR-Intron2-2514 +AAUAGAAUGGGGUAGUUACCU 21 17614 CFTR-Intron2-2515 +AAAUAGAAUGGGGUAGUUACCU 22 17615 CFTR-Intron2-2516 +AAAAUAGAAUGGGGUAGUUACCU 23 17616 CFTR-Intron2-2517 +AAAAAUAGAAUGGGGUAGUUACCU 24 17617 CFTR-Intron2-2518 + GAGCAGAGAAUGUUAGCU18 17618 CFTR-Intron2-2519 + AGAGCAGAGAAUGUUAGCU 19 17619CFTR-Intron2-2520 + GAGAGCAGAGAAUGUUAGCU 20 17620 CFTR-Intron2-2521 +GGAGAGCAGAGAAUGUUAGCU 21 17621 CFTR-Intron2-2522 +AGGAGAGCAGAGAAUGUUAGCU 22 17622 CFTR-Intron2-2523 +CAGGAGAGCAGAGAAUGUUAGCU 23 17623 CFTR-Intron2-2524 +CCAGGAGAGCAGAGAAUGUUAGCU 24 17624 CFTR-Intron2-2525 + UUUCCACUCAGAGUGGCU18 17625 CFTR-Intron2-2526 + CUUUCCACUCAGAGUGGCU 19 17626CFTR-Intron2-2527 + GCUUUCCACUCAGAGUGGCU 20 17627 CFTR-Intron2-2528 +UGCUUUCCACUCAGAGUGGCU 21 17628 CFTR-Intron2-2529 +AUGCUUUCCACUCAGAGUGGCU 22 17629 CFTR-Intron2-2530 +GAUGCUUUCCACUCAGAGUGGCU 23 17630 CFTR-Intron2-2531 +UGAUGCUUUCCACUCAGAGUGGCU 24 17631 CFTR-Intron2-2532 + AUAUCCUGACUACAAUCU18 17632 CFTR-Intron2-2533 + CAUAUCCUGACUACAAUCU 19 17633CFTR-Intron2-395 + UCAUAUCCUGACUACAAUCU 20 15495 CFTR-Intron2-2534 +UUCAUAUCCUGACUACAAUCU 21 17634 CFTR-Intron2-2535 +GUUCAUAUCCUGACUACAAUCU 22 17635 CFTR-Intron2-2536 +AGUUCAUAUCCUGACUACAAUCU 23 17636 CFTR-Intron2-2537 +AAGUUCAUAUCCUGACUACAAUCU 24 17637 CFTR-Intron2-2538 + GAAGCUGGCCCUUGAUCU18 17638 CFTR-Intron2-2539 + AGAAGCUGGCCCUUGAUCU 19 17639CFTR-Intron2-2540 + UAGAAGCUGGCCCUUGAUCU 20 17640 CFTR-Intron2-2541 +AUAGAAGCUGGCCCUUGAUCU 21 17641 CFTR-Intron2-2542 +AAUAGAAGCUGGCCCUUGAUCU 22 17642 CFTR-Intron2-2543 +UAAUAGAAGCUGGCCCUUGAUCU 23 17643 CFTR-Intron2-2544 +AUAAUAGAAGCUGGCCCUUGAUCU 24 17644 CFTR-Intron2-2545 + GCAAAGUAUAUUAUCUCU18 17645 CFTR-Intron2-2546 + GGCAAAGUAUAUUAUCUCU 19 17646CFTR-Intron2-2547 + UGGCAAAGUAUAUUAUCUCU 20 17647 CFTR-Intron2-2548 +CUGGCAAAGUAUAUUAUCUCU 21 17648 CFTR-Intron2-2549 +ACUGGCAAAGUAUAUUAUCUCU 22 17649 CFTR-Intron2-2550 +AACUGGCAAAGUAUAUUAUCUCU 23 17650 CFTR-Intron2-2551 +UAACUGGCAAAGUAUAUUAUCUCU 24 17651 CFTR-Intron2-2552 + ACUAUGACUCAAGAGUCU18 17652 CFTR-Intron2-2553 + CACUAUGACUCAAGAGUCU 19 17653CFTR-Intron2-2554 + GCACUAUGACUCAAGAGUCU 20 17654 CFTR-Intron2-2555 +AGCACUAUGACUCAAGAGUCU 21 17655 CFTR-Intron2-2556 +AAGCACUAUGACUCAAGAGUCU 22 17656 CFTR-Intron2-2557 +UAAGCACUAUGACUCAAGAGUCU 23 17657 CFTR-Intron2-2558 +GUAAGCACUAUGACUCAAGAGUCU 24 17658 CFTR-Intron2-2559 + AUCAUGUAUUAAAGGUCU18 17659 CFTR-Intron2-2560 + AAUCAUGUAUUAAAGGUCU 19 17660CFTR-Intron2-2561 + AAAUCAUGUAUUAAAGGUCU 20 17661 CFTR-Intron2-2562 +AAAAUCAUGUAUUAAAGGUCU 21 17662 CFTR-Intron2-2563 +UAAAAUCAUGUAUUAAAGGUCU 22 17663 CFTR-Intron2-2564 +CUAAAAUCAUGUAUUAAAGGUCU 23 17664 CFTR-Intron2-2565 +ACUAAAAUCAUGUAUUAAAGGUCU 24 17665 CFTR-Intron2-2566 + AGAAAGCUGGUCCGGUCU18 17666 CFTR-Intron2-2567 + UAGAAAGCUGGUCCGGUCU 19 17667CFTR-Intron2-2568 + GUAGAAAGCUGGUCCGGUCU 20 17668 CFTR-Intron2-2569 +UGUAGAAAGCUGGUCCGGUCU 21 17669 CFTR-Intron2-2570 +AUGUAGAAAGCUGGUCCGGUCU 22 17670 CFTR-Intron2-2571 +UAUGUAGAAAGCUGGUCCGGUCU 23 17671 CFTR-Intron2-2572 +UUAUGUAGAAAGCUGGUCCGGUCU 24 17672 CFTR-Intron2-2573 + UCUAAUAAGACAAAUUCU18 17673 CFTR-Intron2-2574 + CUCUAAUAAGACAAAUUCU 19 17674CFTR-Intron2-2575 + UCUCUAAUAAGACAAAUUCU 20 17675 CFTR-Intron2-2576 +GUCUCUAAUAAGACAAAUUCU 21 17676 CFTR-Intron2-2577 +GGUCUCUAAUAAGACAAAUUCU 22 17677 CFTR-Intron2-2578 +UGGUCUCUAAUAAGACAAAUUCU 23 17678 CFTR-Intron2-2579 +AUGGUCUCUAAUAAGACAAAUUCU 24 17679 CFTR-Intron2-2580 + CAUUUGGUUACUCAGAGU18 17680 CFTR-Intron2-2581 + ACAUUUGGUUACUCAGAGU 19 17681CFTR-Intron2-2582 + AACAUUUGGUUACUCAGAGU 20 17682 CFTR-Intron2-2583 +UAACAUUUGGUUACUCAGAGU 21 17683 CFTR-Intron2-2584 +AUAACAUUUGGUUACUCAGAGU 22 17684 CFTR-Intron2-2585 +CAUAACAUUUGGUUACUCAGAGU 23 17685 CFTR-Intron2-2586 +CCAUAACAUUUGGUUACUCAGAGU 24 17686 CFTR-Intron2-2587 + GAAUAGACAUUAAAUAGU18 17687 CFTR-Intron2-2588 + AGAAUAGACAUUAAAUAGU 19 17688CFTR-Intron2-2589 + AAGAAUAGACAUUAAAUAGU 20 17689 CFTR-Intron2-2590 +UAAGAAUAGACAUUAAAUAGU 21 17690 CFTR-Intron2-2591 +GUAAGAAUAGACAUUAAAUAGU 22 17691 CFTR-Intron2-2592 +AGUAAGAAUAGACAUUAAAUAGU 23 17692 CFTR-Intron2-2593 +UAGUAAGAAUAGACAUUAAAUAGU 24 17693 CFTR-Intron2-2594 + CUGAGGAGAAGGCAAGGU18 17694 CFTR-Intron2-2595 + CCUGAGGAGAAGGCAAGGU 19 17695CFTR-Intron2-405 + ACCUGAGGAGAAGGCAAGGU 20 15505 CFTR-Intron2-2596 +UACCUGAGGAGAAGGCAAGGU 21 17696 CFTR-Intron2-2597 +UUACCUGAGGAGAAGGCAAGGU 22 17697 CFTR-Intron2-2598 +GUUACCUGAGGAGAAGGCAAGGU 23 17698 CFTR-Intron2-2599 +AGUUACCUGAGGAGAAGGCAAGGU 24 17699 CFTR-Intron2-2600 + GGGCAGAUCACUUGAGGU18 17700 CFTR-Intron2-2601 + CGGGCAGAUCACUUGAGGU 19 17701CFTR-Intron2-2602 + GCGGGCAGAUCACUUGAGGU 20 17702 CFTR-Intron2-2603 +GGCGGGCAGAUCACUUGAGGU 21 17703 CFTR-Intron2-2604 +AGGCGGGCAGAUCACUUGAGGU 22 17704 CFTR-Intron2-2605 +AAGGCGGGCAGAUCACUUGAGGU 23 17705 CFTR-Intron2-2606 +CAAGGCGGGCAGAUCACUUGAGGU 24 17706 CFTR-Intron2-2607 +UGGGCAGAUCACUUGAGGU 19 17707 CFTR-Intron2-2608 + GUGGGCAGAUCACUUGAGGU 2017708 CFTR-Intron2-2609 + GGUGGGCAGAUCACUUGAGGU 21 17709CFTR-Intron2-2610 + AGGUGGGCAGAUCACUUGAGGU 22 17710 CFTR-Intron2-2611 +AAGGUGGGCAGAUCACUUGAGGU 23 17711 CFTR-Intron2-2612 +CAAGGUGGGCAGAUCACUUGAGGU 24 17712 CFTR-Intron2-2613 + GUAGAAAGCUGGUCCGGU18 17713 CFTR-Intron2-2614 + UGUAGAAAGCUGGUCCGGU 19 17714CFTR-Intron2-2615 + AUGUAGAAAGCUGGUCCGGU 20 17715 CFTR-Intron2-2616 +UAUGUAGAAAGCUGGUCCGGU 21 17716 CFTR-Intron2-2617 +UUAUGUAGAAAGCUGGUCCGGU 22 17717 CFTR-Intron2-2618 +UUUAUGUAGAAAGCUGGUCCGGU 23 17718 CFTR-Intron2-2619 +CUUUAUGUAGAAAGCUGGUCCGGU 24 17719 CFTR-Intron2-2620 + ACCUAUAAUCCCAGCAUU18 17720 CFTR-Intron2-2621 + CACCUAUAAUCCCAGCAUU 19 17721CFTR-Intron2-2622 + ACACCUAUAAUCCCAGCAUU 20 17722 CFTR-Intron2-2623 +CACACCUAUAAUCCCAGCAUU 21 17723 CFTR-Intron2-2624 +UCACACCUAUAAUCCCAGCAUU 22 17724 CFTR-Intron2-2625 +CUCACACCUAUAAUCCCAGCAUU 23 17725 CFTR-Intron2-2626 +GCUCACACCUAUAAUCCCAGCAUU 24 17726 CFTR-Intron2-2627 + AAUACCCAUUAUAUUAUU18 17727 CFTR-Intron2-2628 + CAAUACCCAUUAUAUUAUU 19 17728CFTR-Intron2-2629 + UCAAUACCCAUUAUAUUAUU 20 17729 CFTR-Intron2-2630 +UUCAAUACCCAUUAUAUUAUU 21 17730 CFTR-Intron2-2631 +AUUCAAUACCCAUUAUAUUAUU 22 17731 CFTR-Intron2-2632 +UAUUCAAUACCCAUUAUAUUAUU 23 17732 CFTR-Intron2-2633 +AUAUUCAAUACCCAUUAUAUUAUU 24 17733 CFTR-Intron2-2634 + CCACUAAUCCCAACACUU18 17734 CFTR-Intron2-2635 + GCCACUAAUCCCAACACUU 19 17735CFTR-Intron2-717 + CGCCACUAAUCCCAACACUU 20 15817 CFTR-Intron2-2636 +ACGCCACUAAUCCCAACACUU 21 17736 CFTR-Intron2-2637 +CACGCCACUAAUCCCAACACUU 22 17737 CFTR-Intron2-2638 +UCACGCCACUAAUCCCAACACUU 23 17738 CFTR-Intron2-2639 +CUCACGCCACUAAUCCCAACACUU 24 17739 CFTR-Intron2-2640 + ACCAUCUGGCAACCACUU18 17740 CFTR-Intron2-2641 + AACCAUCUGGCAACCACUU 19 17741CFTR-Intron2-2642 + CAACCAUCUGGCAACCACUU 20 17742 CFTR-Intron2-2643 +UCAACCAUCUGGCAACCACUU 21 17743 CFTR-Intron2-2644 +UUCAACCAUCUGGCAACCACUU 22 17744 CFTR-Intron2-2645 +CUUCAACCAUCUGGCAACCACUU 23 17745 CFTR-Intron2-2646 +UCUUCAACCAUCUGGCAACCACUU 24 17746 CFTR-Intron2-2647 + AUGGUGGAAACCAUACUU18 17747 CFTR-Intron2-2648 + CAUGGUGGAAACCAUACUU 19 17748CFTR-Intron2-2649 + ACAUGGUGGAAACCAUACUU 20 17749 CFTR-Intron2-2650 +AACAUGGUGGAAACCAUACUU 21 17750 CFTR-Intron2-2651 +GAACAUGGUGGAAACCAUACUU 22 17751 CFTR-Intron2-2652 +GGAACAUGGUGGAAACCAUACUU 23 17752 CFTR-Intron2-2653 +AGGAACAUGGUGGAAACCAUACUU 24 17753 CFTR-Intron2-2654 + CAUGGUCACAAGGCAGUU18 17754 CFTR-Intron2-2655 + CCAUGGUCACAAGGCAGUU 19 17755CFTR-Intron2-2656 + GCCAUGGUCACAAGGCAGUU 20 17756 CFTR-Intron2-2657 +GGCCAUGGUCACAAGGCAGUU 21 17757 CFTR-Intron2-2658 +GGGCCAUGGUCACAAGGCAGUU 22 17758 CFTR-Intron2-2659 +AGGGCCAUGGUCACAAGGCAGUU 23 17759 CFTR-Intron2-2660 +GAGGGCCAUGGUCACAAGGCAGUU 24 17760 CFTR-Intron2-2661 + UAUUCAAAUAUAAAGGUU18 17761 CFTR-Intron2-2662 + GUAUUCAAAUAUAAAGGUU 19 17762CFTR-Intron2-2663 + UGUAUUCAAAUAUAAAGGUU 20 17763 CFTR-Intron2-2664 +UUGUAUUCAAAUAUAAAGGUU 21 17764 CFTR-Intron2-2665 +UUUGUAUUCAAAUAUAAAGGUU 22 17765 CFTR-Intron2-2666 +AUUUGUAUUCAAAUAUAAAGGUU 23 17766 CFTR-Intron2-2667 +CAUUUGUAUUCAAAUAUAAAGGUU 24 17767 CFTR-Intron2-2668 + CCUAUAAUCCCAGCAUUU18 17768 CFTR-Intron2-2669 + ACCUAUAAUCCCAGCAUUU 19 17769CFTR-Intron2-720 + CACCUAUAAUCCCAGCAUUU 20 15820 CFTR-Intron2-2670 +ACACCUAUAAUCCCAGCAUUU 21 17770 CFTR-Intron2-2671 +CACACCUAUAAUCCCAGCAUUU 22 17771 CFTR-Intron2-2672 +UCACACCUAUAAUCCCAGCAUUU 23 17772 CFTR-Intron2-2673 +CUCACACCUAUAAUCCCAGCAUUU 24 17773 CFTR-Intron2-2674 + CACUAAUCCCAACACUUU18 17774 CFTR-Intron2-2675 + CCACUAAUCCCAACACUUU 19 17775CFTR-Intron2-476 + GCCACUAAUCCCAACACUUU 20 15576 CFTR-Intron2-2676 +CGCCACUAAUCCCAACACUUU 21 17776 CFTR-Intron2-2677 +ACGCCACUAAUCCCAACACUUU 22 17777 CFTR-Intron2-2678 +CACGCCACUAAUCCCAACACUUU 23 17778 CFTR-Intron2-2679 +UCACGCCACUAAUCCCAACACUUU 24 17779 CFTR-Intron2-2680 + GAAACUGAGAGAUUCUUU18 17780 CFTR-Intron2-2681 + GGAAACUGAGAGAUUCUUU 19 17781CFTR-Intron2-2682 + AGGAAACUGAGAGAUUCUUU 20 17782 CFTR-Intron2-2683 +AAGGAAACUGAGAGAUUCUUU 21 17783 CFTR-Intron2-2684 +AAAGGAAACUGAGAGAUUCUUU 22 17784 CFTR-Intron2-2685 +GAAAGGAAACUGAGAGAUUCUUU 23 17785 CFTR-Intron2-2686 +GGAAAGGAAACUGAGAGAUUCUUU 24 17786 CFTR-Intron2-2687 + CCCUGGGCAAUGUAGUUU18 17787 CFTR-Intron2-2688 + ACCCUGGGCAAUGUAGUUU 19 17788CFTR-Intron2-2689 + GACCCUGGGCAAUGUAGUUU 20 17789 CFTR-Intron2-2690 +UGACCCUGGGCAAUGUAGUUU 21 17790 CFTR-Intron2-2691 +GUGACCCUGGGCAAUGUAGUUU 22 17791 CFTR-Intron2-2692 +AGUGACCCUGGGCAAUGUAGUUU 23 17792 CFTR-Intron2-2693 +UAGUGACCCUGGGCAAUGUAGUUU 24 17793 CFTR-Intron2-2694 + CUAUAAUCCCAGCAUUUU18 17794 CFTR-Intron2-2695 + CCUAUAAUCCCAGCAUUUU 19 17795CFTR-Intron2-722 + ACCUAUAAUCCCAGCAUUUU 20 15822 CFTR-Intron2-2696 +CACCUAUAAUCCCAGCAUUUU 21 17796 CFTR-Intron2-2697 +ACACCUAUAAUCCCAGCAUUUU 22 17797 CFTR-Intron2-2698 +CACACCUAUAAUCCCAGCAUUUU 23 17798 CFTR-Intron2-2699 +UCACACCUAUAAUCCCAGCAUUUU 24 17799 CFTR-Intron2-2700 + CCUGGGCAAUGUAGUUUU18 17800 CFTR-Intron2-2701 + CCCUGGGCAAUGUAGUUUU 19 17801CFTR-Intron2-416 + ACCCUGGGCAAUGUAGUUUU 20 15516 CFTR-Intron2-2702 +GACCCUGGGCAAUGUAGUUUU 21 17802 CFTR-Intron2-2703 +UGACCCUGGGCAAUGUAGUUUU 22 17803 CFTR-Intron2-2704 +GUGACCCUGGGCAAUGUAGUUUU 23 17804 CFTR-Intron2-2705 +AGUGACCCUGGGCAAUGUAGUUUU 24 17805 CFTR-Intron2-2706 + AACCAAAUGUGUAUUUUU18 17806 CFTR-Intron2-2707 + AAACCAAAUGUGUAUUUUU 19 17807CFTR-Intron2-2708 + GAAACCAAAUGUGUAUUUUU 20 17808 CFTR-Intron2-2709 +UGAAACCAAAUGUGUAUUUUU 21 17809 CFTR-Intron2-2710 +CUGAAACCAAAUGUGUAUUUUU 22 17810 CFTR-Intron2-2711 +UCUGAAACCAAAUGUGUAUUUUU 23 17811 CFTR-Intron2-2712 +CUCUGAAACCAAAUGUGUAUUUUU 24 17812 CFTR-Intron2-2713 − AUAGUAUUUAAAAGAAAA18 17813 CFTR-Intron2-2714 − UAUAGUAUUUAAAAGAAAA 19 17814CFTR-Intron2-2715 − CUAUAGUAUUUAAAAGAAAA 20 17815 CFTR-Intron2-2716 −CCUAUAGUAUUUAAAAGAAAA 21 17816 CFTR-Intron2-2717 −UCCUAUAGUAUUUAAAAGAAAA 22 17817 CFTR-Intron2-2718 −UUCCUAUAGUAUUUAAAAGAAAA 23 17818 CFTR-Intron2-2719 −GUUCCUAUAGUAUUUAAAAGAAAA 24 17819 CFTR-Intron2-2720 − AUUUUACAGAAAAGCAAA18 17820 CFTR-Intron2-2721 − UAUUUUACAGAAAAGCAAA 19 17821CFTR-Intron2-2722 − CUAUUUUACAGAAAAGCAAA 20 17822 CFTR-Intron2-2723 −UCUAUUUUACAGAAAAGCAAA 21 17823 CFTR-Intron2-2724 −CUCUAUUUUACAGAAAAGCAAA 22 17824 CFTR-Intron2-2725 −UCUCUAUUUUACAGAAAAGCAAA 23 17825 CFTR-Intron2-2726 −AUCUCUAUUUUACAGAAAAGCAAA 24 17826 CFTR-Intron2-2727 − UGAUUUUAGUAGUUGAAA18 17827 CFTR-Intron2-2728 − AUGAUUUUAGUAGUUGAAA 19 17828CFTR-Intron2-2729 − CAUGAUUUUAGUAGUUGAAA 20 17829 CFTR-Intron2-2730 −ACAUGAUUUUAGUAGUUGAAA 21 17830 CFTR-Intron2-2731 −UACAUGAUUUUAGUAGUUGAAA 22 17831 CFTR-Intron2-2732 −AUACAUGAUUUUAGUAGUUGAAA 23 17832 CFTR-Intron2-2733 −AAUACAUGAUUUUAGUAGUUGAAA 24 17833 CFTR-Intron2-2734 − CUAGCUUAAGUAAAUAAA18 17834 CFTR-Intron2-2735 − ACUAGCUUAAGUAAAUAAA 19 17835CFTR-Intron2-613 − UACUAGCUUAAGUAAAUAAA 20 15713 CFTR-Intron2-2736 −UUACUAGCUUAAGUAAAUAAA 21 17836 CFTR-Intron2-2737 −UUUACUAGCUUAAGUAAAUAAA 22 17837 CFTR-Intron2-2738 −AUUUACUAGCUUAAGUAAAUAAA 23 17838 CFTR-Intron2-2739 −AAUUUACUAGCUUAAGUAAAUAAA 24 17839 CFTR-Intron2-2740 − CUGGCCUUAGGAACUCAA18 17840 CFTR-Intron2-2741 − ACUGGCCUUAGGAACUCAA 19 17841CFTR-Intron2-241 − AACUGGCCUUAGGAACUCAA 20 15341 CFTR-Intron2-2742 −GAACUGGCCUUAGGAACUCAA 21 17842 CFTR-Intron2-2743 −AGAACUGGCCUUAGGAACUCAA 22 17843 CFTR-Intron2-2744 −GAGAACUGGCCUUAGGAACUCAA 23 17844 CFTR-Intron2-2745 −GGAGAACUGGCCUUAGGAACUCAA 24 17845 CFTR-Intron2-2746 − AUCCCCAAGUGCCUAGAA18 17846 CFTR-Intron2-2747 − UAUCCCCAAGUGCCUAGAA 19 17847CFTR-Intron2-2748 − GUAUCCCCAAGUGCCUAGAA 20 17848 CFTR-Intron2-2749 −UGUAUCCCCAAGUGCCUAGAA 21 17849 CFTR-Intron2-2750 −AUGUAUCCCCAAGUGCCUAGAA 22 17850 CFTR-Intron2-2751 −GAUGUAUCCCCAAGUGCCUAGAA 23 17851 CFTR-Intron2-2752 −UGAUGUAUCCCCAAGUGCCUAGAA 24 17852 CFTR-Intron2-2753 − GAUAAAAGGGUGAGUGAA18 17853 CFTR-Intron2-2754 − AGAUAAAAGGGUGAGUGAA 19 17854CFTR-Intron2-248 − CAGAUAAAAGGGUGAGUGAA 20 15348 CFTR-Intron2-2755 −CCAGAUAAAAGGGUGAGUGAA 21 17855 CFTR-Intron2-2756 −GCCAGAUAAAAGGGUGAGUGAA 22 17856 CFTR-Intron2-2757 −UGCCAGAUAAAAGGGUGAGUGAA 23 17857 CFTR-Intron2-2758 −AUGCCAGAUAAAAGGGUGAGUGAA 24 17858 CFTR-Intron2-2759 − AUUUUAUUCCUUUGUGAA18 17859 CFTR-Intron2-2760 − UAUUUUAUUCCUUUGUGAA 19 17860CFTR-Intron2-2761 − AUAUUUUAUUCCUUUGUGAA 20 17861 CFTR-Intron2-2762 −GAUAUUUUAUUCCUUUGUGAA 21 17862 CFTR-Intron2-2763 −AGAUAUUUUAUUCCUUUGUGAA 22 17863 CFTR-Intron2-2764 −GAGAUAUUUUAUUCCUUUGUGAA 23 17864 CFTR-Intron2-2765 −AGAGAUAUUUUAUUCCUUUGUGAA 24 17865 CFTR-Intron2-2766 − ACUAGCUUAAGUAAAUAA18 17866 CFTR-Intron2-2767 − UACUAGCUUAAGUAAAUAA 19 17867CFTR-Intron2-2768 − UUACUAGCUUAAGUAAAUAA 20 17868 CFTR-Intron2-2769 −UUUACUAGCUUAAGUAAAUAA 21 17869 CFTR-Intron2-2770 −AUUUACUAGCUUAAGUAAAUAA 22 17870 CFTR-Intron2-2771 −AAUUUACUAGCUUAAGUAAAUAA 23 17871 CFTR-Intron2-2772 −CAAUUUACUAGCUUAAGUAAAUAA 24 17872 CFTR-Intron2-2773 − UGUCUAUUCUUACUAUAA18 17873 CFTR-Intron2-2774 − AUGUCUAUUCUUACUAUAA 19 17874CFTR-Intron2-2775 − AAUGUCUAUUCUUACUAUAA 20 17875 CFTR-Intron2-2776 −UAAUGUCUAUUCUUACUAUAA 21 17876 CFTR-Intron2-2777 −UUAAUGUCUAUUCUUACUAUAA 22 17877 CFTR-Intron2-2778 −UUUAAUGUCUAUUCUUACUAUAA 23 17878 CFTR-Intron2-2779 −AUUUAAUGUCUAUUCUUACUAUAA 24 17879 CFTR-Intron2-2780 − AUGGUAACUUGACAGUAA18 17880 CFTR-Intron2-2781 − UAUGGUAACUUGACAGUAA 19 17881CFTR-Intron2-251 − UUAUGGUAACUUGACAGUAA 20 15351 CFTR-Intron2-2782 −CUUAUGGUAACUUGACAGUAA 21 17882 CFTR-Intron2-2783 −ACUUAUGGUAACUUGACAGUAA 22 17883 CFTR-Intron2-2784 −UACUUAUGGUAACUUGACAGUAA 23 17884 CFTR-Intron2-2785 −UUACUUAUGGUAACUUGACAGUAA 24 17885 CFTR-Intron2-2786 − AAAAAAGGCUUUCAUUAA18 17886 CFTR-Intron2-2787 − GAAAAAAGGCUUUCAUUAA 19 17887CFTR-Intron2-2788 − AGAAAAAAGGCUUUCAUUAA 20 17888 CFTR-Intron2-2789 −GAGAAAAAAGGCUUUCAUUAA 21 17889 CFTR-Intron2-2790 −AGAGAAAAAAGGCUUUCAUUAA 22 17890 CFTR-Intron2-2791 −AAGAGAAAAAAGGCUUUCAUUAA 23 17891 CFTR-Intron2-2792 −GAAGAGAAAAAAGGCUUUCAUUAA 24 17892 CFTR-Intron2-2793 − AGAGUAGGGCUGGGUUAA18 17893 CFTR-Intron2-2794 − CAGAGUAGGGCUGGGUUAA 19 17894CFTR-Intron2-2795 − UCAGAGUAGGGCUGGGUUAA 20 17895 CFTR-Intron2-2796 −AUCAGAGUAGGGCUGGGUUAA 21 17896 CFTR-Intron2-2797 −AAUCAGAGUAGGGCUGGGUUAA 22 17897 CFTR-Intron2-2798 −UAAUCAGAGUAGGGCUGGGUUAA 23 17898 CFTR-Intron2-2799 −UUAAUCAGAGUAGGGCUGGGUUAA 24 17899 CFTR-Intron2-2800 − UGUUCCUAUAGUAUUUAA18 17900 CFTR-Intron2-2801 − GUGUUCCUAUAGUAUUUAA 19 17901CFTR-Intron2-2802 − GGUGUUCCUAUAGUAUUUAA 20 17902 CFTR-Intron2-2803 −UGGUGUUCCUAUAGUAUUUAA 21 17903 CFTR-Intron2-2804 −CUGGUGUUCCUAUAGUAUUUAA 22 17904 CFTR-Intron2-2805 −GCUGGUGUUCCUAUAGUAUUUAA 23 17905 CFTR-Intron2-2806 −AGCUGGUGUUCCUAUAGUAUUUAA 24 17906 CFTR-Intron2-2807 − GUGGACCACUUUUUCACA18 17907 CFTR-Intron2-2808 − UGUGGACCACUUUUUCACA 19 17908CFTR-Intron2-2809 − GUGUGGACCACUUUUUCACA 20 17909 CFTR-Intron2-2810 −CGUGUGGACCACUUUUUCACA 21 17910 CFTR-Intron2-2811 −CCGUGUGGACCACUUUUUCACA 22 17911 CFTR-Intron2-2812 −UCCGUGUGGACCACUUUUUCACA 23 17912 CFTR-Intron2-2813 −UUCCGUGUGGACCACUUUUUCACA 24 17913 CFTR-Intron2-2814 − GAAAUGGCUAGCAUUACA18 17914 CFTR-Intron2-2815 − UGAAAUGGCUAGCAUUACA 19 17915CFTR-Intron2-2816 − GUGAAAUGGCUAGCAUUACA 20 17916 CFTR-Intron2-2817 −UGUGAAAUGGCUAGCAUUACA 21 17917 CFTR-Intron2-2818 −AUGUGAAAUGGCUAGCAUUACA 22 17918 CFTR-Intron2-2819 −AAUGUGAAAUGGCUAGCAUUACA 23 17919 CFTR-Intron2-2820 −GAAUGUGAAAUGGCUAGCAUUACA 24 17920 CFTR-Intron2-2821 − ACUGGCCUUAGGAACUCA18 17921 CFTR-Intron2-2822 − AACUGGCCUUAGGAACUCA 19 17922CFTR-Intron2-2823 − GAACUGGCCUUAGGAACUCA 20 17923 CFTR-Intron2-2824 −AGAACUGGCCUUAGGAACUCA 21 17924 CFTR-Intron2-2825 −GAGAACUGGCCUUAGGAACUCA 22 17925 CFTR-Intron2-2826 −GGAGAACUGGCCUUAGGAACUCA 23 17926 CFTR-Intron2-2827 −UGGAGAACUGGCCUUAGGAACUCA 24 17927 CFTR-Intron2-2828 − AAAGCAAACUGAGGCUCA18 17928 CFTR-Intron2-2829 − AAAAGCAAACUGAGGCUCA 19 17929CFTR-Intron2-2830 − GAAAAGCAAACUGAGGCUCA 20 17930 CFTR-Intron2-2831 −AGAAAAGCAAACUGAGGCUCA 21 17931 CFTR-Intron2-2832 −CAGAAAAGCAAACUGAGGCUCA 22 17932 CFTR-Intron2-2833 −ACAGAAAAGCAAACUGAGGCUCA 23 17933 CFTR-Intron2-2834 −UACAGAAAAGCAAACUGAGGCUCA 24 17934 CFTR-Intron2-2835 − UUUAAGGACCACGAAAGA18 17935 CFTR-Intron2-2836 − CUUUAAGGACCACGAAAGA 19 17936CFTR-Intron2-274 − UCUUUAAGGACCACGAAAGA 20 15374 CFTR-Intron2-2837 −AUCUUUAAGGACCACGAAAGA 21 17937 CFTR-Intron2-2838 −UAUCUUUAAGGACCACGAAAGA 22 17938 CFTR-Intron2-2839 −CUAUCUUUAAGGACCACGAAAGA 23 17939 CFTR-Intron2-2840 −CCUAUCUUUAAGGACCACGAAAGA 24 17940 CFTR-Intron2-2841 − UUUGUAUUUAUGGCCAGA18 17941 CFTR-Intron2-2842 − AUUUGUAUUUAUGGCCAGA 19 17942CFTR-Intron2-2843 − CAUUUGUAUUUAUGGCCAGA 20 17943 CFTR-Intron2-2844 −ACAUUUGUAUUUAUGGCCAGA 21 17944 CFTR-Intron2-2845 −UACAUUUGUAUUUAUGGCCAGA 22 17945 CFTR-Intron2-2846 −AUACAUUUGUAUUUAUGGCCAGA 23 17946 CFTR-Intron2-2847 −GAUACAUUUGUAUUUAUGGCCAGA 24 17947 CFTR-Intron2-2848 − UGGUUUUAUUUUCUCAGA18 17948 CFTR-Intron2-2849 − CUGGUUUUAUUUUCUCAGA 19 17949CFTR-Intron2-2850 − GCUGGUUUUAUUUUCUCAGA 20 17950 CFTR-Intron2-2851 −UGCUGGUUUUAUUUUCUCAGA 21 17951 CFTR-Intron2-2852 −AUGCUGGUUUUAUUUUCUCAGA 22 17952 CFTR-Intron2-2853 −UAUGCUGGUUUUAUUUUCUCAGA 23 17953 CFTR-Intron2-2854 −UUAUGCUGGUUUUAUUUUCUCAGA 24 17954 CFTR-Intron2-2855 − UGUGGGGAGGGAAAUAGA18 17955 CFTR-Intron2-2856 − AUGUGGGGAGGGAAAUAGA 19 17956CFTR-Intron2-278 − CAUGUGGGGAGGGAAAUAGA 20 15378 CFTR-Intron2-2857 −GCAUGUGGGGAGGGAAAUAGA 21 17957 CFTR-Intron2-2858 −AGCAUGUGGGGAGGGAAAUAGA 22 17958 CFTR-Intron2-2859 −AAGCAUGUGGGGAGGGAAAUAGA 23 17959 CFTR-Intron2-2860 −GAAGCAUGUGGGGAGGGAAAUAGA 24 17960 CFTR-Intron2-2861 − GGCCACUCAUAGUCUAGA18 17961 CFTR-Intron2-2862 − GGGCCACUCAUAGUCUAGA 19 17962CFTR-Intron2-2863 − UGGGCCACUCAUAGUCUAGA 20 17963 CFTR-Intron2-2864 −UUGGGCCACUCAUAGUCUAGA 21 17964 CFTR-Intron2-2865 −CUUGGGCCACUCAUAGUCUAGA 22 17965 CFTR-Intron2-2866 −CCUUGGGCCACUCAUAGUCUAGA 23 17966 CFTR-Intron2-2867 −CCCUUGGGCCACUCAUAGUCUAGA 24 17967 CFTR-Intron2-2868 − UAUCUUUAAGGACCACGA18 17968 CFTR-Intron2-2869 − CUAUCUUUAAGGACCACGA 19 17969CFTR-Intron2-2870 − CCUAUCUUUAAGGACCACGA 20 17970 CFTR-Intron2-2871 −UCCUAUCUUUAAGGACCACGA 21 17971 CFTR-Intron2-2872 −CUCCUAUCUUUAAGGACCACGA 22 17972 CFTR-Intron2-2873 −GCUCCUAUCUUUAAGGACCACGA 23 17973 CFTR-Intron2-2874 −UGCUCCUAUCUUUAAGGACCACGA 24 17974 CFTR-Intron2-2875 − UGGAGAAGCAUGUGGGGA18 17975 CFTR-Intron2-2876 − GUGGAGAAGCAUGUGGGGA 19 17976CFTR-Intron2-53 − GGUGGAGAAGCAUGUGGGGA 20 15153 CFTR-Intron2-2877 −AGGUGGAGAAGCAUGUGGGGA 21 17977 CFTR-Intron2-2878 −AAGGUGGAGAAGCAUGUGGGGA 22 17978 CFTR-Intron2-2879 −AAAGGUGGAGAAGCAUGUGGGGA 23 17979 CFTR-Intron2-2880 −GAAAGGUGGAGAAGCAUGUGGGGA 24 17980 CFTR-Intron2-2881 − GUAACCAAAUGUUAUGGA18 17981 CFTR-Intron2-2882 − AGUAACCAAAUGUUAUGGA 19 17982CFTR-Intron2-54 − GAGUAACCAAAUGUUAUGGA 20 15154 CFTR-Intron2-2883 −UGAGUAACCAAAUGUUAUGGA 21 17983 CFTR-Intron2-2884 −CUGAGUAACCAAAUGUUAUGGA 22 17984 CFTR-Intron2-2885 −UCUGAGUAACCAAAUGUUAUGGA 23 17985 CFTR-Intron2-2886 −CUCUGAGUAACCAAAUGUUAUGGA 24 17986 CFTR-Intron2-2887 − UUGCCAGUUAAUGAAUGA18 17987 CFTR-Intron2-2888 − UUUGCCAGUUAAUGAAUGA 19 17988CFTR-Intron2-281 − CUUUGCCAGUUAAUGAAUGA 20 15381 CFTR-Intron2-2889 −ACUUUGCCAGUUAAUGAAUGA 21 17989 CFTR-Intron2-2890 −UACUUUGCCAGUUAAUGAAUGA 22 17990 CFTR-Intron2-2891 −AUACUUUGCCAGUUAAUGAAUGA 23 17991 CFTR-Intron2-2892 −UAUACUUUGCCAGUUAAUGAAUGA 24 17992 CFTR-Intron2-2893 − UCCUCUCAGCCACUCUGA18 17993 CFTR-Intron2-2894 − CUCCUCUCAGCCACUCUGA 19 17994CFTR-Intron2-2895 − UCUCCUCUCAGCCACUCUGA 20 17995 CFTR-Intron2-2896 −AUCUCCUCUCAGCCACUCUGA 21 17996 CFTR-Intron2-2897 −UAUCUCCUCUCAGCCACUCUGA 22 17997 CFTR-Intron2-2898 −AUAUCUCCUCUCAGCCACUCUGA 23 17998 CFTR-Intron2-2899 −AAUAUCUCCUCUCAGCCACUCUGA 24 17999 CFTR-Intron2-2900 − CCUUUUGAUUGCCAGUGA18 18000 CFTR-Intron2-2901 − UCCUUUUGAUUGCCAGUGA 19 18001CFTR-Intron2-2902 − AUCCUUUUGAUUGCCAGUGA 20 18002 CFTR-Intron2-2903 −GAUCCUUUUGAUUGCCAGUGA 21 18003 CFTR-Intron2-2904 −GGAUCCUUUUGAUUGCCAGUGA 22 18004 CFTR-Intron2-2905 −AGGAUCCUUUUGAUUGCCAGUGA 23 18005 CFTR-Intron2-2906 −UAGGAUCCUUUUGAUUGCCAGUGA 24 18006 CFTR-Intron2-2907 − AGAUAAAAGGGUGAGUGA18 18007 CFTR-Intron2-2908 − CAGAUAAAAGGGUGAGUGA 19 18008CFTR-Intron2-283 − CCAGAUAAAAGGGUGAGUGA 20 15383 CFTR-Intron2-2909 −GCCAGAUAAAAGGGUGAGUGA 21 18009 CFTR-Intron2-2910 −UGCCAGAUAAAAGGGUGAGUGA 22 18010 CFTR-Intron2-2911 −AUGCCAGAUAAAAGGGUGAGUGA 23 18011 CFTR-Intron2-2912 −GAUGCCAGAUAAAAGGGUGAGUGA 24 18012 CFTR-Intron2-2913 − UGCCAGAUAAAAGGGUGA18 18013 CFTR-Intron2-2914 − AUGCCAGAUAAAAGGGUGA 19 18014CFTR-Intron2-2915 − GAUGCCAGAUAAAAGGGUGA 20 18015 CFTR-Intron2-2916 −UGAUGCCAGAUAAAAGGGUGA 21 18016 CFTR-Intron2-2917 −CUGAUGCCAGAUAAAAGGGUGA 22 18017 CFTR-Intron2-2918 −CCUGAUGCCAGAUAAAAGGGUGA 23 18018 CFTR-Intron2-2919 −GCCUGAUGCCAGAUAAAAGGGUGA 24 18019 CFTR-Intron2-2920 − GGUUAGCUCUGUGUGUGA18 18020 CFTR-Intron2-2921 − AGGUUAGCUCUGUGUGUGA 19 18021CFTR-Intron2-2922 − GAGGUUAGCUCUGUGUGUGA 20 18022 CFTR-Intron2-2923 −GGAGGUUAGCUCUGUGUGUGA 21 18023 CFTR-Intron2-2924 −GGGAGGUUAGCUCUGUGUGUGA 22 18024 CFTR-Intron2-2925 −UGGGAGGUUAGCUCUGUGUGUGA 23 18025 CFTR-Intron2-2926 −AUGGGAGGUUAGCUCUGUGUGUGA 24 18026 CFTR-Intron2-2927 − GAUCCAUUUCUCCUUUGA18 18027 CFTR-Intron2-2928 − UGAUCCAUUUCUCCUUUGA 19 18028CFTR-Intron2-285 − CUGAUCCAUUUCUCCUUUGA 20 15385 CFTR-Intron2-2929 −UCUGAUCCAUUUCUCCUUUGA 21 18029 CFTR-Intron2-2930 −AUCUGAUCCAUUUCUCCUUUGA 22 18030 CFTR-Intron2-2931 −CAUCUGAUCCAUUUCUCCUUUGA 23 18031 CFTR-Intron2-2932 −CCAUCUGAUCCAUUUCUCCUUUGA 24 18032 CFTR-Intron2-2933 − UGUAUUUAUGGCCAGAUA18 18033 CFTR-Intron2-2934 − UUGUAUUUAUGGCCAGAUA 19 18034CFTR-Intron2-2935 − UUUGUAUUUAUGGCCAGAUA 20 18035 CFTR-Intron2-2936 −AUUUGUAUUUAUGGCCAGAUA 21 18036 CFTR-Intron2-2937 −CAUUUGUAUUUAUGGCCAGAUA 22 18037 CFTR-Intron2-2938 −ACAUUUGUAUUUAUGGCCAGAUA 23 18038 CFTR-Intron2-2939 −UACAUUUGUAUUUAUGGCCAGAUA 24 18039 CFTR-Intron2-2940 − AUUCAAAGAAUUAAGCUA18 18040 CFTR-Intron2-2941 − UAUUCAAAGAAUUAAGCUA 19 18041CFTR-Intron2-2942 − UUAUUCAAAGAAUUAAGCUA 20 18042 CFTR-Intron2-2943 −UUUAUUCAAAGAAUUAAGCUA 21 18043 CFTR-Intron2-2944 −UUUUAUUCAAAGAAUUAAGCUA 22 18044 CFTR-Intron2-2945 −AUUUUAUUCAAAGAAUUAAGCUA 23 18045 CFTR-Intron2-2946 −GAUUUUAUUCAAAGAAUUAAGCUA 24 18046 CFTR-Intron2-2947 − UAUGGUAACUUGACAGUA18 18047 CFTR-Intron2-2948 − UUAUGGUAACUUGACAGUA 19 18048CFTR-Intron2-2949 − CUUAUGGUAACUUGACAGUA 20 18049 CFTR-Intron2-2950 −ACUUAUGGUAACUUGACAGUA 21 18050 CFTR-Intron2-2951 −UACUUAUGGUAACUUGACAGUA 22 18051 CFTR-Intron2-2952 −UUACUUAUGGUAACUUGACAGUA 23 18052 CFTR-Intron2-2953 −UUUACUUAUGGUAACUUGACAGUA 24 18053 CFTR-Intron2-2954 − UUCAAGUUUCACCCAUUA18 18054 CFTR-Intron2-2955 − GUUCAAGUUUCACCCAUUA 19 18055CFTR-Intron2-2956 − UGUUCAAGUUUCACCCAUUA 20 18056 CFTR-Intron2-2957 −UUGUUCAAGUUUCACCCAUUA 21 18057 CFTR-Intron2-2958 −GUUGUUCAAGUUUCACCCAUUA 22 18058 CFTR-Intron2-2959 −AGUUGUUCAAGUUUCACCCAUUA 23 18059 CFTR-Intron2-2960 −AAGUUGUUCAAGUUUCACCCAUUA 24 18060 CFTR-Intron2-2961 − AAGGGCCAGCUUCUAUUA18 18061 CFTR-Intron2-2962 − CAAGGGCCAGCUUCUAUUA 19 18062CFTR-Intron2-2963 − UCAAGGGCCAGCUUCUAUUA 20 18063 CFTR-Intron2-2964 −AUCAAGGGCCAGCUUCUAUUA 21 18064 CFTR-Intron2-2965 −GAUCAAGGGCCAGCUUCUAUUA 22 18065 CFTR-Intron2-2966 −AGAUCAAGGGCCAGCUUCUAUUA 23 18066 CFTR-Intron2-2967 −AAGAUCAAGGGCCAGCUUCUAUUA 24 18067 CFTR-Intron2-2968 − AUUGGUAUUUGAAAUUUA18 18068 CFTR-Intron2-2969 − AAUUGGUAUUUGAAAUUUA 19 18069CFTR-Intron2-2970 − AAAUUGGUAUUUGAAAUUUA 20 18070 CFTR-Intron2-2971 −AAAAUUGGUAUUUGAAAUUUA 21 18071 CFTR-Intron2-2972 −UAAAAUUGGUAUUUGAAAUUUA 22 18072 CFTR-Intron2-2973 −AUAAAAUUGGUAUUUGAAAUUUA 23 18073 CFTR-Intron2-2974 −UAUAAAAUUGGUAUUUGAAAUUUA 24 18074 CFTR-Intron2-2975 − AAAGGUAAUUAGGCUUUA18 18075 CFTR-Intron2-2976 − AAAAGGUAAUUAGGCUUUA 19 18076CFTR-Intron2-2977 − GAAAAGGUAAUUAGGCUUUA 20 18077 CFTR-Intron2-2978 −GGAAAAGGUAAUUAGGCUUUA 21 18078 CFTR-Intron2-2979 −GGGAAAAGGUAAUUAGGCUUUA 22 18079 CFTR-Intron2-2980 −UGGGAAAAGGUAAUUAGGCUUUA 23 18080 CFTR-Intron2-2981 −AUGGGAAAAGGUAAUUAGGCUUUA 24 18081 CFTR-Intron2-2982 − AUCAUUAUCUCUAUUUUA18 18082 CFTR-Intron2-2983 − CAUCAUUAUCUCUAUUUUA 19 18083CFTR-Intron2-2984 − GCAUCAUUAUCUCUAUUUUA 20 18084 CFTR-Intron2-2985 −AGCAUCAUUAUCUCUAUUUUA 21 18085 CFTR-Intron2-2986 −AAGCAUCAUUAUCUCUAUUUUA 22 18086 CFTR-Intron2-2987 −AAAGCAUCAUUAUCUCUAUUUUA 23 18087 CFTR-Intron2-2988 −GAAAGCAUCAUUAUCUCUAUUUUA 24 18088 CFTR-Intron2-2989 − UACAUUGCCCAGGGUCAC18 18089 CFTR-Intron2-2990 − CUACAUUGCCCAGGGUCAC 19 18090CFTR-Intron2-2991 − ACUACAUUGCCCAGGGUCAC 20 18091 CFTR-Intron2-2992 −AACUACAUUGCCCAGGGUCAC 21 18092 CFTR-Intron2-2993 −AAACUACAUUGCCCAGGGUCAC 22 18093 CFTR-Intron2-2994 −AAAACUACAUUGCCCAGGGUCAC 23 18094 CFTR-Intron2-2995 −UAAAACUACAUUGCCCAGGGUCAC 24 18095 CFTR-Intron2-2996 − CCUGGUAUGUGGUCCUAC18 18096 CFTR-Intron2-2997 − GCCUGGUAUGUGGUCCUAC 19 18097CFTR-Intron2-2998 − GGCCUGGUAUGUGGUCCUAC 20 18098 CFTR-Intron2-2999 −GGGCCUGGUAUGUGGUCCUAC 21 18099 CFTR-Intron2-3000 −UGGGCCUGGUAUGUGGUCCUAC 22 18100 CFTR-Intron2-3001 −CUGGGCCUGGUAUGUGGUCCUAC 23 18101 CFTR-Intron2-3002 −UCUGGGCCUGGUAUGUGGUCCUAC 24 18102 CFTR-Intron2-3003 − UUUGUCUUAUUAGAGACC18 18103 CFTR-Intron2-3004 − AUUUGUCUUAUUAGAGACC 19 18104CFTR-Intron2-3005 − AAUUUGUCUUAUUAGAGACC 20 18105 CFTR-Intron2-3006 −GAAUUUGUCUUAUUAGAGACC 21 18106 CFTR-Intron2-3007 −AGAAUUUGUCUUAUUAGAGACC 22 18107 CFTR-Intron2-3008 −GAGAAUUUGUCUUAUUAGAGACC 23 18108 CFTR-Intron2-3009 −AGAGAAUUUGUCUUAUUAGAGACC 24 18109 CFTR-Intron2-3010 − CUCCUAUCUUUAAGGACC18 18110 CFTR-Intron2-3011 − GCUCCUAUCUUUAAGGACC 19 18111CFTR-Intron2-3012 − UGCUCCUAUCUUUAAGGACC 20 18112 CFTR-Intron2-3013 −UUGCUCCUAUCUUUAAGGACC 21 18113 CFTR-Intron2-3014 −UUUGCUCCUAUCUUUAAGGACC 22 18114 CFTR-Intron2-3015 −CUUUGCUCCUAUCUUUAAGGACC 23 18115 CFTR-Intron2-3016 −UCUUUGCUCCUAUCUUUAAGGACC 24 18116 CFTR-Intron2-3017 − UAGGAACUCAAUGGGACC18 18117 CFTR-Intron2-3018 − UUAGGAACUCAAUGGGACC 19 18118CFTR-Intron2-3019 − CUUAGGAACUCAAUGGGACC 20 18119 CFTR-Intron2-3020 −CCUUAGGAACUCAAUGGGACC 21 18120 CFTR-Intron2-3021 −GCCUUAGGAACUCAAUGGGACC 22 18121 CFTR-Intron2-3022 −GGCCUUAGGAACUCAAUGGGACC 23 18122 CFTR-Intron2-3023 −UGGCCUUAGGAACUCAAUGGGACC 24 18123 CFTR-Intron2-3024 − CUUUGUACCUCUGCACCC18 18124 CFTR-Intron2-3025 − ACUUUGUACCUCUGCACCC 19 18125CFTR-Intron2-3026 − UACUUUGUACCUCUGCACCC 20 18126 CFTR-Intron2-3027 −GUACUUUGUACCUCUGCACCC 21 18127 CFTR-Intron2-3028 −GGUACUUUGUACCUCUGCACCC 22 18128 CFTR-Intron2-3029 −UGGUACUUUGUACCUCUGCACCC 23 18129 CFTR-Intron2-3030 −UUGGUACUUUGUACCUCUGCACCC 24 18130 CFTR-Intron2-3031 − AGUCAUAGUGCUUACCCC18 18131 CFTR-Intron2-3032 − GAGUCAUAGUGCUUACCCC 19 18132CFTR-Intron2-3033 − UGAGUCAUAGUGCUUACCCC 20 18133 CFTR-Intron2-3034 −UUGAGUCAUAGUGCUUACCCC 21 18134 CFTR-Intron2-3035 −CUUGAGUCAUAGUGCUUACCCC 22 18135 CFTR-Intron2-3036 −UCUUGAGUCAUAGUGCUUACCCC 23 18136 CFTR-Intron2-3037 −CUCUUGAGUCAUAGUGCUUACCCC 24 18137 CFTR-Intron2-3038 − GAAUACAAAUGUACUCCC18 18138 CFTR-Intron2-3039 − UGAAUACAAAUGUACUCCC 19 18139CFTR-Intron2-312 − UUGAAUACAAAUGUACUCCC 20 15412 CFTR-Intron2-3040 −UUUGAAUACAAAUGUACUCCC 21 18140 CFTR-Intron2-3041 −AUUUGAAUACAAAUGUACUCCC 22 18141 CFTR-Intron2-3042 −UAUUUGAAUACAAAUGUACUCCC 23 18142 CFTR-Intron2-3043 −AUAUUUGAAUACAAAUGUACUCCC 24 18143 CFTR-Intron2-3044 − UUGGUGUGUGCAAAUGCC18 18144 CFTR-Intron2-3045 − CUUGGUGUGUGCAAAUGCC 19 18145CFTR-Intron2-3046 − ACUUGGUGUGUGCAAAUGCC 20 18146 CFTR-Intron2-3047 −CACUUGGUGUGUGCAAAUGCC 21 18147 CFTR-Intron2-3048 −ACACUUGGUGUGUGCAAAUGCC 22 18148 CFTR-Intron2-3049 −AACACUUGGUGUGUGCAAAUGCC 23 18149 CFTR-Intron2-3050 −GAACACUUGGUGUGUGCAAAUGCC 24 18150 CFTR-Intron2-3051 − GCUAAAUGUGAAAAAUCC18 18151 CFTR-Intron2-3052 − GGCUAAAUGUGAAAAAUCC 19 18152CFTR-Intron2-3053 − UGGCUAAAUGUGAAAAAUCC 20 18153 CFTR-Intron2-3054 −UUGGCUAAAUGUGAAAAAUCC 21 18154 CFTR-Intron2-3055 −CUUGGCUAAAUGUGAAAAAUCC 22 18155 CFTR-Intron2-3056 −CCUUGGCUAAAUGUGAAAAAUCC 23 18156 CFTR-Intron2-3057 −UCCUUGGCUAAAUGUGAAAAAUCC 24 18157 CFTR-Intron2-3058 − UGAAUACAAAUGUACUCC18 18158 CFTR-Intron2-3059 − UUGAAUACAAAUGUACUCC 19 18159CFTR-Intron2-3060 − UUUGAAUACAAAUGUACUCC 20 18160 CFTR-Intron2-3061 −AUUUGAAUACAAAUGUACUCC 21 18161 CFTR-Intron2-3062 −UAUUUGAAUACAAAUGUACUCC 22 18162 CFTR-Intron2-3063 −AUAUUUGAAUACAAAUGUACUCC 23 18163 CFTR-Intron2-3064 −UAUAUUUGAAUACAAAUGUACUCC 24 18164 CFTR-Intron2-3065 − UUUAUUGGCUCAUGAAGC18 18165 CFTR-Intron2-3066 − AUUUAUUGGCUCAUGAAGC 19 18166CFTR-Intron2-3067 − AAUUUAUUGGCUCAUGAAGC 20 18167 CFTR-Intron2-3068 −GAAUUUAUUGGCUCAUGAAGC 21 18168 CFTR-Intron2-3069 −CGAAUUUAUUGGCUCAUGAAGC 22 18169 CFTR-Intron2-3070 −ACGAAUUUAUUGGCUCAUGAAGC 23 18170 CFTR-Intron2-3071 −AACGAAUUUAUUGGCUCAUGAAGC 24 18171 CFTR-Intron2-3072 − CUCAGUCUCCUGAGUAGC18 18172 CFTR-Intron2-3073 − UCUCAGUCUCCUGAGUAGC 19 18173CFTR-Intron2-656 − AUCUCAGUCUCCUGAGUAGC 20 15756 CFTR-Intron2-3074 −AAUCUCAGUCUCCUGAGUAGC 21 18174 CFTR-Intron2-3075 −GAAUCUCAGUCUCCUGAGUAGC 22 18175 CFTR-Intron2-3076 −CGAAUCUCAGUCUCCUGAGUAGC 23 18176 CFTR-Intron2-3077 −GCGAAUCUCAGUCUCCUGAGUAGC 24 18177 CFTR-Intron2-3078 − AGUGUUGGGAUUAGUGGC18 18178 CFTR-Intron2-3079 − AAGUGUUGGGAUUAGUGGC 19 18179CFTR-Intron2-3080 − AAAGUGUUGGGAUUAGUGGC 20 18180 CFTR-Intron2-3081 −CAAAGUGUUGGGAUUAGUGGC 21 18181 CFTR-Intron2-3082 −CCAAAGUGUUGGGAUUAGUGGC 22 18182 CFTR-Intron2-3083 −CCCAAAGUGUUGGGAUUAGUGGC 23 18183 CFTR-Intron2-3084 −UCCCAAAGUGUUGGGAUUAGUGGC 24 18184 CFTR-Intron2-3085 − AGAAACCUGUAGCAUUGC18 18185 CFTR-Intron2-3086 − UAGAAACCUGUAGCAUUGC 19 18186CFTR-Intron2-325 − AUAGAAACCUGUAGCAUUGC 20 15425 CFTR-Intron2-3087 −CAUAGAAACCUGUAGCAUUGC 21 18187 CFTR-Intron2-3088 −ACAUAGAAACCUGUAGCAUUGC 22 18188 CFTR-Intron2-3089 −UACAUAGAAACCUGUAGCAUUGC 23 18189 CFTR-Intron2-3090 −UUACAUAGAAACCUGUAGCAUUGC 24 18190 CFTR-Intron2-3091 − AUUCACACUUCUAAGAUC18 18191 CFTR-Intron2-3092 − GAUUCACACUUCUAAGAUC 19 18192CFTR-Intron2-3093 − AGAUUCACACUUCUAAGAUC 20 18193 CFTR-Intron2-3094 −CAGAUUCACACUUCUAAGAUC 21 18194 CFTR-Intron2-3095 −GCAGAUUCACACUUCUAAGAUC 22 18195 CFTR-Intron2-3096 −AGCAGAUUCACACUUCUAAGAUC 23 18196 CFTR-Intron2-3097 −UAGCAGAUUCACACUUCUAAGAUC 24 18197 CFTR-Intron2-3098 − UCAUUUACAUCUCAGCUC18 18198 CFTR-Intron2-3099 − UUCAUUUACAUCUCAGCUC 19 18199CFTR-Intron2-3100 − UUUCAUUUACAUCUCAGCUC 20 18200 CFTR-Intron2-3101 −CUUUCAUUUACAUCUCAGCUC 21 18201 CFTR-Intron2-3102 −ACUUUCAUUUACAUCUCAGCUC 22 18202 CFTR-Intron2-3103 −CACUUUCAUUUACAUCUCAGCUC 23 18203 CFTR-Intron2-3104 −UCACUUUCAUUUACAUCUCAGCUC 24 18204 CFTR-Intron2-3105 − GAACGAAUUUAUUGGCUC18 18205 CFTR-Intron2-3106 − GGAACGAAUUUAUUGGCUC 19 18206CFTR-Intron2-3107 − AGGAACGAAUUUAUUGGCUC 20 18207 CFTR-Intron2-3108 −AAGGAACGAAUUUAUUGGCUC 21 18208 CFTR-Intron2-3109 −AAAGGAACGAAUUUAUUGGCUC 22 18209 CFTR-Intron2-3110 −AAAAGGAACGAAUUUAUUGGCUC 23 18210 CFTR-Intron2-3111 −UAAAAGGAACGAAUUUAUUGGCUC 24 18211 CFTR-Intron2-3112 − CUGUAUUGCCUUGCUCUC18 18212 CFTR-Intron2-3113 − UCUGUAUUGCCUUGCUCUC 19 18213CFTR-Intron2-3114 − GUCUGUAUUGCCUUGCUCUC 20 18214 CFTR-Intron2-3115 −GGUCUGUAUUGCCUUGCUCUC 21 18215 CFTR-Intron2-3116 −AGGUCUGUAUUGCCUUGCUCUC 22 18216 CFTR-Intron2-3117 −GAGGUCUGUAUUGCCUUGCUCUC 23 18217 CFTR-Intron2-3118 −UGAGGUCUGUAUUGCCUUGCUCUC 24 18218 CFTR-Intron2-3119 − AUGCUGGCCAGGCUGGUC18 18219 CFTR-Intron2-3120 − UAUGCUGGCCAGGCUGGUC 19 18220CFTR-Intron2-3121 − CUAUGCUGGCCAGGCUGGUC 20 18221 CFTR-Intron2-3122 −GCUAUGCUGGCCAGGCUGGUC 21 18222 CFTR-Intron2-3123 −UGCUAUGCUGGCCAGGCUGGUC 22 18223 CFTR-Intron2-3124 −UUGCUAUGCUGGCCAGGCUGGUC 23 18224 CFTR-Intron2-3125 −UUUGCUAUGCUGGCCAGGCUGGUC 24 18225 CFTR-Intron2-3126 − AUGUUGGCCAGGCUGGUC18 18226 CFTR-Intron2-3127 − CAUGUUGGCCAGGCUGGUC 19 18227CFTR-Intron2-3128 − CCAUGUUGGCCAGGCUGGUC 20 18228 CFTR-Intron2-3129 −GCCAUGUUGGCCAGGCUGGUC 21 18229 CFTR-Intron2-3130 −CGCCAUGUUGGCCAGGCUGGUC 22 18230 CFTR-Intron2-3131 −UCGCCAUGUUGGCCAGGCUGGUC 23 18231 CFTR-Intron2-3132 −UUCGCCAUGUUGGCCAGGCUGGUC 24 18232 CFTR-Intron2-3133 − CUCUCAUUAGCAAGCUUC18 18233 CFTR-Intron2-3134 − GCUCUCAUUAGCAAGCUUC 19 18234CFTR-Intron2-3135 − GGCUCUCAUUAGCAAGCUUC 20 18235 CFTR-Intron2-3136 −GGGCUCUCAUUAGCAAGCUUC 21 18236 CFTR-Intron2-3137 −AGGGCUCUCAUUAGCAAGCUUC 22 18237 CFTR-Intron2-3138 −AAGGGCUCUCAUUAGCAAGCUUC 23 18238 CFTR-Intron2-3139 −GAAGGGCUCUCAUUAGCAAGCUUC 24 18239 CFTR-Intron2-3140 − AGUUCUUCCUUGUGGUUC18 18240 CFTR-Intron2-3141 − UAGUUCUUCCUUGUGGUUC 19 18241CFTR-Intron2-3142 − CUAGUUCUUCCUUGUGGUUC 20 18242 CFTR-Intron2-3143 −CCUAGUUCUUCCUUGUGGUUC 21 18243 CFTR-Intron2-3144 −ACCUAGUUCUUCCUUGUGGUUC 22 18244 CFTR-Intron2-3145 −UACCUAGUUCUUCCUUGUGGUUC 23 18245 CFTR-Intron2-3146 −UUACCUAGUUCUUCCUUGUGGUUC 24 18246 CFTR-Intron2-3147 − UCUGUGUGUGAGAGAAAG18 18247 CFTR-Intron2-3148 − CUCUGUGUGUGAGAGAAAG 19 18248CFTR-Intron2-3149 − GCUCUGUGUGUGAGAGAAAG 20 18249 CFTR-Intron2-3150 −AGCUCUGUGUGUGAGAGAAAG 21 18250 CFTR-Intron2-3151 −UAGCUCUGUGUGUGAGAGAAAG 22 18251 CFTR-Intron2-3152 −UUAGCUCUGUGUGUGAGAGAAAG 23 18252 CFTR-Intron2-3153 −GUUAGCUCUGUGUGUGAGAGAAAG 24 18253 CFTR-Intron2-3154 − CUUUAAGGACCACGAAAG18 18254 CFTR-Intron2-3155 − UCUUUAAGGACCACGAAAG 19 18255CFTR-Intron2-3156 − AUCUUUAAGGACCACGAAAG 20 18256 CFTR-Intron2-3157 −UAUCUUUAAGGACCACGAAAG 21 18257 CFTR-Intron2-3158 −CUAUCUUUAAGGACCACGAAAG 22 18258 CFTR-Intron2-3159 −CCUAUCUUUAAGGACCACGAAAG 23 18259 CFTR-Intron2-3160 −UCCUAUCUUUAAGGACCACGAAAG 24 18260 CFTR-Intron2-3161 − AUGGAGCCAUGAUUCCAG18 18261 CFTR-Intron2-3162 − GAUGGAGCCAUGAUUCCAG 19 18262CFTR-Intron2-3163 − UGAUGGAGCCAUGAUUCCAG 20 18263 CFTR-Intron2-3164 −AUGAUGGAGCCAUGAUUCCAG 21 18264 CFTR-Intron2-3165 −AAUGAUGGAGCCAUGAUUCCAG 22 18265 CFTR-Intron2-3166 −GAAUGAUGGAGCCAUGAUUCCAG 23 18266 CFTR-Intron2-3167 −UGAAUGAUGGAGCCAUGAUUCCAG 24 18267 CFTR-Intron2-3168 − GGGAAUGAUUAAUCAGAG18 18268 CFTR-Intron2-3169 − AGGGAAUGAUUAAUCAGAG 19 18269CFTR-Intron2-3170 − GAGGGAAUGAUUAAUCAGAG 20 18270 CFTR-Intron2-3171 −UGAGGGAAUGAUUAAUCAGAG 21 18271 CFTR-Intron2-3172 −CUGAGGGAAUGAUUAAUCAGAG 22 18272 CFTR-Intron2-3173 −GCUGAGGGAAUGAUUAAUCAGAG 23 18273 CFTR-Intron2-3174 −UGCUGAGGGAAUGAUUAAUCAGAG 24 18274 CFTR-Intron2-3175 − UGGCUAAUUUUUGUAGAG18 18275 CFTR-Intron2-3176 − CUGGCUAAUUUUUGUAGAG 19 18276CFTR-Intron2-3177 − CCUGGCUAAUUUUUGUAGAG 20 18277 CFTR-Intron2-3178 −GCCUGGCUAAUUUUUGUAGAG 21 18278 CFTR-Intron2-3179 −GGCCUGGCUAAUUUUUGUAGAG 22 18279 CFTR-Intron2-3180 −AGGCCUGGCUAAUUUUUGUAGAG 23 18280 CFTR-Intron2-3181 −CAGGCCUGGCUAAUUUUUGUAGAG 24 18281 CFTR-Intron2-3182 − CCUCUCAGCCACUCUGAG18 18282 CFTR-Intron2-3183 − UCCUCUCAGCCACUCUGAG 19 18283CFTR-Intron2-344 − CUCCUCUCAGCCACUCUGAG 20 15444 CFTR-Intron2-3184 −UCUCCUCUCAGCCACUCUGAG 21 18284 CFTR-Intron2-3185 −AUCUCCUCUCAGCCACUCUGAG 22 18285 CFTR-Intron2-3186 −UAUCUCCUCUCAGCCACUCUGAG 23 18286 CFTR-Intron2-3187 −AUAUCUCCUCUCAGCCACUCUGAG 24 18287 CFTR-Intron2-3188 − AUGUGGGGAGGGAAAUAG18 18288 CFTR-Intron2-3189 − CAUGUGGGGAGGGAAAUAG 19 18289CFTR-Intron2-3190 − GCAUGUGGGGAGGGAAAUAG 20 18290 CFTR-Intron2-3191 −AGCAUGUGGGGAGGGAAAUAG 21 18291 CFTR-Intron2-3192 −AAGCAUGUGGGGAGGGAAAUAG 22 18292 CFTR-Intron2-3193 −GAAGCAUGUGGGGAGGGAAAUAG 23 18293 CFTR-Intron2-3194 −AGAAGCAUGUGGGGAGGGAAAUAG 24 18294 CFTR-Intron2-3195 − GGUAAUUAGGCUUUAUAG18 18295 CFTR-Intron2-3196 − AGGUAAUUAGGCUUUAUAG 19 18296CFTR-Intron2-3197 − AAGGUAAUUAGGCUUUAUAG 20 18297 CFTR-Intron2-3198 −AAAGGUAAUUAGGCUUUAUAG 21 18298 CFTR-Intron2-3199 −AAAAGGUAAUUAGGCUUUAUAG 22 18299 CFTR-Intron2-3200 −GAAAAGGUAAUUAGGCUUUAUAG 23 18300 CFTR-Intron2-3201 −GGAAAAGGUAAUUAGGCUUUAUAG 24 18301 CFTR-Intron2-3202 − AACUAUGUGAAGACCUAG18 18302 CFTR-Intron2-3203 − GAACUAUGUGAAGACCUAG 19 18303CFTR-Intron2-3204 − UGAACUAUGUGAAGACCUAG 20 18304 CFTR-Intron2-3205 −CUGAACUAUGUGAAGACCUAG 21 18305 CFTR-Intron2-3206 −CCUGAACUAUGUGAAGACCUAG 22 18306 CFTR-Intron2-3207 −GCCUGAACUAUGUGAAGACCUAG 23 18307 CFTR-Intron2-3208 −AGCCUGAACUAUGUGAAGACCUAG 24 18308 CFTR-Intron2-3209 − UUCAAAGAAUUAAGCUAG18 18309 CFTR-Intron2-3210 − AUUCAAAGAAUUAAGCUAG 19 18310CFTR-Intron2-345 − UAUUCAAAGAAUUAAGCUAG 20 15445 CFTR-Intron2-3211 −UUAUUCAAAGAAUUAAGCUAG 21 18311 CFTR-Intron2-3212 −UUUAUUCAAAGAAUUAAGCUAG 22 18312 CFTR-Intron2-3213 −UUUUAUUCAAAGAAUUAAGCUAG 23 18313 CFTR-Intron2-3214 −AUUUUAUUCAAAGAAUUAAGCUAG 24 18314 CFTR-Intron2-3215 − UCUCAGUCUCCUGAGUAG18 18315 CFTR-Intron2-3216 − AUCUCAGUCUCCUGAGUAG 19 18316CFTR-Intron2-3217 − AAUCUCAGUCUCCUGAGUAG 20 18317 CFTR-Intron2-3218 −GAAUCUCAGUCUCCUGAGUAG 21 18318 CFTR-Intron2-3219 −CGAAUCUCAGUCUCCUGAGUAG 22 18319 CFTR-Intron2-3220 −GCGAAUCUCAGUCUCCUGAGUAG 23 18320 CFTR-Intron2-3221 −AGCGAAUCUCAGUCUCCUGAGUAG 24 18321 CFTR-Intron2-3222 − AAUACAUGAUUUUAGUAG18 18322 CFTR-Intron2-3223 − UAAUACAUGAUUUUAGUAG 19 18323CFTR-Intron2-3224 − UUAAUACAUGAUUUUAGUAG 20 18324 CFTR-Intron2-3225 −UUUAAUACAUGAUUUUAGUAG 21 18325 CFTR-Intron2-3226 −CUUUAAUACAUGAUUUUAGUAG 22 18326 CFTR-Intron2-3227 −CCUUUAAUACAUGAUUUUAGUAG 23 18327 CFTR-Intron2-3228 −ACCUUUAAUACAUGAUUUUAGUAG 24 18328 CFTR-Intron2-3229 − CUGUGUGUGAGAGAAAGG18 18329 CFTR-Intron2-3230 − UCUGUGUGUGAGAGAAAGG 19 18330CFTR-Intron2-678 − CUCUGUGUGUGAGAGAAAGG 20 15778 CFTR-Intron2-3231 −GCUCUGUGUGUGAGAGAAAGG 21 18331 CFTR-Intron2-3232 −AGCUCUGUGUGUGAGAGAAAGG 22 18332 CFTR-Intron2-3233 −UAGCUCUGUGUGUGAGAGAAAGG 23 18333 CFTR-Intron2-3234 −UUAGCUCUGUGUGUGAGAGAAAGG 24 18334 CFTR-Intron2-3235 − CUCGCUGUGUCACCCAGG18 18335 CFTR-Intron2-3236 − UCUCGCUGUGUCACCCAGG 19 18336CFTR-Intron2-3237 − GUCUCGCUGUGUCACCCAGG 20 18337 CFTR-Intron2-3238 −AGUCUCGCUGUGUCACCCAGG 21 18338 CFTR-Intron2-3239 −GAGUCUCGCUGUGUCACCCAGG 22 18339 CFTR-Intron2-3240 −AGAGUCUCGCUGUGUCACCCAGG 23 18340 CFTR-Intron2-3241 −CAGAGUCUCGCUGUGUCACCCAGG 24 18341 CFTR-Intron2-3242 − CUUGCUCUGUUGCCCAGG18 18342 CFTR-Intron2-3243 − UCUUGCUCUGUUGCCCAGG 19 18343CFTR-Intron2-3244 − GUCUUGCUCUGUUGCCCAGG 20 18344 CFTR-Intron2-3245 −AGUCUUGCUCUGUUGCCCAGG 21 18345 CFTR-Intron2-3246 −GAGUCUUGCUCUGUUGCCCAGG 22 18346 CFTR-Intron2-3247 −AGAGUCUUGCUCUGUUGCCCAGG 23 18347 CFTR-Intron2-3248 −CAGAGUCUUGCUCUGUUGCCCAGG 24 18348 CFTR-Intron2-3249 − UGUGCAAAUGCCAUGAGG18 18349 CFTR-Intron2-3250 − GUGUGCAAAUGCCAUGAGG 19 18350CFTR-Intron2-3251 − UGUGUGCAAAUGCCAUGAGG 20 18351 CFTR-Intron2-3252 −GUGUGUGCAAAUGCCAUGAGG 21 18352 CFTR-Intron2-3253 −GGUGUGUGCAAAUGCCAUGAGG 22 18353 CFTR-Intron2-3254 −UGGUGUGUGCAAAUGCCAUGAGG 23 18354 CFTR-Intron2-3255 −UUGGUGUGUGCAAAUGCCAUGAGG 24 18355 CFTR-Intron2-3256 − ACUAUGUGAAGACCUAGG18 18356 CFTR-Intron2-3257 − AACUAUGUGAAGACCUAGG 19 18357CFTR-Intron2-69 − GAACUAUGUGAAGACCUAGG 20 15169 CFTR-Intron2-3258 −UGAACUAUGUGAAGACCUAGG 21 18358 CFTR-Intron2-3259 −CUGAACUAUGUGAAGACCUAGG 22 18359 CFTR-Intron2-3260 −CCUGAACUAUGUGAAGACCUAGG 23 18360 CFTR-Intron2-3261 −GCCUGAACUAUGUGAAGACCUAGG 24 18361 CFTR-Intron2-3262 − GUGGAGAAGCAUGUGGGG18 18362 CFTR-Intron2-3263 − GGUGGAGAAGCAUGUGGGG 19 18363CFTR-Intron2-682 − AGGUGGAGAAGCAUGUGGGG 20 15782 CFTR-Intron2-3264 −AAGGUGGAGAAGCAUGUGGGG 21 18364 CFTR-Intron2-3265 −AAAGGUGGAGAAGCAUGUGGGG 22 18365 CFTR-Intron2-3266 −GAAAGGUGGAGAAGCAUGUGGGG 23 18366 CFTR-Intron2-3267 −AGAAAGGUGGAGAAGCAUGUGGGG 24 18367 CFTR-Intron2-3268 − GGUGGAGAAGCAUGUGGG18 18368 CFTR-Intron2-3269 − AGGUGGAGAAGCAUGUGGG 19 18369CFTR-Intron2-3270 − AAGGUGGAGAAGCAUGUGGG 20 18370 CFTR-Intron2-3271 −AAAGGUGGAGAAGCAUGUGGG 21 18371 CFTR-Intron2-3272 −GAAAGGUGGAGAAGCAUGUGGG 22 18372 CFTR-Intron2-3273 −AGAAAGGUGGAGAAGCAUGUGGG 23 18373 CFTR-Intron2-3274 −GAGAAAGGUGGAGAAGCAUGUGGG 24 18374 CFTR-Intron2-3275 − CAAGUGGUUGCCAGAUGG18 18375 CFTR-Intron2-3276 − UCAAGUGGUUGCCAGAUGG 19 18376CFTR-Intron2-3277 − CUCAAGUGGUUGCCAGAUGG 20 18377 CFTR-Intron2-3278 −CCUCAAGUGGUUGCCAGAUGG 21 18378 CFTR-Intron2-3279 −CCCUCAAGUGGUUGCCAGAUGG 22 18379 CFTR-Intron2-3280 −GCCCUCAAGUGGUUGCCAGAUGG 23 18380 CFTR-Intron2-3281 −GGCCCUCAAGUGGUUGCCAGAUGG 24 18381 CFTR-Intron2-3282 − AGUAACCAAAUGUUAUGG18 18382 CFTR-Intron2-3283 − GAGUAACCAAAUGUUAUGG 19 18383CFTR-Intron2-3284 − UGAGUAACCAAAUGUUAUGG 20 18384 CFTR-Intron2-3285 −CUGAGUAACCAAAUGUUAUGG 21 18385 CFTR-Intron2-3286 −UCUGAGUAACCAAAUGUUAUGG 22 18386 CFTR-Intron2-3287 −CUCUGAGUAACCAAAUGUUAUGG 23 18387 CFTR-Intron2-3288 −ACUCUGAGUAACCAAAUGUUAUGG 24 18388 CFTR-Intron2-3289 − CCUUGGCCUCCCAAAAUG18 18389 CFTR-Intron2-3290 − ACCUUGGCCUCCCAAAAUG 19 18390CFTR-Intron2-3291 − CACCUUGGCCUCCCAAAAUG 20 18391 CFTR-Intron2-3292 −CCACCUUGGCCUCCCAAAAUG 21 18392 CFTR-Intron2-3293 −CCCACCUUGGCCUCCCAAAAUG 22 18393 CFTR-Intron2-3294 −GCCCACCUUGGCCUCCCAAAAUG 23 18394 CFTR-Intron2-3295 −UGCCCACCUUGGCCUCCCAAAAUG 24 18395 CFTR-Intron2-3296 − UUUGCCAGUUAAUGAAUG18 18396 CFTR-Intron2-3297 − CUUUGCCAGUUAAUGAAUG 19 18397CFTR-Intron2-3298 − ACUUUGCCAGUUAAUGAAUG 20 18398 CFTR-Intron2-3299 −UACUUUGCCAGUUAAUGAAUG 21 18399 CFTR-Intron2-3300 −AUACUUUGCCAGUUAAUGAAUG 22 18400 CFTR-Intron2-3301 −UAUACUUUGCCAGUUAAUGAAUG 23 18401 CFTR-Intron2-3302 −AUAUACUUUGCCAGUUAAUGAAUG 24 18402 CFTR-Intron2-3303 − UUGUUGAAUGAAUCCAUG18 18403 CFTR-Intron2-3304 − UUUGUUGAAUGAAUCCAUG 19 18404CFTR-Intron2-3305 − AUUUGUUGAAUGAAUCCAUG 20 18405 CFTR-Intron2-3306 −UAUUUGUUGAAUGAAUCCAUG 21 18406 CFTR-Intron2-3307 −AUAUUUGUUGAAUGAAUCCAUG 22 18407 CFTR-Intron2-3308 −AAUAUUUGUUGAAUGAAUCCAUG 23 18408 CFTR-Intron2-3309 −AAAUAUUUGUUGAAUGAAUCCAUG 24 18409 CFTR-Intron2-3310 − GAAAGGUGGAGAAGCAUG18 18410 CFTR-Intron2-3311 − AGAAAGGUGGAGAAGCAUG 19 18411CFTR-Intron2-467 − GAGAAAGGUGGAGAAGCAUG 20 15567 CFTR-Intron2-3312 −AGAGAAAGGUGGAGAAGCAUG 21 18412 CFTR-Intron2-3313 −GAGAGAAAGGUGGAGAAGCAUG 22 18413 CFTR-Intron2-3314 −UGAGAGAAAGGUGGAGAAGCAUG 23 18414 CFTR-Intron2-3315 −GUGAGAGAAAGGUGGAGAAGCAUG 24 18415 CFTR-Intron2-3316 − CUAAGUUUUAAUUGGAUG18 18416 CFTR-Intron2-3317 − UCUAAGUUUUAAUUGGAUG 19 18417CFTR-Intron2-3318 − AUCUAAGUUUUAAUUGGAUG 20 18418 CFTR-Intron2-3319 −UAUCUAAGUUUUAAUUGGAUG 21 18419 CFTR-Intron2-3320 −AUAUCUAAGUUUUAAUUGGAUG 22 18420 CFTR-Intron2-3321 −AAUAUCUAAGUUUUAAUUGGAUG 23 18421 CFTR-Intron2-3322 −GAAUAUCUAAGUUUUAAUUGGAUG 24 18422 CFTR-Intron2-3323 − UCCAUUUCUCCUUUGAUG18 18423 CFTR-Intron2-3324 − AUCCAUUUCUCCUUUGAUG 19 18424CFTR-Intron2-3325 − GAUCCAUUUCUCCUUUGAUG 20 18425 CFTR-Intron2-3326 −UGAUCCAUUUCUCCUUUGAUG 21 18426 CFTR-Intron2-3327 −CUGAUCCAUUUCUCCUUUGAUG 22 18427 CFTR-Intron2-3328 −UCUGAUCCAUUUCUCCUUUGAUG 23 18428 CFTR-Intron2-3329 −AUCUGAUCCAUUUCUCCUUUGAUG 24 18429 CFTR-Intron2-3330 − UAAUGGGAAUAACCACUG18 18430 CFTR-Intron2-3331 − GUAAUGGGAAUAACCACUG 19 18431CFTR-Intron2-3332 − AGUAAUGGGAAUAACCACUG 20 18432 CFTR-Intron2-3333 −CAGUAAUGGGAAUAACCACUG 21 18433 CFTR-Intron2-3334 −ACAGUAAUGGGAAUAACCACUG 22 18434 CFTR-Intron2-3335 −GACAGUAAUGGGAAUAACCACUG 23 18435 CFTR-Intron2-3336 −UGACAGUAAUGGGAAUAACCACUG 24 18436 CFTR-Intron2-3337 − AGUUUUAAUUGGAUGCUG18 18437 CFTR-Intron2-3338 − AAGUUUUAAUUGGAUGCUG 19 18438CFTR-Intron2-364 − UAAGUUUUAAUUGGAUGCUG 20 15464 CFTR-Intron2-3339 −CUAAGUUUUAAUUGGAUGCUG 21 18439 CFTR-Intron2-3340 −UCUAAGUUUUAAUUGGAUGCUG 22 18440 CFTR-Intron2-3341 −AUCUAAGUUUUAAUUGGAUGCUG 23 18441 CFTR-Intron2-3342 −UAUCUAAGUUUUAAUUGGAUGCUG 24 18442 CFTR-Intron2-3343 − AAACCUGUAGCAUUGCUG18 18443 CFTR-Intron2-3344 − GAAACCUGUAGCAUUGCUG 19 18444CFTR-Intron2-3345 − AGAAACCUGUAGCAUUGCUG 20 18445 CFTR-Intron2-3346 −UAGAAACCUGUAGCAUUGCUG 21 18446 CFTR-Intron2-3347 −AUAGAAACCUGUAGCAUUGCUG 22 18447 CFTR-Intron2-3348 −CAUAGAAACCUGUAGCAUUGCUG 23 18448 CFTR-Intron2-3349 −ACAUAGAAACCUGUAGCAUUGCUG 24 18449 CFTR-Intron2-3350 − CCUUGGCCUCCCAAAGUG18 18450 CFTR-Intron2-3351 − GCCUUGGCCUCCCAAAGUG 19 18451CFTR-Intron2-3352 − CGCCUUGGCCUCCCAAAGUG 20 18452 CFTR-Intron2-3353 −CCGCCUUGGCCUCCCAAAGUG 21 18453 CFTR-Intron2-3354 −CCCGCCUUGGCCUCCCAAAGUG 22 18454 CFTR-Intron2-3355 −GCCCGCCUUGGCCUCCCAAAGUG 23 18455 CFTR-Intron2-3356 −UGCCCGCCUUGGCCUCCCAAAGUG 24 18456 CFTR-Intron2-3357 − CAGAUAAAAGGGUGAGUG18 18457 CFTR-Intron2-3358 − CCAGAUAAAAGGGUGAGUG 19 18458CFTR-Intron2-3359 − GCCAGAUAAAAGGGUGAGUG 20 18459 CFTR-Intron2-3360 −UGCCAGAUAAAAGGGUGAGUG 21 18460 CFTR-Intron2-3361 −AUGCCAGAUAAAAGGGUGAGUG 22 18461 CFTR-Intron2-3362 −GAUGCCAGAUAAAAGGGUGAGUG 23 18462 CFTR-Intron2-3363 −UGAUGCCAGAUAAAAGGGUGAGUG 24 18463 CFTR-Intron2-3364 − GUGUGUGAGAGAAAGGUG18 18464 CFTR-Intron2-3365 − UGUGUGUGAGAGAAAGGUG 19 18465CFTR-Intron2-3366 − CUGUGUGUGAGAGAAAGGUG 20 18466 CFTR-Intron2-3367 −UCUGUGUGUGAGAGAAAGGUG 21 18467 CFTR-Intron2-3368 −CUCUGUGUGUGAGAGAAAGGUG 22 18468 CFTR-Intron2-3369 −GCUCUGUGUGUGAGAGAAAGGUG 23 18469 CFTR-Intron2-3370 −AGCUCUGUGUGUGAGAGAAAGGUG 24 18470 CFTR-Intron2-3371 − UAUGUGAAGACCUAGGUG18 18471 CFTR-Intron2-3372 − CUAUGUGAAGACCUAGGUG 19 18472CFTR-Intron2-3373 − ACUAUGUGAAGACCUAGGUG 20 18473 CFTR-Intron2-3374 −AACUAUGUGAAGACCUAGGUG 21 18474 CFTR-Intron2-3375 −GAACUAUGUGAAGACCUAGGUG 22 18475 CFTR-Intron2-3376 −UGAACUAUGUGAAGACCUAGGUG 23 18476 CFTR-Intron2-3377 −CUGAACUAUGUGAAGACCUAGGUG 24 18477 CFTR-Intron2-3378 − AAGGUGGAGAAGCAUGUG18 18478 CFTR-Intron2-3379 − AAAGGUGGAGAAGCAUGUG 19 18479CFTR-Intron2-468 − GAAAGGUGGAGAAGCAUGUG 20 15568 CFTR-Intron2-3380 −AGAAAGGUGGAGAAGCAUGUG 21 18480 CFTR-Intron2-3381 −GAGAAAGGUGGAGAAGCAUGUG 22 18481 CFTR-Intron2-3382 −AGAGAAAGGUGGAGAAGCAUGUG 23 18482 CFTR-Intron2-3383 −GAGAGAAAGGUGGAGAAGCAUGUG 24 18483 CFTR-Intron2-3384 − AUAUUUUAUUCCUUUGUG18 18484 CFTR-Intron2-3385 − GAUAUUUUAUUCCUUUGUG 19 18485CFTR-Intron2-3386 − AGAUAUUUUAUUCCUUUGUG 20 18486 CFTR-Intron2-3387 −GAGAUAUUUUAUUCCUUUGUG 21 18487 CFTR-Intron2-3388 −AGAGAUAUUUUAUUCCUUUGUG 22 18488 CFTR-Intron2-3389 −UAGAGAUAUUUUAUUCCUUUGUG 23 18489 CFTR-Intron2-3390 −UUAGAGAUAUUUUAUUCCUUUGUG 24 18490 CFTR-Intron2-3391 − UAGAAACCUGUAGCAUUG18 18491 CFTR-Intron2-3392 − AUAGAAACCUGUAGCAUUG 19 18492CFTR-Intron2-3393 − CAUAGAAACCUGUAGCAUUG 20 18493 CFTR-Intron2-3394 −ACAUAGAAACCUGUAGCAUUG 21 18494 CFTR-Intron2-3395 −UACAUAGAAACCUGUAGCAUUG 22 18495 CFTR-Intron2-3396 −UUACAUAGAAACCUGUAGCAUUG 23 18496 CFTR-Intron2-3397 −AUUACAUAGAAACCUGUAGCAUUG 24 18497 CFTR-Intron2-3398 − GUGGUUGCCAGAUGGUUG18 18498 CFTR-Intron2-3399 − AGUGGUUGCCAGAUGGUUG 19 18499CFTR-Intron2-3400 − AAGUGGUUGCCAGAUGGUUG 20 18500 CFTR-Intron2-3401 −CAAGUGGUUGCCAGAUGGUUG 21 18501 CFTR-Intron2-3402 −UCAAGUGGUUGCCAGAUGGUUG 22 18502 CFTR-Intron2-3403 −CUCAAGUGGUUGCCAGAUGGUUG 23 18503 CFTR-Intron2-3404 −CCUCAAGUGGUUGCCAGAUGGUUG 24 18504 CFTR-Intron2-3405 − UGAUCCAUUUCUCCUUUG18 18505 CFTR-Intron2-3406 − CUGAUCCAUUUCUCCUUUG 19 18506CFTR-Intron2-3407 − UCUGAUCCAUUUCUCCUUUG 20 18507 CFTR-Intron2-3408 −AUCUGAUCCAUUUCUCCUUUG 21 18508 CFTR-Intron2-3409 −CAUCUGAUCCAUUUCUCCUUUG 22 18509 CFTR-Intron2-3410 −CCAUCUGAUCCAUUUCUCCUUUG 23 18510 CFTR-Intron2-3411 −CCCAUCUGAUCCAUUUCUCCUUUG 24 18511 CFTR-Intron2-3412 − AGGCCUGGCUAAUUUUUG18 18512 CFTR-Intron2-3413 − CAGGCCUGGCUAAUUUUUG 19 18513CFTR-Intron2-3414 − CCAGGCCUGGCUAAUUUUUG 20 18514 CFTR-Intron2-3415 −ACCAGGCCUGGCUAAUUUUUG 21 18515 CFTR-Intron2-3416 −CACCAGGCCUGGCUAAUUUUUG 22 18516 CFTR-Intron2-3417 −CCACCAGGCCUGGCUAAUUUUUG 23 18517 CFTR-Intron2-3418 −ACCACCAGGCCUGGCUAAUUUUUG 24 18518 CFTR-Intron2-3419 − CUUUGUCCUUGGCUAAAU18 18519 CFTR-Intron2-3420 − CCUUUGUCCUUGGCUAAAU 19 18520CFTR-Intron2-3421 − CCCUUUGUCCUUGGCUAAAU 20 18521 CFTR-Intron2-3422 −GCCCUUUGUCCUUGGCUAAAU 21 18522 CFTR-Intron2-3423 −AGCCCUUUGUCCUUGGCUAAAU 22 18523 CFTR-Intron2-3424 −GAGCCCUUUGUCCUUGGCUAAAU 23 18524 CFTR-Intron2-3425 −GGAGCCCUUUGUCCUUGGCUAAAU 24 18525 CFTR-Intron2-3426 − AUGAAUCCAUGAUGGAAU18 18526 CFTR-Intron2-3427 − AAUGAAUCCAUGAUGGAAU 19 18527CFTR-Intron2-3428 − GAAUGAAUCCAUGAUGGAAU 20 18528 CFTR-Intron2-3429 −UGAAUGAAUCCAUGAUGGAAU 21 18529 CFTR-Intron2-3430 −UUGAAUGAAUCCAUGAUGGAAU 22 18530 CFTR-Intron2-3431 −GUUGAAUGAAUCCAUGAUGGAAU 23 18531 CFTR-Intron2-3432 −UGUUGAAUGAAUCCAUGAUGGAAU 24 18532 CFTR-Intron2-3433 − AGAAAGGUGGAGAAGCAU18 18533 CFTR-Intron2-3434 − GAGAAAGGUGGAGAAGCAU 19 18534CFTR-Intron2-3435 − AGAGAAAGGUGGAGAAGCAU 20 18535 CFTR-Intron2-3436 −GAGAGAAAGGUGGAGAAGCAU 21 18536 CFTR-Intron2-3437 −UGAGAGAAAGGUGGAGAAGCAU 22 18537 CFTR-Intron2-3438 −GUGAGAGAAAGGUGGAGAAGCAU 23 18538 CFTR-Intron2-3439 −UGUGAGAGAAAGGUGGAGAAGCAU 24 18539 CFTR-Intron2-3440 − GUGGGGAGGGAAAUAGAU18 18540 CFTR-Intron2-3441 − UGUGGGGAGGGAAAUAGAU 19 18541CFTR-Intron2-377 − AUGUGGGGAGGGAAAUAGAU 20 15477 CFTR-Intron2-3442 −CAUGUGGGGAGGGAAAUAGAU 21 18542 CFTR-Intron2-3443 −GCAUGUGGGGAGGGAAAUAGAU 22 18543 CFTR-Intron2-3444 −AGCAUGUGGGGAGGGAAAUAGAU 23 18544 CFTR-Intron2-3445 −AAGCAUGUGGGGAGGGAAAUAGAU 24 18545 CFTR-Intron2-3446 − UUUUGUAUUUUAGUAGAU18 18546 CFTR-Intron2-3447 − UUUUUGUAUUUUAGUAGAU 19 18547CFTR-Intron2-3448 − AUUUUUGUAUUUUAGUAGAU 20 18548 CFTR-Intron2-3449 −AAUUUUUGUAUUUUAGUAGAU 21 18549 CFTR-Intron2-3450 −UAAUUUUUGUAUUUUAGUAGAU 22 18550 CFTR-Intron2-3451 −CUAAUUUUUGUAUUUUAGUAGAU 23 18551 CFTR-Intron2-3452 −GCUAAUUUUUGUAUUUUAGUAGAU 24 18552 CFTR-Intron2-3453 − CAAGAUUGUAGUCAGGAU18 18553 CFTR-Intron2-3454 − CCAAGAUUGUAGUCAGGAU 19 18554CFTR-Intron2-3455 − UCCAAGAUUGUAGUCAGGAU 20 18555 CFTR-Intron2-3456 −UUCCAAGAUUGUAGUCAGGAU 21 18556 CFTR-Intron2-3457 −GUUCCAAGAUUGUAGUCAGGAU 22 18557 CFTR-Intron2-3458 −CGUUCCAAGAUUGUAGUCAGGAU 23 18558 CFTR-Intron2-3459 −CCGUUCCAAGAUUGUAGUCAGGAU 24 18559 CFTR-Intron2-3460 − UAACCAAAUGUUAUGGAU18 18560 CFTR-Intron2-3461 − GUAACCAAAUGUUAUGGAU 19 18561CFTR-Intron2-378 − AGUAACCAAAUGUUAUGGAU 20 15478 CFTR-Intron2-3462 −GAGUAACCAAAUGUUAUGGAU 21 18562 CFTR-Intron2-3463 −UGAGUAACCAAAUGUUAUGGAU 22 18563 CFTR-Intron2-3464 −CUGAGUAACCAAAUGUUAUGGAU 23 18564 CFTR-Intron2-3465 −UCUGAGUAACCAAAUGUUAUGGAU 24 18565 CFTR-Intron2-3466 − AACUUCUUCCCUUCUGAU18 18566 CFTR-Intron2-3467 − AAACUUCUUCCCUUCUGAU 19 18567CFTR-Intron2-3468 − AAAACUUCUUCCCUUCUGAU 20 18568 CFTR-Intron2-3469 −UAAAACUUCUUCCCUUCUGAU 21 18569 CFTR-Intron2-3470 −AUAAAACUUCUUCCCUUCUGAU 22 18570 CFTR-Intron2-3471 −AAUAAAACUUCUUCCCUUCUGAU 23 18571 CFTR-Intron2-3472 −GAAUAAAACUUCUUCCCUUCUGAU 24 18572 CFTR-Intron2-3473 − UCAUGAAGCCUGAACUAU18 18573 CFTR-Intron2-3474 − CUCAUGAAGCCUGAACUAU 19 18574CFTR-Intron2-3475 − GCUCAUGAAGCCUGAACUAU 20 18575 CFTR-Intron2-3476 −GGCUCAUGAAGCCUGAACUAU 21 18576 CFTR-Intron2-3477 −UGGCUCAUGAAGCCUGAACUAU 22 18577 CFTR-Intron2-3478 −UUGGCUCAUGAAGCCUGAACUAU 23 18578 CFTR-Intron2-3479 −AUUGGCUCAUGAAGCCUGAACUAU 24 18579 CFTR-Intron2-3480 − UUCUUAUAAAAUUGGUAU18 18580 CFTR-Intron2-3481 − UUUCUUAUAAAAUUGGUAU 19 18581CFTR-Intron2-3482 − UUUUCUUAUAAAAUUGGUAU 20 18582 CFTR-Intron2-3483 −CUUUUCUUAUAAAAUUGGUAU 21 18583 CFTR-Intron2-3484 −UCUUUUCUUAUAAAAUUGGUAU 22 18584 CFTR-Intron2-3485 −UUCUUUUCUUAUAAAAUUGGUAU 23 18585 CFTR-Intron2-3486 −CUUCUUUUCUUAUAAAAUUGGUAU 24 18586 CFTR-Intron2-3487 − UCAGAGAAUUUGUCUUAU18 18587 CFTR-Intron2-3488 − UUCAGAGAAUUUGUCUUAU 19 18588CFTR-Intron2-3489 − UUUCAGAGAAUUUGUCUUAU 20 18589 CFTR-Intron2-3490 −GUUUCAGAGAAUUUGUCUUAU 21 18590 CFTR-Intron2-3491 −GGUUUCAGAGAAUUUGUCUUAU 22 18591 CFTR-Intron2-3492 −UGGUUUCAGAGAAUUUGUCUUAU 23 18592 CFTR-Intron2-3493 −UUGGUUUCAGAGAAUUUGUCUUAU 24 18593 CFTR-Intron2-3494 − UUUGUACCUCUGCACCCU18 18594 CFTR-Intron2-3495 − CUUUGUACCUCUGCACCCU 19 18595CFTR-Intron2-705 − ACUUUGUACCUCUGCACCCU 20 15805 CFTR-Intron2-3496 −UACUUUGUACCUCUGCACCCU 21 18596 CFTR-Intron2-3497 −GUACUUUGUACCUCUGCACCCU 22 18597 CFTR-Intron2-3498 −GGUACUUUGUACCUCUGCACCCU 23 18598 CFTR-Intron2-3499 −UGGUACUUUGUACCUCUGCACCCU 24 18599 CFTR-Intron2-3500 − AAUACAAAUGUACUCCCU18 18600 CFTR-Intron2-3501 − GAAUACAAAUGUACUCCCU 19 18601CFTR-Intron2-389 − UGAAUACAAAUGUACUCCCU 20 15489 CFTR-Intron2-3502 −UUGAAUACAAAUGUACUCCCU 21 18602 CFTR-Intron2-3503 −UUUGAAUACAAAUGUACUCCCU 22 18603 CFTR-Intron2-3504 −AUUUGAAUACAAAUGUACUCCCU 23 18604 CFTR-Intron2-3505 −UAUUUGAAUACAAAUGUACUCCCU 24 18605 CFTR-Intron2-3506 − UAGGUGGAGAACUGGCCU18 18606 CFTR-Intron2-3507 − CUAGGUGGAGAACUGGCCU 19 18607CFTR-Intron2-3508 − CCUAGGUGGAGAACUGGCCU 20 18608 CFTR-Intron2-3509 −ACCUAGGUGGAGAACUGGCCU 21 18609 CFTR-Intron2-3510 −GACCUAGGUGGAGAACUGGCCU 22 18610 CFTR-Intron2-3511 −AGACCUAGGUGGAGAACUGGCCU 23 18611 CFTR-Intron2-3512 −AAGACCUAGGUGGAGAACUGGCCU 24 18612 CFTR-Intron2-3513 − GAAAAGCAAACUGAGGCU18 18613 CFTR-Intron2-3514 − AGAAAAGCAAACUGAGGCU 19 18614CFTR-Intron2-3515 − CAGAAAAGCAAACUGAGGCU 20 18615 CFTR-Intron2-3516 −ACAGAAAAGCAAACUGAGGCU 21 18616 CFTR-Intron2-3517 −UACAGAAAAGCAAACUGAGGCU 22 18617 CFTR-Intron2-3518 −UUACAGAAAAGCAAACUGAGGCU 23 18618 CFTR-Intron2-3519 −UUUACAGAAAAGCAAACUGAGGCU 24 18619 CFTR-Intron2-3520 − GAUGCCAAGAUCCAUGCU18 18620 CFTR-Intron2-3521 − GGAUGCCAAGAUCCAUGCU 19 18621CFTR-Intron2-3522 − GGGAUGCCAAGAUCCAUGCU 20 18622 CFTR-Intron2-3523 −GGGGAUGCCAAGAUCCAUGCU 21 18623 CFTR-Intron2-3524 −AGGGGAUGCCAAGAUCCAUGCU 22 18624 CFTR-Intron2-3525 −UAGGGGAUGCCAAGAUCCAUGCU 23 18625 CFTR-Intron2-3526 −CUAGGGGAUGCCAAGAUCCAUGCU 24 18626 CFTR-Intron2-3527 − AAGUUUUAAUUGGAUGCU18 18627 CFTR-Intron2-3528 − UAAGUUUUAAUUGGAUGCU 19 18628CFTR-Intron2-3529 − CUAAGUUUUAAUUGGAUGCU 20 18629 CFTR-Intron2-3530 −UCUAAGUUUUAAUUGGAUGCU 21 18630 CFTR-Intron2-3531 −AUCUAAGUUUUAAUUGGAUGCU 22 18631 CFTR-Intron2-3532 −UAUCUAAGUUUUAAUUGGAUGCU 23 18632 CFTR-Intron2-3533 −AUAUCUAAGUUUUAAUUGGAUGCU 24 18633 CFTR-Intron2-3534 − UCUCAUUAGCAAGCUUCU18 18634 CFTR-Intron2-3535 − CUCUCAUUAGCAAGCUUCU 19 18635CFTR-Intron2-75 − GCUCUCAUUAGCAAGCUUCU 20 15175 CFTR-Intron2-3536 −GGCUCUCAUUAGCAAGCUUCU 21 18636 CFTR-Intron2-3537 −GGGCUCUCAUUAGCAAGCUUCU 22 18637 CFTR-Intron2-3538 −AGGGCUCUCAUUAGCAAGCUUCU 23 18638 CFTR-Intron2-3539 −AAGGGCUCUCAUUAGCAAGCUUCU 24 18639 CFTR-Intron2-3540 − UUUUCAUCUCUGUACAGU18 18640 CFTR-Intron2-3541 − UUUUUCAUCUCUGUACAGU 19 18641CFTR-Intron2-3542 − AUUUUUCAUCUCUGUACAGU 20 18642 CFTR-Intron2-3543 −AAUUUUUCAUCUCUGUACAGU 21 18643 CFTR-Intron2-3544 −AAAUUUUUCAUCUCUGUACAGU 22 18644 CFTR-Intron2-3545 −GAAAUUUUUCAUCUCUGUACAGU 23 18645 CFTR-Intron2-3546 −UGAAAUUUUUCAUCUCUGUACAGU 24 18646 CFTR-Intron2-3547 − UUUCUACAUUACUUCCGU18 18647 CFTR-Intron2-3548 − CUUUCUACAUUACUUCCGU 19 18648CFTR-Intron2-3549 − CCUUUCUACAUUACUUCCGU 20 18649 CFTR-Intron2-3550 −ACCUUUCUACAUUACUUCCGU 21 18650 CFTR-Intron2-3551 −CACCUUUCUACAUUACUUCCGU 22 18651 CFTR-Intron2-3552 −ACACCUUUCUACAUUACUUCCGU 23 18652 CFTR-Intron2-3553 −AACACCUUUCUACAUUACUUCCGU 24 18653 CFTR-Intron2-3554 − AAUGCUGGGAUUAUAGGU18 18654 CFTR-Intron2-3555 − AAAUGCUGGGAUUAUAGGU 19 18655CFTR-Intron2-3556 − AAAAUGCUGGGAUUAUAGGU 20 18656 CFTR-Intron2-3557 −CAAAAUGCUGGGAUUAUAGGU 21 18657 CFTR-Intron2-3558 −CCAAAAUGCUGGGAUUAUAGGU 22 18658 CFTR-Intron2-3559 −CCCAAAAUGCUGGGAUUAUAGGU 23 18659 CFTR-Intron2-3560 −UCCCAAAAUGCUGGGAUUAUAGGU 24 18660 CFTR-Intron2-3561 − AUAAAGUGGGUCCCUGGU18 18661 CFTR-Intron2-3562 − CAUAAAGUGGGUCCCUGGU 19 18662CFTR-Intron2-3563 − ACAUAAAGUGGGUCCCUGGU 20 18663 CFTR-Intron2-3564 −UACAUAAAGUGGGUCCCUGGU 21 18664 CFTR-Intron2-3565 −CUACAUAAAGUGGGUCCCUGGU 22 18665 CFTR-Intron2-3566 −UCUACAUAAAGUGGGUCCCUGGU 23 18666 CFTR-Intron2-3567 −UUCUACAUAAAGUGGGUCCCUGGU 24 18667 CFTR-Intron2-3568 − AAAGGUGGAGAAGCAUGU18 18668 CFTR-Intron2-3569 − GAAAGGUGGAGAAGCAUGU 19 18669CFTR-Intron2-406 − AGAAAGGUGGAGAAGCAUGU 20 15506 CFTR-Intron2-3570 −GAGAAAGGUGGAGAAGCAUGU 21 18670 CFTR-Intron2-3571 −AGAGAAAGGUGGAGAAGCAUGU 22 18671 CFTR-Intron2-3572 −GAGAGAAAGGUGGAGAAGCAUGU 23 18672 CFTR-Intron2-3573 −UGAGAGAAAGGUGGAGAAGCAUGU 24 18673 CFTR-Intron2-3574 − GGGAGGUUAGCUCUGUGU18 18674 CFTR-Intron2-3575 − UGGGAGGUUAGCUCUGUGU 19 18675CFTR-Intron2-3576 − AUGGGAGGUUAGCUCUGUGU 20 18676 CFTR-Intron2-3577 −GAUGGGAGGUUAGCUCUGUGU 21 18677 CFTR-Intron2-3578 −GGAUGGGAGGUUAGCUCUGUGU 22 18678 CFTR-Intron2-3579 −UGGAUGGGAGGUUAGCUCUGUGU 23 18679 CFTR-Intron2-3580 −AUGGAUGGGAGGUUAGCUCUGUGU 24 18680 CFTR-Intron2-3581 − GAGGUUAGCUCUGUGUGU18 18681 CFTR-Intron2-3582 − GGAGGUUAGCUCUGUGUGU 19 18682CFTR-Intron2-3583 − GGGAGGUUAGCUCUGUGUGU 20 18683 CFTR-Intron2-3584 −UGGGAGGUUAGCUCUGUGUGU 21 18684 CFTR-Intron2-3585 −AUGGGAGGUUAGCUCUGUGUGU 22 18685 CFTR-Intron2-3586 −GAUGGGAGGUUAGCUCUGUGUGU 23 18686 CFTR-Intron2-3587 −GGAUGGGAGGUUAGCUCUGUGUGU 24 18687 CFTR-Intron2-3588 − AACUAAAGUAACACCAUU18 18688 CFTR-Intron2-3589 − AAACUAAAGUAACACCAUU 19 18689CFTR-Intron2-3590 − AAAACUAAAGUAACACCAUU 20 18690 CFTR-Intron2-3591 −GAAAACUAAAGUAACACCAUU 21 18691 CFTR-Intron2-3592 −UGAAAACUAAAGUAACACCAUU 22 18692 CFTR-Intron2-3593 −GUGAAAACUAAAGUAACACCAUU 23 18693 CFTR-Intron2-3594 −UGUGAAAACUAAAGUAACACCAUU 24 18694 CFTR-Intron2-3595 − UUUCCUUUUUUUGGCAUU18 18695 CFTR-Intron2-3596 − AUUUCCUUUUUUUGGCAUU 19 18696CFTR-Intron2-3597 − CAUUUCCUUUUUUUGGCAUU 20 18697 CFTR-Intron2-3598 −UCAUUUCCUUUUUUUGGCAUU 21 18698 CFTR-Intron2-3599 −UUCAUUUCCUUUUUUUGGCAUU 22 18699 CFTR-Intron2-3600 −AUUCAUUUCCUUUUUUUGGCAUU 23 18700 CFTR-Intron2-3601 −AAUUCAUUUCCUUUUUUUGGCAUU 24 18701 CFTR-Intron2-3602 − UACUCCUUUAGAGUGAUU18 18702 CFTR-Intron2-3603 − UUACUCCUUUAGAGUGAUU 19 18703CFTR-Intron2-3604 − AUUACUCCUUUAGAGUGAUU 20 18704 CFTR-Intron2-3605 −UAUUACUCCUUUAGAGUGAUU 21 18705 CFTR-Intron2-3606 −CUAUUACUCCUUUAGAGUGAUU 22 18706 CFTR-Intron2-3607 −CCUAUUACUCCUUUAGAGUGAUU 23 18707 CFTR-Intron2-3608 −GCCUAUUACUCCUUUAGAGUGAUU 24 18708 CFTR-Intron2-3609 − GAAAUUUAUUGAAAUAUU18 18709 CFTR-Intron2-3610 − UGAAAUUUAUUGAAAUAUU 19 18710CFTR-Intron2-3611 − UUGAAAUUUAUUGAAAUAUU 20 18711 CFTR-Intron2-3612 −UUUGAAAUUUAUUGAAAUAUU 21 18712 CFTR-Intron2-3613 −AUUUGAAAUUUAUUGAAAUAUU 22 18713 CFTR-Intron2-3614 −UAUUUGAAAUUUAUUGAAAUAUU 23 18714 CFTR-Intron2-3615 −GUAUUUGAAAUUUAUUGAAAUAUU 24 18715 CFTR-Intron2-3616 − AAUUAAGAUGAUAAUAUU18 18716 CFTR-Intron2-3617 − AAAUUAAGAUGAUAAUAUU 19 18717CFTR-Intron2-3618 − AAAAUUAAGAUGAUAAUAUU 20 18718 CFTR-Intron2-3619 −GAAAAUUAAGAUGAUAAUAUU 21 18719 CFTR-Intron2-3620 −UGAAAAUUAAGAUGAUAAUAUU 22 18720 CFTR-Intron2-3621 −UUGAAAAUUAAGAUGAUAAUAUU 23 18721 CFTR-Intron2-3622 −UUUGAAAAUUAAGAUGAUAAUAUU 24 18722 CFTR-Intron2-3623 − UUGUACCUCUGCACCCUU18 18723 CFTR-Intron2-3624 − UUUGUACCUCUGCACCCUU 19 18724CFTR-Intron2-412 − CUUUGUACCUCUGCACCCUU 20 15512 CFTR-Intron2-3625 −ACUUUGUACCUCUGCACCCUU 21 18725 CFTR-Intron2-3626 −UACUUUGUACCUCUGCACCCUU 22 18726 CFTR-Intron2-3627 −GUACUUUGUACCUCUGCACCCUU 23 18727 CFTR-Intron2-3628 −GGUACUUUGUACCUCUGCACCCUU 24 18728 CFTR-Intron2-3629 − AGGUGGAGAACUGGCCUU18 18729 CFTR-Intron2-3630 − UAGGUGGAGAACUGGCCUU 19 18730CFTR-Intron2-414 − CUAGGUGGAGAACUGGCCUU 20 15514 CFTR-Intron2-3631 −CCUAGGUGGAGAACUGGCCUU 21 18731 CFTR-Intron2-3632 −ACCUAGGUGGAGAACUGGCCUU 22 18732 CFTR-Intron2-3633 −GACCUAGGUGGAGAACUGGCCUU 23 18733 CFTR-Intron2-3634 −AGACCUAGGUGGAGAACUGGCCUU 24 18734 CFTR-Intron2-3635 − GGUCACUAGAGACCUCUU18 18735 CFTR-Intron2-3636 − GGGUCACUAGAGACCUCUU 19 18736CFTR-Intron2-3637 − AGGGUCACUAGAGACCUCUU 20 18737 CFTR-Intron2-3638 −CAGGGUCACUAGAGACCUCUU 21 18738 CFTR-Intron2-3639 −CCAGGGUCACUAGAGACCUCUU 22 18739 CFTR-Intron2-3640 −CCCAGGGUCACUAGAGACCUCUU 23 18740 CFTR-Intron2-3641 −GCCCAGGGUCACUAGAGACCUCUU 24 18741 CFTR-Intron2-3642 − AAAUUUAUUGAAAUAUUU18 18742 CFTR-Intron2-3643 − GAAAUUUAUUGAAAUAUUU 19 18743CFTR-Intron2-721 − UGAAAUUUAUUGAAAUAUUU 20 15821 CFTR-Intron2-3644 −UUGAAAUUUAUUGAAAUAUUU 21 18744 CFTR-Intron2-3645 −UUUGAAAUUUAUUGAAAUAUUU 22 18745 CFTR-Intron2-3646 −AUUUGAAAUUUAUUGAAAUAUUU 23 18746 CFTR-Intron2-3647 −UAUUUGAAAUUUAUUGAAAUAUUU 24 18747 CFTR-Intron2-3648 − GAGAUAUUUUAUUCCUUU18 18748 CFTR-Intron2-3649 − AGAGAUAUUUUAUUCCUUU 19 18749CFTR-Intron2-3650 − UAGAGAUAUUUUAUUCCUUU 20 18750 CFTR-Intron2-3651 −UUAGAGAUAUUUUAUUCCUUU 21 18751 CFTR-Intron2-3652 −UUUAGAGAUAUUUUAUUCCUUU 22 18752 CFTR-Intron2-3653 −AUUUAGAGAUAUUUUAUUCCUUU 23 18753 CFTR-Intron2-3654 −UAUUUAGAGAUAUUUUAUUCCUUU 24 18754 CFTR-Intron2-3655 − CUCUUUGCUCCUAUCUUU18 18755 CFTR-Intron2-3656 − ACUCUUUGCUCCUAUCUUU 19 18756CFTR-Intron2-3657 − AACUCUUUGCUCCUAUCUUU 20 18757 CFTR-Intron2-3658 −GAACUCUUUGCUCCUAUCUUU 21 18758 CFTR-Intron2-3659 −AGAACUCUUUGCUCCUAUCUUU 22 18759 CFTR-Intron2-3660 −UAGAACUCUUUGCUCCUAUCUUU 23 18760 CFTR-Intron2-3661 −UUAGAACUCUUUGCUCCUAUCUUU 24 18761 CFTR-Intron2-3662 − AAAAUACACAUUUGGUUU18 18762 CFTR-Intron2-3663 − AAAAAUACACAUUUGGUUU 19 18763CFTR-Intron2-3664 − GAAAAAUACACAUUUGGUUU 20 18764 CFTR-Intron2-3665 −UGAAAAAUACACAUUUGGUUU 21 18765 CFTR-Intron2-3666 −CUGAAAAAUACACAUUUGGUUU 22 18766 CFTR-Intron2-3667 −CCUGAAAAAUACACAUUUGGUUU 23 18767 CFTR-Intron2-3668 −UCCUGAAAAAUACACAUUUGGUUU 24 18768 CFTR-Intron2-3669 − UUGUUGUUGCUGUUGUUU18 18769 CFTR-Intron2-3670 − GUUGUUGUUGCUGUUGUUU 19 18770CFTR-Intron2-3671 − UGUUGUUGUUGCUGUUGUUU 20 18771 CFTR-Intron2-3672 −UUGUUGUUGUUGCUGUUGUUU 21 18772 CFTR-Intron2-3673 −GUUGUUGUUGUUGCUGUUGUUU 22 18773 CFTR-Intron2-3674 −UGUUGUUGUUGUUGCUGUUGUUU 23 18774 CFTR-Intron2-3675 −UUGUUGUUGUUGUUGCUGUUGUUU 24 18775 CFTR-Intron2-3676 − UGUUUGUGUUGUUUGUUU18 18776 CFTR-Intron2-3677 − UUGUUUGUGUUGUUUGUUU 19 18777CFTR-Intron2-3678 − UUUGUUUGUGUUGUUUGUUU 20 18778 CFTR-Intron2-3679 −GUUUGUUUGUGUUGUUUGUUU 21 18779 CFTR-Intron2-3680 −UGUUUGUUUGUGUUGUUUGUUU 22 18780 CFTR-Intron2-3681 −UUGUUUGUUUGUGUUGUUUGUUU 23 18781 CFTR-Intron2-3682 −UUUGUUUGUUUGUGUUGUUUGUUU 24 18782 CFTR-Intron2-3683 − GACCAUGAGAUGGAUUUU18 18783 CFTR-Intron2-3684 − AGACCAUGAGAUGGAUUUU 19 18784CFTR-Intron2-3685 − GAGACCAUGAGAUGGAUUUU 20 18785 CFTR-Intron2-3686 −AGAGACCAUGAGAUGGAUUUU 21 18786 CFTR-Intron2-3687 −UAGAGACCAUGAGAUGGAUUUU 22 18787 CFTR-Intron2-3688 −UUAGAGACCAUGAGAUGGAUUUU 23 18788 CFTR-Intron2-3689 −AUUAGAGACCAUGAGAUGGAUUUU 24 18789

Table 39A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within intron 2, have a highlevel of orthogonality and start with a 5′G. It is contemplated hereinthat in an embodiment the targeting domain hybridizes to the targetdomain through complementary base pairing. Any of the targeting domainsin the Table can be used with a N. meningitidis Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 39A 1st Tier Target  DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-3690 − GGUGAGUCUGCUCCAUA 17 18790CFTR-Intron2-3691 − GGCCUAUUACUCCUUUA 17 18791 CFTR-Intron2-3692 +GUGAAUCUGCUACUCCC 17 18792 CFTR-Intron2-3693 + GUUUUGAAAGCAAAUAU 1718793 CFTR-Intron2-3694 + GGAUCUUGGCAUCCCCU 17 18794 CFTR-Intron2-3695 +GCACACUGCAGUUAUGU 17 18795 CFTR-Intron2-3696 − GAAGGUGAGUCUGCUCCAUA 2018796 CFTR-Intron2-3697 + GAACUUGUCAAUAUACCUGC 20 18797CFTR-Intron2-3698 − GUUUAUGUACACACCCCUUC 20 18798 CFTR-Intron2-3699 −GUUUUAAUUGGAUGCUGAGG 20 18799 CFTR-Intron2-3700 − GUUUUAUUUUCUCAGACCGG20 18800 CFTR-Intron2-3522 − GGGAUGCCAAGAUCCAUGCU 20 18622CFTR-Intron2-2554 + GCACUAUGACUCAAGAGUCU 20 17654 CFTR-Intron2-3701 −GUGCAAACCACACAUCCGUU 20 18801

Table 39B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within intron 2 and have ahigh level of orthogonality. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a N. meningitidis Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 39B 2nd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-3702 − UAGAUGGGAAAAGGUAA 17 18802CFTR-Intron2-3703 − CUUAUUAGAGACCAUGA 17 18803 CFTR-Intron2-3704 +CAAUUAACCCAGCCCUA 17 18804 CFTR-Intron2-3705 − CUGAAUUUGCAGAAUUA 1718805 CFTR-Intron2-3706 + UAGGUAAACAAUUAGAC 17 18806 CFTR-Intron2-3707 −CACCCUUGGGAAGUGAC 17 18807 CFTR-Intron2-3708 − UGGCUCAAUUUUGUGAC 1718808 CFTR-Intron2-3709 + UCAAAAGGAUCCUAACC 17 18809 CFTR-Intron2-3710 +AAUACUAUAGGAACACC 17 18810 CFTR-Intron2-3711 + CAUCUAUUUCCCUCCCC 1718811 CFTR-Intron2-3712 − UCAAAAGGUUAGGAUCC 17 18812 CFTR-Intron2-3713 +CUUGUCAAUAUACCUGC 17 18813 CFTR-Intron2-3714 + AUUUAUUAAGUUAUUGC 1718814 CFTR-Intron2-3715 − UAUGUACACACCCCUUC 17 18815 CFTR-Intron2-3716 +AAAGGAGUAAUACACAG 17 18816 CFTR-Intron2-3717 − CACUUCUAAGAUCAAGG 1718817 CFTR-Intron2-3718 − UUAAUUGGAUGCUGAGG 17 18818 CFTR-Intron2-3719 −UUAUUUUCUCAGACCGG 17 18819 CFTR-Intron2-3720 − UCCAUGCUUAGAGAUUG 1718820 CFTR-Intron2-3721 − UUUCAAAGACCUUUAAU 17 18821 CFTR-Intron2-3722 −CUAGGGGAUGCCAAGAU 17 18822 CFTR-Intron2-3723 − UGAAGUAAAUCGUGUAU 1718823 CFTR-Intron2-3724 + UGAUUGGAAAGGAAACU 17 18824 CFTR-Intron2-3725 −AUGCCAAGAUCCAUGCU 17 18825 CFTR-Intron2-3726 − AUUAAGCUAGUGGGAGU 1718826 CFTR-Intron2-3727 + CUAGGUCUUCACAUAGU 17 18827 CFTR-Intron2-3728 −CAAACCACACAUCCGUU 17 18828 CFTR-Intron2-3729 − AAAUAGAUGGGAAAAGGUAA 2018829 CFTR-Intron2-3730 − AGUUUUCACUGUAUCCCCCA 20 18830CFTR-Intron2-3731 − UCCCAGAGACUCUUGAGUCA 20 18831 CFTR-Intron2-3732 −UGUCUUAUUAGAGACCAUGA 20 18832 CFTR-Intron2-3733 + UUUCAAUUAACCCAGCCCUA20 18833 CFTR-Intron2-3734 − AAUCUGAAUUUGCAGAAUUA 20 18834CFTR-Intron2-3735 − CCCGGCCUAUUACUCCUUUA 20 18835 CFTR-Intron2-3736 +AACUAGGUAAACAAUUAGAC 20 18836 CFTR-Intron2-3737 − CUGCACCCUUGGGAAGUGAC20 18837 CFTR-Intron2-3738 − AUCUGGCUCAAUUUUGUGAC 20 18838CFTR-Intron2-3739 + CAAUCAAAAGGAUCCUAACC 20 18839 CFTR-Intron2-3740 +UUAAAUACUAUAGGAACACC 20 18840 CFTR-Intron2-3741 + AGUGUGAAUCUGCUACUCCC20 18841 CFTR-Intron2-3742 − CAAUCAAAAGGUUAGGAUCC 20 18842CFTR-Intron2-2142 + CAUAAAGGAGUAAUACACAG 20 17242 CFTR-Intron2-3743 −UCACACUUCUAAGAUCAAGG 20 18843 CFTR-Intron2-3744 + CUAGCCAUUUCACAUUCCAU20 18844 CFTR-Intron2-3745 − CUUCUAGGGGAUGCCAAGAU 20 18845CFTR-Intron2-2486 + UUUUGAUUGGAAAGGAAACU 20 17586 CFTR-Intron2-3746 +CAUGGAUCUUGGCAUCCCCU 20 18846 CFTR-Intron2-3747 − AGAAUUAAGCUAGUGGGAGU20 18847 CFTR-Intron2-3748 + CACCUAGGUCUUCACAUAGU 20 18848CFTR-Intron2-3749 + UUUGCACACUGCAGUUAUGU 20 18849 CFTR-Intron2-3750 −CAGUGACAGAAACCCAAUUU 20 18850

Table 39C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within intron 2 and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a N.meningitidis Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 39C 3rd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-3751 − GUUAAUGAAUGAUGGAG 17 18851CFTR-Intron2-3752 + GCCAUUUCACAUUCCAU 17 18852

Table 39D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within intron 2. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 39D 4th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron2-3753 + CCAGAUAAUUCUGCAAA 17 18853CFTR-Intron2-3754 − UCCUUUGUGAAGAGAAA 17 18854 CFTR-Intron2-3755 +CUGUAAAAUAGAGAUAA 17 18855 CFTR-Intron2-3756 − UUUCACUGUAUCCCCCA 1718856 CFTR-Intron2-3757 + UAUCUCUCUGAGCCUCA 17 18857 CFTR-Intron2-3758 −CAGAGACUCUUGAGUCA 17 18858 CFTR-Intron2-3759 + CCCAGCUACUCAGGAGA 1718859 CFTR-Intron2-3760 − UAGAAGGGCUCUCAUUA 17 18860 CFTR-Intron2-3761 −CUUCGUCUCCUGGGUUC 17 18861 CFTR-Intron2-3762 + CUACUCAGGAGACUGAG 1718862 CFTR-Intron2-3763 − CUUGGCCUCCCAAAAUG 17 18863 CFTR-Intron2-3764 −AGGUGUGAGCCACUAUG 17 18864 CFTR-Intron2-3765 − CUUGGCCUCCCAAAGUG 1718865 CFTR-Intron2-3766 + CUAUGACUCAAGAGUCU 17 18866 CFTR-Intron2-3767 −UGACAGAAACCCAAUUU 17 18867 CFTR-Intron2-3768 − AAGAAAACAGAAAGUUU 1718868 CFTR-Intron2-3769 − AUAUUAAACUUUAUUUU 17 18869 CFTR-Intron2-3770 +AAGCCAGAUAAUUCUGCAAA 20 18870 CFTR-Intron2-3771 − UAUUCCUUUGUGAAGAGAAA20 18871 CFTR-Intron2-3772 + UUUCUGUAAAAUAGAGAUAA 20 18872CFTR-Intron2-3773 + UAUUAUCUCUCUGAGCCUCA 20 18873 CFTR-Intron2-1715 +AGUCCCAGCUACUCAGGAGA 20 16815 CFTR-Intron2-3774 − UUAUAGAAGGGCUCUCAUUA20 18874 CFTR-Intron2-3775 + UCCCAUCUAUUUCCCUCCCC 20 18875CFTR-Intron2-3776 + UGUAUUUAUUAAGUUAUUGC 20 18876 CFTR-Intron2-3777 −AAACUUCGUCUCCUGGGUUC 20 18877 CFTR-Intron2-3778 − CCAGUUAAUGAAUGAUGGAG20 18878 CFTR-Intron2-3779 + CAGCUACUCAGGAGACUGAG 20 18879CFTR-Intron2-3291 − CACCUUGGCCUCCCAAAAUG 20 18391 CFTR-Intron2-3780 −UAUAGGUGUGAGCCACUAUG 20 18880 CFTR-Intron2-3352 − CGCCUUGGCCUCCCAAAGUG20 18452 CFTR-Intron2-3781 − AGAUCCAUGCUUAGAGAUUG 20 18881CFTR-Intron2-3782 − AUUUUUCAAAGACCUUUAAU 20 18882 CFTR-Intron2-3783 +AAGGUUUUGAAAGCAAAUAU 20 18883 CFTR-Intron2-3784 − UUAUGAAGUAAAUCGUGUAU20 18884 CFTR-Intron2-3785 − UAAAAGAAAACAGAAAGUUU 20 18885CFTR-Intron2-3786 − AAGAUAUUAAACUUUAUUUU 20 18886

Table 40A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within intron 10, have a highlevel of orthogonality and start with a 5′G. It is contemplated hereinthat in an embodiment the targeting domain hybridizes to the targetdomain through complementary base pairing. Any of the targeting domainsin the Table can be used with a S. pyogenes Cas9 molecule that generatesa double stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 40A 1st Tier Target  DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-1 − GCUUUCUAGUAUUAGAA 17 18887CFTR-Intron10-2 − GGCCUUUAAACAUUGAA 17 18888 CFTR-Intron10-3 −GUAGUAUUAAACCAUAA 17 18889 CFTR-Intron10-4 − GUUUACUAGAAAGAUAA 17 18890CFTR-Intron10-5 − GACCUAAGAUAUCCUAA 17 18891 CFTR-Intron10-6 −GUAUUAGAAUGGGCUAA 17 18892 CFTR-Intron10-7 − GCUGGAUAAGAUUCUAA 17 18893CFTR-Intron10-8 + GAUCAAUAAUAGAGACA 17 18894 CFTR-Intron10-9 +GUGUUUAAAUAUUCCCA 17 18895 CFTR-Intron10-10 − GUGCCACUAGUGAUGCA 17 18896CFTR-Intron10-11 − GUACAAGUCUAGUUUCA 17 18897 CFTR-Intron10-12 −GGCUGGUAGUGUGAAGA 17 18898 CFTR-Intron10-13 + GUGAUGCAGACAACAGA 17 18899CFTR-Intron10-14 + GACUAAAACUGAGUAGA 17 18900 CFTR-Intron10-15 +GGUACAAAUUUCAGGGA 17 18901 CFTR-Intron10-16 + GUCUCUCUAAGGUGUGA 17 18902CFTR-Intron10-17 + GUUCUUAGGGUGGGAUA 17 18903 CFTR-Intron10-18 −GUGUAGGGGUUAGCCUA 17 18904 CFTR-Intron10-19 + GCCUAUCACCUAGGCUA 17 18905CFTR-Intron10-20 + GUGUGAGGGUCUCUCUA 17 18906 CFTR-Intron10-21 −GACUGAAAGCUGGCUUA 17 18907 CFTR-Intron10-22 + GUAUGUAGGAAAACAAC 17 18908CFTR-Intron10-23 + GUAUUAAGUAUAGCCAC 17 18909 CFTR-Intron10-24 −GUGAGAUUAGAGGCCAC 17 18910 CFTR-Intron10-25 − GAUGAGCAGAUAAUUAC 17 18911CFTR-Intron10-26 + GUAUCUCCAAAUAUGCC 17 18912 CFTR-Intron10-27 −GAAUGAAUGUGGUAUCC 17 18913 CFTR-Intron10-28 + GACAUCAGUUGGGUUCC 17 18914CFTR-Intron10-29 + GUUGGAUGAGGGAAUGC 17 18915 CFTR-Intron10-30 +GCUAUUUAAACAGAAUC 17 18916 CFTR-Intron10-31 − GACUGACUAUACCUGUC 17 18917CFTR-Intron10-32 − GUCUAUUGUGCCAGUUC 17 18918 CFTR-Intron10-33 +GAAUUGGUACAAAUUUC 17 18919 CFTR-Intron10-34 − GAUGAUUCCAAGCUUUC 17 18920CFTR-Intron10-35 + GAUAUCUUAGGUCAAAG 17 18921 CFTR-Intron10-36 −GUCUAGUUUCAAGGAAG 17 18922 CFTR-Intron10-37 + GCUAAAGUAUUACCCAG 17 18923CFTR-Intron10-38 − GGCAUUCUAAGUAUUAG 17 18924 CFTR-Intron10-39 −GUCAGAGAAGUAAUCGG 17 18925 CFTR-Intron10-40 − GAAGUAAUCGGCGGUGG 17 18926CFTR-Intron10-41 + GCUACCUUGGUUGGAUG 17 18927 CFTR-Intron10-42 −GAUUGUCAUUUUAGCUG 17 18928 CFTR-Intron10-43 + GAAAUGGGGUAUAAGUG 17 18929CFTR-Intron10-44 − GAUGGUAUUGCAGGGUG 17 18930 CFTR-Intron10-45 −GAGCCAAAAAUUGGGUG 17 18931 CFTR-Intron10-46 − GGCAUCUCACCAGUGUG 17 18932CFTR-Intron10-47 + GGUCUCUCUAAGGUGUG 17 18933 CFTR-Intron10-48 −GGUAAGCUCAAGCAUUG 17 18934 CFTR-Intron10-49 − GUAUUUACCAUAUAUUG 17 18935CFTR-Intron10-50 − GGUUUCCACUCAACAAU 17 18936 CFTR-Intron10-51 −GCUGGUAGUGUGAAGAU 17 18937 CFTR-Intron10-52 − GUGCAAAGCUUUCAGAU 17 18938CFTR-Intron10-53 − GAAGGGUGUUAUCAACU 17 18939 CFTR-Intron10-54 −GAAUUGAAUAUGAGACU 17 18940 CFTR-Intron10-55 − GGAAGGCAGUGGUCCCU 17 18941CFTR-Intron10-56 − GUGAAAAUAUCACUUCU 17 18942 CFTR-Intron10-57 −GGAGCCAAAAAUUGGGU 17 18943 CFTR-Intron10-58 + GGAUUGGCUACCUUGGU 17 18944CFTR-Intron10-59 − GUCACUGUAUUGUCUGU 17 18945 CFTR-Intron10-60 −GCAUCUCACCAGUGUGU 17 18946 CFTR-Intron10-61 + GAAGUAGAAGAACUAUU 17 18947CFTR-Intron10-62 + GUUUGUCUUAGAUUAUU 17 18948 CFTR-Intron10-63 −GAUUAGCUUAUAUACUU 17 18949 CFTR-Intron10-64 − GAAGGCAGUGGUCCCUU 17 18950CFTR-Intron10-65 + GAGUGCAUAAAGGUUGAAAA 20 18951 CFTR-Intron10-66 −GCUAUUCUGUAGGGAGACAA 20 18952 CFTR-Intron10-67 − GAUACUAAAUAAGUUAGCAA 2018953 CFTR-Intron10-68 − GAGGGUUGAUAAGAAGAGAA 20 18954 CFTR-Intron10-69− GCCGUUUACUAGAAAGAUAA 20 18955 CFTR-Intron10-70 − GGGUGUAGGGGUUAGCCUAA20 18956 CFTR-Intron10-71 − GGGGCUGGAUAAGAUUCUAA 20 18957CFTR-Intron10-72 + GGUAUAAGUGUGGAGUGUAA 20 18958 CFTR-Intron10-73 −GGAAGAUCCAAUAGGAUUAA 20 18959 CFTR-Intron10-74 − GGCUGGCAUAGAGUAAGACA 2018960 CFTR-Intron10-75 − GGCUAUUCUGUAGGGAGACA 20 18961CFTR-Intron10-76 + GAAGUGUUUAAAUAUUCCCA 20 18962 CFTR-Intron10-77 +GUGCUAUUUAAACAGAAUCA 20 18963 CFTR-Intron10-78 + GGAUUGCUUGAUGUUAUUCA 2018964 CFTR-Intron10-79 − GAUGUACAAGUCUAGUUUCA 20 18965 CFTR-Intron10-80− GGGGGCUGGUAGUGUGAAGA 20 18966 CFTR-Intron10-81 + GCUGUGAUGCAGACAACAGA20 18967 CFTR-Intron10-82 − GCAAGUGCAAAGCUUUCAGA 20 18968CFTR-Intron10-83 − GGCAUAGAGUAAGACAGGGA 20 18969 CFTR-Intron10-84 +GUUGUUCUUAGGGUGGGAUA 20 18970 CFTR-Intron10-85 − GGGGUGUAGGGGUUAGCCUA 2018971 CFTR-Intron10-86 − GUCUGGUUUGAAGAACAGUA 20 18972CFTR-Intron10-87 + GCCAGGUUAAGUUGUUCUUA 20 18973 CFTR-Intron10-88 −GAGUUUUAAACAGAAGUAAC 20 18974 CFTR-Intron10-89 + GACUGAAACUCCCCACACAC 2018975 CFTR-Intron10-90 + GCUAAGAGACUCCUGAAUCC 20 18976CFTR-Intron10-91 + GUUUUAGUAGAAACCUAAUC 20 18977 CFTR-Intron10-92 −GGAUUAGGGAAUGCAGACUC 20 18978 CFTR-Intron10-93 − GGAGUCUAUUGUGCCAGUUC 2018979 CFTR-Intron10-94 + GCUUGACAUCAGUUGGGUUC 20 18980 CFTR-Intron10-95− GAUAAGAUUCUAAAGGAAAG 20 18981 CFTR-Intron10-96 + GGGUCAAUUGUAUUAGCAAG20 18982 CFTR-Intron10-97 + GGCUUAACCCAUCUAUUAAG 20 18983CFTR-Intron10-98 + GCAUAUUGGACCAGACACAG 20 18984 CFTR-Intron10-99 −GCAUAUGAGAAAAGUCACAG 20 18985 CFTR-Intron10-100 + GCCUAGAUGAUUAUUAAUAG20 18986 CFTR-Intron10-101 − GUAAUCGGCGGUGGAGGUAG 20 18987CFTR-Intron10-102 + GAUCAAUAAUAGAGACAAGG 20 18988 CFTR-Intron10-103 −GUCUAGUUUCAAGGAAGAGG 20 18989 CFTR-Intron10-104 − GUUUACUAACUCAAUCUAGG20 18990 CFTR-Intron10-105 − GUCAGAGAAGUAAUCGGCGG 20 18991CFTR-Intron10-106 − GGGCUGGUAGUGUGAAGAUG 20 18992 CFTR-Intron10-107 +GUUACAUAAAAAGAGAGGUG 20 18993 CFTR-Intron10-108 + GAGGGUCUCUCUAAGGUGUG20 18994 CFTR-Intron10-109 − GCUUUGAAGGAAGAUCCAAU 20 18995CFTR-Intron10-110 − GAGCUUUCUAGUAUUAGAAU 20 18996 CFTR-Intron10-111 −GGGGCUGGUAGUGUGAAGAU 20 18997 CFTR-Intron10-112 − GUCUUUUCCUCUUAAUAGAU20 18998 CFTR-Intron10-113 − GCAGAAGGGUGUUAUCAACU 20 18999CFTR-Intron10-114 − GAAGAAUUGAAUAUGAGACU 20 19000 CFTR-Intron10-115 +GUUACAACAGUCUUUAUACU 20 19001 CFTR-Intron10-116 + GUUACCUGGAUUGGCUACCU20 19002 CFTR-Intron10-117 + GUUACUCAGUCCAGAAAGCU 20 19003CFTR-Intron10-118 − GGAGUUUACUAACUCAAUCU 20 19004 CFTR-Intron10-119 −GAUUAGGGAAUGCAGACUCU 20 19005 CFTR-Intron10-120 + GGAAAGUUGUCCAAGAUAGU20 19006 CFTR-Intron10-121 − GUAUUAGAGGUUAAGGAGGU 20 19007CFTR-Intron10-122 − GGAAGCAGUGCUGCUGCUGU 20 19008 CFTR-Intron10-123 −GAAGUCACUGUAUUGUCUGU 20 19009 CFTR-Intron10-124 − GUUACCCAAUAAAAAAAAUU20 19010 CFTR-Intron10-125 − GCUUUCAGGAGCCAAAAAUU 20 19011CFTR-Intron10-126 − GGCUGCCUUUUAGUAGUAUU 20 19012 CFTR-Intron10-127 −GAGGAAGGCAGUGGUCCCUU 20 19013 CFTR-Intron10-128 − GUUUUGGAUGGAGCUUGGUU20 19014 CFTR-Intron10-129 − GGGUUUGAUUAGAUAAAUUU 20 19015CFTR-Intron10-130 − GUUGUUAUCUCUGAAAUUUU 20 19016 CFTR-Intron10-131 +GGGCUCCCCCACCCAAUUUU 20 19017

Table 40B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within intron 10 and have ahigh level of orthogonality. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. pyogenes Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 40B 2nd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-132 + AGCUAUGCCCUUAAAAA 17 19018CFTR-Intron10-133 − AUCAUCUAGGCUGCAAA 17 19019 CFTR-Intron10-134 −ACCUUCAUGUUGAUAAA 17 19020 CFTR-Intron10-135 + UUCCUAAUACUACUAAA 1719021 CFTR-Intron10-136 − UAUUAGAAUGGGCUAAA 17 19022 CFTR-Intron10-137 +UCACGUGGUGUUUUAAA 17 19023 CFTR-Intron10-138 + UACCAUUAUCUACACAA 1719024 CFTR-Intron10-139 − AUUCUGUAGGGAGACAA 17 19025 CFTR-Intron10-140 −ACUAAAUAAGUUAGCAA 17 19026 CFTR-Intron10-141 + AGCCAGCUUUCAGUCAA 1719027 CFTR-Intron10-142 − UGUUGAUAAAGGGUCAA 17 19028 CFTR-Intron10-143 −ACUGAUGUCAAGCAGAA 17 19029 CFTR-Intron10-144 − UUUAGUAGUAUUAGGAA 1719030 CFTR-Intron10-145 − UAAGAAAGACUCCUGAA 17 19031 CFTR-Intron10-146 +AAGCAAAGAGUGCAUAA 17 19032 CFTR-Intron10-147 − ACCCAUUGUGUAGAUAA 1719033 CFTR-Intron10-148 − AACCUUCAUGUUGAUAA 17 19034 CFTR-Intron10-149 −UUGGUGUAGUUCUAUAA 17 19035 CFTR-Intron10-150 − UGUAGGGGUUAGCCUAA 1719036 CFTR-Intron10-151 + AUAAGUGUGGAGUGUAA 17 19037 CFTR-Intron10-152 −AGAUCCAAUAGGAUUAA 17 19038 CFTR-Intron10-153 + UCAACUUUAUCUGUUAA 1719039 CFTR-Intron10-154 + UACCUUUCAAUGUUUAA 17 19040 CFTR-Intron10-155 −UAGCAAUGGUCUAAACA 17 19041 CFTR-Intron10-156 + ACAAUCAAAUGGGAACA 1719042 CFTR-Intron10-157 + ACCUAUAAGGAAUAACA 17 19043 CFTR-Intron10-158 −UGGCAUAGAGUAAGACA 17 19044 CFTR-Intron10-159 − UAUUCUGUAGGGAGACA 1719045 CFTR-Intron10-160 + UUACAAUUCUUAUUACA 17 19046 CFTR-Intron10-161 −AUUCCCUCAUCCAACCA 17 19047 CFTR-Intron10-162 + UAAAGACUUCACCCUCA 1719048 CFTR-Intron10-163 + AAGCCAGCUUUCAGUCA 17 19049 CFTR-Intron10-164 +AUCUAAAAGCUAAUUCA 17 19050 CFTR-Intron10-165 + UUGCUUGAUGUUAUUCA 1719051 CFTR-Intron10-166 − UCUAGUUUCAAGGAAGA 17 19052 CFTR-Intron10-167 −AACUGAUGUCAAGCAGA 17 19053 CFTR-Intron10-168 − AGUGCAAAGCUUUCAGA 1719054 CFTR-Intron10-169 + ACCCUUUAUCAACAUGA 17 19055 CFTR-Intron10-170 +CUACCUUGGUUGGAUGA 17 19056 CFTR-Intron10-171 − AUGAAAAGCAGCUAUGA 1719057 CFTR-Intron10-172 − UUAAAGAAUGACUGUGA 17 19058 CFTR-Intron10-173 −CGGUGUCUUCUGAAAUA 17 19059 CFTR-Intron10-174 + CUAGAUGAUUAUUAAUA 1719060 CFTR-Intron10-175 − ACUAAUUGUAGUACAUA 17 19061 CFTR-Intron10-176 +AAAUUACAGAACCUAUA 17 19062 CFTR-Intron10-177 − UGAUCAUUGCCUCACUA 1719063 CFTR-Intron10-178 − AGUGCUCGUAAAGACUA 17 19064 CFTR-Intron10-179 −UGACCUAAGAUAUCCUA 17 19065 CFTR-Intron10-180 − AAUCGGCGGUGGAGGUA 1719066 CFTR-Intron10-181 + ACUCUAUUUAGAGUGUA 17 19067 CFTR-Intron10-182 +AGGUUAAGUUGUUCUUA 17 19068 CFTR-Intron10-183 + UAUCAACAUGAAGGUUA 1719069 CFTR-Intron10-184 − CUAAGUAUUAGAGGUUA 17 19070 CFTR-Intron10-185 +CUAUUAUUCAACAUUUA 17 19071 CFTR-Intron10-186 + UCUUUACGAGCACUUUA 1719072 CFTR-Intron10-187 + CAAGCCUGUAUUGUUUA 17 19073 CFTR-Intron10-188 +CUUACCGUAAUAGCAAC 17 19074 CFTR-Intron10-189 + UCAUCACUUGCCUGAAC 1719075 CFTR-Intron10-190 + AACCUAUAAGGAAUAAC 17 19076 CFTR-Intron10-191 −CUUAUUCUUGUAAUAAC 17 19077 CFTR-Intron10-192 − UUUCUGGACUGAGUAAC 1719078 CFTR-Intron10-193 + UGAAACUCCCCACACAC 17 19079 CFTR-Intron10-194 +CGUAUUUCAGAAGACAC 17 19080 CFTR-Intron10-195 − CAUUUCAACUUAUACAC 1719081 CFTR-Intron10-196 − UUCUGUUUAAAUAGCAC 17 19082 CFTR-Intron10-197 −AUAGAAUUUUGCAUCAC 17 19083 CFTR-Intron10-198 − CUGGCAUAGAGUAAGAC 1719084 CFTR-Intron10-199 + UGUUCUUCAAACCAGAC 17 19085 CFTR-Intron10-200 −AGUGCCUAGCACUUGAC 17 19086 CFTR-Intron10-201 + UACAACAGUCUUUAUAC 1719087 CFTR-Intron10-202 − CAAAUUCCAAGACUUAC 17 19088 CFTR-Intron10-203 −CUAAGAACAACUUAACC 17 19089 CFTR-Intron10-204 + CUACUUCCACUACUACC 1719090 CFTR-Intron10-205 − CUAACACCUACCCUACC 17 19091 CFTR-Intron10-206 +UUACUGUGAAUGGUGCC 17 19092 CFTR-Intron10-207 − ACCAAGGUAGCCAAUCC 1719093 CFTR-Intron10-208 + AAGAGACUCCUGAAUCC 17 19094 CFTR-Intron10-209 +UAUAGCUCUGAUAAUCC 17 19095 CFTR-Intron10-210 − AAGACAGCUGGCUAUCC 1719096 CFTR-Intron10-211 + AUUAGCAAGUGGACUCC 17 19097 CFTR-Intron10-212 −UUCUUUUGAUAUACUCC 17 19098 CFTR-Intron10-213 − UGCCCUUGACUGAAAGC 1719099 CFTR-Intron10-214 − UAAAUUUGGUGUCAGGC 17 19100 CFTR-Intron10-215 −UAGUGUGAAGAUGGGGC 17 19101 CFTR-Intron10-216 + UCAUGUUAGACAUAUGC 1719102 CFTR-Intron10-217 + CAAGACUUCACACCUGC 17 19103 CFTR-Intron10-218 −AGCAGACCCAAAUCUGC 17 19104 CFTR-Intron10-219 + AUUUAUCUCGAAAUUGC 1719105 CFTR-Intron10-220 + UUAGUAGAAACCUAAUC 17 19106 CFTR-Intron10-221 −UUAGGGAAUGCAGACUC 17 19107 CFTR-Intron10-222 − AGCUGUGCAUUUUCCUC 1719108 CFTR-Intron10-223 − ACUAAGGCUUAUUUCUC 17 19109 CFTR-Intron10-224 −UAACUUUUCUUAUUGUC 17 19110 CFTR-Intron10-225 − ACCAAAACUUUAUUGUC 1719111 CFTR-Intron10-226 − CUGGCUAUCCAGGAUUC 17 19112 CFTR-Intron10-227 +UGACAUCAGUUGGGUUC 17 19113 CFTR-Intron10-228 + UCAAUUGUAUUAGCAAG 1719114 CFTR-Intron10-229 − AGUAGGCUUCCUAUAAG 17 19115 CFTR-Intron10-230 +UUAACCCAUCUAUUAAG 17 19116 CFTR-Intron10-231 + UAUUGGACCAGACACAG 1719117 CFTR-Intron10-232 − CUAGUUUCAAGGAAGAG 17 19118 CFTR-Intron10-233 +UACCAAAUUGUAUUGAG 17 19119 CFTR-Intron10-234 + ACACCAAAUUUAUUGAG 1719120 CFTR-Intron10-235 + AAAGUUGUCCAAGAUAG 17 19121 CFTR-Intron10-236 +UUUCCGUGCAUCACUAG 17 19122 CFTR-Intron10-237 − CUUGAUCCAGGUAGUAG 1719123 CFTR-Intron10-238 − AUCGGCGGUGGAGGUAG 17 19124 CFTR-Intron10-239 −AAGAGAAAGGGGUGUAG 17 19125 CFTR-Intron10-240 − UCUCUGGGUGAGAUUAG 1719126 CFTR-Intron10-241 + AUCAACAUGAAGGUUAG 17 19127 CFTR-Intron10-242 −UGUGAGAAAAAGUUUAG 17 19128 CFTR-Intron10-243 − AAAUCAGUGCUUUUUCG 1719129 CFTR-Intron10-244 + CAAUAAUAGAGACAAGG 17 19130 CFTR-Intron10-245 −AGUAUUAGAGGUUAAGG 17 19131 CFTR-Intron10-246 − UUCAACUUAUACACAGG 1719132 CFTR-Intron10-247 − AUUAGAGGUUAAGGAGG 17 19133 CFTR-Intron10-248 −UACUAACUCAAUCUAGG 17 19134 CFTR-Intron10-249 − UCGGCGGUGGAGGUAGG 1719135 CFTR-Intron10-250 − AGAGAAGUAAUCGGCGG 17 19136 CFTR-Intron10-251 −CAUAGAGUAAGACAGGG 17 19137 CFTR-Intron10-252 + UUAAGUUGUUCUUAGGG 1719138 CFTR-Intron10-253 − AGGAGCCAAAAAUUGGG 17 19139 CFTR-Intron10-254 −AGCCAAAAAUUGGGUGG 17 19140 CFTR-Intron10-255 − CUGGUAGUGUGAAGAUG 1719141 CFTR-Intron10-256 − UAUCAAUAUCUAAGAUG 17 19142 CFTR-Intron10-257 +AUCUGUUAGUAAUGCUG 17 19143 CFTR-Intron10-258 − UUAAGGGCAUAGCUCUG 1719144 CFTR-Intron10-259 + AACUCAGUACCAUAGUG 17 19145 CFTR-Intron10-260 +CUGUUAGUAAUGCUGUG 17 19146 CFTR-Intron10-261 − CAUCUCACCAGUGUGUG 1719147 CFTR-Intron10-262 − CUCUCUUUUAACUAUUG 17 19148 CFTR-Intron10-263 +UGAGUGGAAAUUUUUUG 17 19149 CFTR-Intron10-264 − UUUCAGGAGCCAAAAAU 1719150 CFTR-Intron10-265 + ACCAUUAUCUACACAAU 17 19151 CFTR-Intron10-266 −AUGGGCUAAAGGGCAAU 17 19152 CFTR-Intron10-267 − CUUUCUAGUAUUAGAAU 1719153 CFTR-Intron10-268 + AUGGCAUGAGUACGAAU 17 19154 CFTR-Intron10-269 +CCUAGAUGAUUAUUAAU 17 19155 CFTR-Intron10-270 − UUUUCCUCUUAAUAGAU 1719156 CFTR-Intron10-271 + AAAAAAGUUACCUGGAU 17 19157 CFTR-Intron10-272 +UUAUCCAUUAAUCCUAU 17 19158 CFTR-Intron10-273 + AAUGCUUGACCACUUAU 1719159 CFTR-Intron10-274 − UCCCUGUUAUUCCUUAU 17 19160 CFTR-Intron10-275 +ACAACAGUCUUUAUACU 17 19161 CFTR-Intron10-276 + UUGCUUCACCUGCUACU 1719162 CFTR-Intron10-277 + AUCUUAUAGAGAUUACU 17 19163 CFTR-Intron10-278 +UUUUGAGCCUAUCACCU 17 19164 CFTR-Intron10-279 + ACCUGGAUUGGCUACCU 1719165 CFTR-Intron10-280 + CACUUGUUGACAGUCCU 17 19166 CFTR-Intron10-281 +ACUCAGUCCAGAAAGCU 17 19167 CFTR-Intron10-282 + ACUCAUAAGGGACCGCU 1719168 CFTR-Intron10-283 − AAAUUUGGUGUCAGGCU 17 19169 CFTR-Intron10-284 +AGCCUAUCACCUAGGCU 17 19170 CFTR-Intron10-285 + UAUACCUGUCAAGUGCU 1719171 CFTR-Intron10-286 − CCUAUUAAUAAUCAUCU 17 19172 CFTR-Intron10-287 −UAGGGAAUGCAGACUCU 17 19173 CFTR-Intron10-288 + UAGAGAGAAACAUCUCU 1719174 CFTR-Intron10-289 − CUAAGGCUUAUUUCUCU 17 19175 CFTR-Intron10-290 +UAAUUGCCAGUAAGUCU 17 19176 CFTR-Intron10-291 + AUUUUCUCGGUAUUUCU 1719177 CFTR-Intron10-292 − AUUUUUGACUAUACAGU 17 19178 CFTR-Intron10-293 +UUCUGCUUGACAUCAGU 17 19179 CFTR-Intron10-294 + ACCAAAUUGUAUUGAGU 1719180 CFTR-Intron10-295 + AAGUUGUCCAAGAUAGU 17 19181 CFTR-Intron10-296 −CAAAUAGAGAUGUUAGU 17 19182 CFTR-Intron10-297 + UGUGAAUGGUGCCAGGU 1719183 CFTR-Intron10-298 − UAAUCGGCGGUGGAGGU 17 19184 CFTR-Intron10-299 −UGAUGGUAUUGCAGGGU 17 19185 CFTR-Intron10-300 + AUGGUGCCAGGUAGGGU 1719186 CFTR-Intron10-301 + UAAGUUGUUCUUAGGGU 17 19187 CFTR-Intron10-302 −UUGACUAUACAGUGGGU 17 19188 CFTR-Intron10-303 + AAAGCUGUUUCGUAUGU 1719189 CFTR-Intron10-304 + UCUGUUAGUAAUGCUGU 17 19190 CFTR-Intron10-305 −AGCAGUGCUGCUGCUGU 17 19191 CFTR-Intron10-306 − UUUUUAGGCUAUUCUGU 1719192 CFTR-Intron10-307 − UUCAGGAGCCAAAAAUU 17 19193 CFTR-Intron10-308 −ACCCACUCAAUACAAUU 17 19194 CFTR-Intron10-309 − AUGCUAAUAAUACAAUU 1719195 CFTR-Intron10-310 − AAUAUCACCAACUCAUU 17 19196 CFTR-Intron10-311 +AUCUCUGCAAACAUAUU 17 19197 CFTR-Intron10-312 − ACUUAACCUGGCAUAUU 1719198 CFTR-Intron10-313 + CAACUAACAUCUCUAUU 17 19199 CFTR-Intron10-314 −UGCCUUUUAGUAGUAUU 17 19200 CFTR-Intron10-315 + CAAUGGUUGUCUGUAUU 1719201 CFTR-Intron10-316 + AUACUUAGAAUGCCCUU 17 19202 CFTR-Intron10-317 −UUGCAGGGUGGGGCCUU 17 19203 CFTR-Intron10-318 − AUGUGCAAAAAUAGCUU 1719204 CFTR-Intron10-319 + CAGGUUAAGUUGUUCUU 17 19205 CFTR-Intron10-320 −UUAGUUAGCAUAAAGUU 17 19206 CFTR-Intron10-321 + UCUGCUUGACAUCAGUU 1719207 CFTR-Intron10-322 + UUAUCAACAUGAAGGUU 17 19208 CFTR-Intron10-323 −AGUGCUUUUUCGAGGUU 17 19209 CFTR-Intron10-324 − UUGGAUGGAGCUUGGUU 1719210 CFTR-Intron10-325 + UUCAUGGAAAGCUUGUU 17 19211 CFTR-Intron10-326 −UUGUGUACUUGUGAUUU 17 19212 CFTR-Intron10-327 − UAUGCACUCUUUGCUUU 1719213 CFTR-Intron10-328 + UCCUGACAAUAAAGUUU 17 19214 CFTR-Intron10-329 −UGGAUGGAGCUUGGUUU 17 19215 CFTR-Intron10-330 − AGAGCUAUAUUGUGUUU 1719216 CFTR-Intron10-331 + CUCCCCCACCCAAUUUU 17 19217 CFTR-Intron10-332 +CAGAGCUAUGCCCUUAAAAA 20 19218 CFTR-Intron10-333 − UGCUUCAGAAGUCUAUAAAA20 19219 CFTR-Intron10-334 − AUAAUCAUCUAGGCUGCAAA 20 19220CFTR-Intron10-335 + CAGCUAAAAUGACAAUCAAA 20 19221 CFTR-Intron10-336 −CGUGUUAUUCAGCCAAUAAA 20 19222 CFTR-Intron10-337 − CUAACCUUCAUGUUGAUAAA20 19223 CFTR-Intron10-338 + CCAUUCCUAAUACUACUAAA 20 19224CFTR-Intron10-339 − UAGUAUUAGAAUGGGCUAAA 20 19225 CFTR-Intron10-340 +CCCAUUAUCUUUCUAGUAAA 20 19226 CFTR-Intron10-341 − UUAAUGGAUAAGUUGAACAA20 19227 CFTR-Intron10-342 + UUUUACCAUUAUCUACACAA 20 19228CFTR-Intron10-343 − CUAGGUUUAAUUUUGUACAA 20 19229 CFTR-Intron10-344 +AAGUGUUUAAAUAUUCCCAA 20 19230 CFTR-Intron10-345 + UCAAAAGAAUAAGGCAUCAA20 19231 CFTR-Intron10-346 + AUAAGCCAGCUUUCAGUCAA 20 19232CFTR-Intron10-347 − CCAACUGAUGUCAAGCAGAA 20 19233 CFTR-Intron10-348 −AGAGCUUUCUAGUAUUAGAA 20 19234 CFTR-Intron10-349 + CUAAAACUGAGUAGAAGGAA20 19235 CFTR-Intron10-350 − CCUUUUAGUAGUAUUAGGAA 20 19236CFTR-Intron10-351 − AAUUAAGAAAGACUCCUGAA 20 19237 CFTR-Intron10-352 −AGUGGCCUUUAAACAUUGAA 20 19238 CFTR-Intron10-353 − AAUGUAGUAUUAAACCAUAA20 19239 CFTR-Intron10-354 + CUAAAGCAAAGAGUGCAUAA 20 19240CFTR-Intron10-355 − AUAACCCAUUGUGUAGAUAA 20 19241 CFTR-Intron10-356 −CCUAACCUUCAUGUUGAUAA 20 19242 CFTR-Intron10-357 − AUUUUGGUGUAGUUCUAUAA20 19243 CFTR-Intron10-358 − UUUGACCUAAGAUAUCCUAA 20 19244CFTR-Intron10-359 − CUAGUAUUAGAAUGGGCUAA 20 19245 CFTR-Intron10-360 +UUGGGUAACAAUAAUAUUAA 20 19246 CFTR-Intron10-361 + AAUUCAACUUUAUCUGUUAA20 19247 CFTR-Intron10-362 − AGUUAGCAAUGGUCUAAACA 20 19248CFTR-Intron10-363 + AUGACAAUCAAAUGGGAACA 20 19249 CFTR-Intron10-364 +AGAACCUAUAAGGAAUAACA 20 19250 CFTR-Intron10-365 − AGUUUUAAACAGAAGUAACA20 19251 CFTR-Intron10-366 − UGCAUUCCCUCAUCCAACCA 20 19252CFTR-Intron10-367 + UACUAAAGACUUCACCCUCA 20 19253 CFTR-Intron10-368 +CAUAAGCCAGCUUUCAGUCA 20 19254 CFTR-Intron10-369 + UAAAUCUAAAAGCUAAUUCA20 19255 CFTR-Intron10-370 + ACGAAUUGGUACAAAUUUCA 20 19256CFTR-Intron10-371 − AUAAGAUUCUAAAGGAAAGA 20 19257 CFTR-Intron10-372 −AAGUCUAGUUUCAAGGAAGA 20 19258 CFTR-Intron10-373 − CCCAACUGAUGUCAAGCAGA20 19259 CFTR-Intron10-374 + ACUGACUAAAACUGAGUAGA 20 19260CFTR-Intron10-375 + UGGCUACCUUGGUUGGAUGA 20 19261 CFTR-Intron10-376 −CCAGUUCAGGCAAGUGAUGA 20 19262 CFTR-Intron10-377 − CUUAUGAAAAGCAGCUAUGA20 19263 CFTR-Intron10-378 − UUGUUAAAGAAUGACUGUGA 20 19264CFTR-Intron10-379 + AGGGUCUCUCUAAGGUGUGA 20 19265 CFTR-Intron10-380 −AACCGGUGUCUUCUGAAAUA 20 19266 CFTR-Intron10-381 + AGGAGUAUAUCAAAAGAAUA20 19267 CFTR-Intron10-382 + AGUCCUCUGUGCUUUGAAUA 20 19268CFTR-Intron10-383 − CCCAUAAAUGUUGAAUAAUA 20 19269 CFTR-Intron10-384 +AGCCUAGAUGAUUAUUAAUA 20 19270 CFTR-Intron10-385 − UAUUGAUCAUUGCCUCACUA20 19271 CFTR-Intron10-386 − UAAAGUGCUCGUAAAGACUA 20 19272CFTR-Intron10-387 − CUUUGACCUAAGAUAUCCUA 20 19273 CFTR-Intron10-388 +UGAGCCUAUCACCUAGGCUA 20 19274 CFTR-Intron10-389 − AGUAAUCGGCGGUGGAGGUA20 19275 CFTR-Intron10-390 − UGUUUUUAGGCUAUUCUGUA 20 19276CFTR-Intron10-391 + AGCACUCUAUUUAGAGUGUA 20 19277 CFTR-Intron10-392 −UAAGAAGAGAAAGGGGUGUA 20 19278 CFTR-Intron10-393 + CAAUUAGUUUUAUGCCAUUA20 19279 CFTR-Intron10-394 − UUGCAGGAGGUGAGGGAUUA 20 19280CFTR-Intron10-395 − CUUGACUGAAAGCUGGCUUA 20 19281 CFTR-Intron10-396 +CUUUAUCAACAUGAAGGUUA 20 19282 CFTR-Intron10-397 − AUUCUAAGUAUUAGAGGUUA20 19283 CFTR-Intron10-398 + CCCCUAUUAUUCAACAUUUA 20 19284CFTR-Intron10-399 + UAGUCUUUACGAGCACUUUA 20 19285 CFTR-Intron10-400 −AGAAAGAUAAUGGGAGAAAC 20 19286 CFTR-Intron10-401 + UACGAUAUAAGAAAUGAAAC20 19287 CFTR-Intron10-402 + UUCGUAUGUAGGAAAACAAC 20 19288CFTR-Intron10-403 + CAGAACCUAUAAGGAAUAAC 20 19289 CFTR-Intron10-404 −UAGCUUAUUCUUGUAAUAAC 20 19290 CFTR-Intron10-405 − AUGAAACUGUUAUAAUUAAC20 19291 CFTR-Intron10-406 + CUCCGUAUUUCAGAAGACAC 20 19292CFTR-Intron10-407 − UAUCAUUUCAACUUAUACAC 20 19293 CFTR-Intron10-408 +UUAGUAUUAAGUAUAGCCAC 20 19294 CFTR-Intron10-409 − UGGGUGAGAUUAGAGGCCAC20 19295 CFTR-Intron10-410 − UGAUUCUGUUUAAAUAGCAC 20 19296CFTR-Intron10-411 − AGUAUAGAAUUUUGCAUCAC 20 19297 CFTR-Intron10-412 −AGGCUGGCAUAGAGUAAGAC 20 19298 CFTR-Intron10-413 + UACUGUUCUUCAAACCAGAC20 19299 CFTR-Intron10-414 + UGUUACAACAGUCUUUAUAC 20 19300CFTR-Intron10-415 − AUUGAUGAGCAGAUAAUUAC 20 19301 CFTR-Intron10-416 −UUACAAAUUCCAAGACUUAC 20 19302 CFTR-Intron10-417 + UACAAAUAUUGACUAUUUAC20 19303 CFTR-Intron10-418 − ACCCUAAGAACAACUUAACC 20 19304CFTR-Intron10-419 + AUACUACUUCCACUACUACC 20 19305 CFTR-Intron10-420 −ACACUAACACCUACCCUACC 20 19306 CFTR-Intron10-421 + AGAUACUAAAAAAAGUUACC20 19307 CFTR-Intron10-422 + UCUUUACUGUGAAUGGUGCC 20 19308CFTR-Intron10-423 − CCAACCAAGGUAGCCAAUCC 20 19309 CFTR-Intron10-424 +CAAUAUAGCUCUGAUAAUCC 20 19310 CFTR-Intron10-425 − AGUGAAUGAAUGUGGUAUCC20 19311 CFTR-Intron10-426 + UGUAUUAGCAAGUGGACUCC 20 19312CFTR-Intron10-427 + CUUGACAUCAGUUGGGUUCC 20 19313 CFTR-Intron10-428 −AGUAAGGAGGUCACUGAGGC 20 19314 CFTR-Intron10-429 − AGUUUCAAGGAAGAGGGGGC20 19315 CFTR-Intron10-430 − UGGUAGUGUGAAGAUGGGGC 20 19316CFTR-Intron10-431 + UUGGUUGGAUGAGGGAAUGC 20 19317 CFTR-Intron10-432 +UUUUCAUGUUAGACAUAUGC 20 19318 CFTR-Intron10-433 + AGUGCUAUUUAAACAGAAUC20 19319 CFTR-Intron10-434 − AAAAGCUGUGCAUUUUCCUC 20 19320CFTR-Intron10-435 − AAGACUAAGGCUUAUUUCUC 20 19321 CFTR-Intron10-436 −UGGGACUGACUAUACCUGUC 20 19322 CFTR-Intron10-437 + AAUAGAGACAAGGUGGUGUC20 19323 CFTR-Intron10-438 − CACUCAAUAAAUUUGGUGUC 20 19324CFTR-Intron10-439 − UUCUAACUUUUCUUAUUGUC 20 19325 CFTR-Intron10-440 −AGGACCAAAACUUUAUUGUC 20 19326 CFTR-Intron10-441 − CAGCUGGCUAUCCAGGAUUC20 19327 CFTR-Intron10-442 + UAUUAAGAGGAAAAGACUUC 20 19328CFTR-Intron10-443 + UACGAAUUGGUACAAAUUUC 20 19329 CFTR-Intron10-444 −CUUACUGGCAAUUAAAUUUC 20 19330 CFTR-Intron10-445 + UUGAUAAAUAAUUGCCUUUC20 19331 CFTR-Intron10-446 + CCUAAAAACAUUAGCCAAAG 20 19332CFTR-Intron10-447 + UAGGAUAUCUUAGGUCAAAG 20 19333 CFTR-Intron10-448 +UAGGGUGGGAUAUGGAGAAG 20 19334 CFTR-Intron10-449 − CAAGUCUAGUUUCAAGGAAG20 19335 CFTR-Intron10-450 − UUUCCAUAUUCAAAGCACAG 20 19336CFTR-Intron10-451 + ACAGCUAAAGUAUUACCCAG 20 19337 CFTR-Intron10-452 −AGUCUAUAUUUGUUUUCCAG 20 19338 CFTR-Intron10-453 + UGCUAUUUAAACAGAAUCAG20 19339 CFTR-Intron10-454 + AUAUUGUUACAUAAAAAGAG 20 19340CFTR-Intron10-455 − AGUCUAGUUUCAAGGAAGAG 20 19341 CFTR-Intron10-456 +AAUUACCAAAUUGUAUUGAG 20 19342 CFTR-Intron10-457 + CUGACACCAAAUUUAUUGAG20 19343 CFTR-Intron10-458 − CCAUAAAUGUUGAAUAAUAG 20 19344CFTR-Intron10-459 + UGGAAAGUUGUCCAAGAUAG 20 19345 CFTR-Intron10-460 +ACUUUUCCGUGCAUCACUAG 20 19346 CFTR-Intron10-461 − UGGCUUGAUCCAGGUAGUAG20 19347 CFTR-Intron10-462 − AUUUCUCUGGGUGAGAUUAG 20 19348CFTR-Intron10-463 − AAGGGCAUUCUAAGUAUUAG 20 19349 CFTR-Intron10-464 −AGCUAUGAAGGCAGAGUUAG 20 19350 CFTR-Intron10-465 + UUUAUCAACAUGAAGGUUAG20 19351 CFTR-Intron10-466 − AUAAAAUCAGUGCUUUUUCG 20 19352CFTR-Intron10-467 − CUAAGUAUUAGAGGUUAAGG 20 19353 CFTR-Intron10-468 −CAUUUCAACUUAUACACAGG 20 19354 CFTR-Intron10-469 + UUGUUACAUAAAAAGAGAGG20 19355 CFTR-Intron10-470 − AGUAUUAGAGGUUAAGGAGG 20 19356CFTR-Intron10-471 − UAAUCGGCGGUGGAGGUAGG 20 19357 CFTR-Intron10-472 −ACUGUCAGAGAAGUAAUCGG 20 19358 CFTR-Intron10-473 − AUUCUGUAGGGAGACAAGGG20 19359 CFTR-Intron10-474 − UGGCAUAGAGUAAGACAGGG 20 19360CFTR-Intron10-475 + AGGUUAAGUUGUUCUUAGGG 20 19361 CFTR-Intron10-476 −UUCAGGAGCCAAAAAUUGGG 20 19362 CFTR-Intron10-477 − AGAGAAGUAAUCGGCGGUGG20 19363 CFTR-Intron10-478 − AGGAGCCAAAAAUUGGGUGG 20 19364CFTR-Intron10-479 − ACAAAGCUAGUGAAUGAAUG 20 19365 CFTR-Intron10-480 −AUUUAUCAAUAUCUAAGAUG 20 19366 CFTR-Intron10-481 + UUGGCUACCUUGGUUGGAUG20 19367 CFTR-Intron10-482 + CCUAUUAUUCAACAUUUAUG 20 19368CFTR-Intron10-483 + CACGAAUAUAUUCUUUUAUG 20 19369 CFTR-Intron10-484 −UUUGAUUGUCAUUUUAGCUG 20 19370 CFTR-Intron10-485 + AUCAUCUGUUAGUAAUGCUG20 19371 CFTR-Intron10-486 − UUUUUAAGGGCAUAGCUCUG 20 19372CFTR-Intron10-487 + AAGGAAAUGGGGUAUAAGUG 20 19373 CFTR-Intron10-488 +UAAAACUCAGUACCAUAGUG 20 19374 CFTR-Intron10-489 − CAGGAGCCAAAAAUUGGGUG20 19375 CFTR-Intron10-490 + CAUCUGUUAGUAAUGCUGUG 20 19376CFTR-Intron10-491 − UAUGGCAUCUCACCAGUGUG 20 19377 CFTR-Intron10-492 −UGGCAUCUCACCAGUGUGUG 20 19378 CFTR-Intron10-493 − UACGGUAAGCUCAAGCAUUG20 19379 CFTR-Intron10-494 − UUGGUAUUUACCAUAUAUUG 20 19380CFTR-Intron10-495 − UUGCUCUCUUUUAACUAUUG 20 19381 CFTR-Intron10-496 +UAUUGAGUGGAAAUUUUUUG 20 19382 CFTR-Intron10-497 − UGCUUUCAGGAGCCAAAAAU20 19383 CFTR-Intron10-498 + AGCUAAAAUGACAAUCAAAU 20 19384CFTR-Intron10-499 − AGAAUGGGCUAAAGGGCAAU 20 19385 CFTR-Intron10-500 +UGUAUGGCAUGAGUACGAAU 20 19386 CFTR-Intron10-501 − CCGUUUACUAGAAAGAUAAU20 19387 CFTR-Intron10-502 − AAUACUGUCAGAGAAGUAAU 20 19388CFTR-Intron10-503 + CAGCCUAGAUGAUUAUUAAU 20 19389 CFTR-Intron10-504 −CAAGUGCAAAGCUUUCAGAU 20 19390 CFTR-Intron10-505 + CUAAAAAAAGUUACCUGGAU20 19391 CFTR-Intron10-506 + UCUUUGUGUUAACAAAAUAU 20 19392CFTR-Intron10-507 + AACUUAUCCAUUAAUCCUAU 20 19393 CFTR-Intron10-508 +ACAAAUGCUUGACCACUUAU 20 19394 CFTR-Intron10-509 + CCCUAUUAUUCAACAUUUAU20 19395 CFTR-Intron10-510 + UUCUUUAACAAACCUUUUAU 20 19396CFTR-Intron10-511 − AGCUUAUUCUUGUAAUAACU 20 19397 CFTR-Intron10-512 +CACUUGCUUCACCUGCUACU 20 19398 CFTR-Intron10-513 + AAAAUCUUAUAGAGAUUACU20 19399 CFTR-Intron10-514 + UUUUUUUGAGCCUAUCACCU 20 19400CFTR-Intron10-515 − AGAGGAAGGCAGUGGUCCCU 20 19401 CFTR-Intron10-516 +AGGCACUUGUUGACAGUCCU 20 19402 CFTR-Intron10-517 − AACAGGUUUUGGAUGGAGCU20 19403 CFTR-Intron10-518 + AAAACUCAUAAGGGACCGCU 20 19404CFTR-Intron10-519 − AAUAAAUUUGGUGUCAGGCU 20 19405 CFTR-Intron10-520 +UUGAGCCUAUCACCUAGGCU 20 19406 CFTR-Intron10-521 − UUCAAAUUAUUUCUACUGCU20 19407 CFTR-Intron10-522 + UAAUAUACCUGUCAAGUGCU 20 19408CFTR-Intron10-523 − UCCCCUAUUAAUAAUCAUCU 20 19409 CFTR-Intron10-524 −UCUUGCUUUUCCCACUAUCU 20 19410 CFTR-Intron10-525 − AGACUAAGGCUUAUUUCUCU20 19411 CFTR-Intron10-526 + AUUUAAUUGCCAGUAAGUCU 20 19412CFTR-Intron10-527 + AAUAAUUUGAACAACAUUCU 20 19413 CFTR-Intron10-528 −UAUGUGAAAAUAUCACUUCU 20 19414 CFTR-Intron10-529 + CCCUUCUGCUUGACAUCAGU20 19415 CFTR-Intron10-530 + AGUCAGUUUUAUUUUUCAGU 20 19416CFTR-Intron10-531 + UGUACAUUUUCCUAAUGAGU 20 19417 CFTR-Intron10-532 +AUUACCAAAUUGUAUUGAGU 20 19418 CFTR-Intron10-533 − AGUAGUGGAAGUAGUAUAGU20 19419 CFTR-Intron10-534 + UACUGUGAAUGGUGCCAGGU 20 19420CFTR-Intron10-535 + UGUUACAUAAAAAGAGAGGU 20 19421 CFTR-Intron10-536 −AAGUAAUCGGCGGUGGAGGU 20 19422 CFTR-Intron10-537 − UCAGGAGCCAAAAAUUGGGU20 19423 CFTR-Intron10-538 + CCUGGAUUGGCUACCUUGGU 20 19424CFTR-Intron10-539 + UUAAAAGCUGUUUCGUAUGU 20 19425 CFTR-Intron10-540 +UCAUCUGUUAGUAAUGCUGU 20 19426 CFTR-Intron10-541 − AUGUUUUUAGGCUAUUCUGU20 19427 CFTR-Intron10-542 − AUGGCAUCUCACCAGUGUGU 20 19428CFTR-Intron10-543 − CUUACCCACUCAAUACAAUU 20 19429 CFTR-Intron10-544 −AAAAAUAUCACCAACUCAUU 20 19430 CFTR-Intron10-545 + AAGAUCUCUGCAAACAUAUU20 19431 CFTR-Intron10-546 − ACAACUUAACCUGGCAUAUU 20 19432CFTR-Intron10-547 + AUCCAACUAACAUCUCUAUU 20 19433 CFTR-Intron10-548 +CAUCAAUGGUUGUCUGUAUU 20 19434 CFTR-Intron10-549 − CAGAAGUAACAGGGCCACUU20 19435 CFTR-Intron10-550 − AUAGAUUAGCUUAUAUACUU 20 19436CFTR-Intron10-551 + CUAAUACUUAGAAUGCCCUU 20 19437 CFTR-Intron10-552 −UAGAUGUGCAAAAAUAGCUU 20 19438 CFTR-Intron10-553 + UGCCAGGUUAAGUUGUUCUU20 19439 CFTR-Intron10-554 + CCUUCUGCUUGACAUCAGUU 20 19440CFTR-Intron10-555 + CCUUUAUCAACAUGAAGGUU 20 19441 CFTR-Intron10-556 −AUCAGUGCUUUUUCGAGGUU 20 19442 CFTR-Intron10-557 + UAAUUCAUGGAAAGCUUGUU20 19443 CFTR-Intron10-558 − CAUUUGUGUACUUGUGAUUU 20 19444CFTR-Intron10-559 + AGAUCUCUGCAAACAUAUUU 20 19445 CFTR-Intron10-560 −CUUUAUGCACUCUUUGCUUU 20 19446 CFTR-Intron10-561 + UUCUCCUGACAAUAAAGUUU20 19447 CFTR-Intron10-562 − AUAAUGGGAGAAACAGGUUU 20 19448CFTR-Intron10-563 − UUUUGGAUGGAGCUUGGUUU 20 19449 CFTR-Intron10-564 −AUCAGAGCUAUAUUGUGUUU 20 19450 CFTR-Intron10-565 − CCACUUUGGCUAAUGUUUUU20 19451

Table 40C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within intron 10 and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.pyogenes Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 40C 3rd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-566 + GACCAUCCCGGCUAAAA 17 19452CFTR-Intron10-567 − GUUGAUAAGAAGAGAAA 17 19453 CFTR-Intron10-568 −GAUGUUUAUUUAUGAAA 17 19454 CFTR-Intron10-569 − GUUAUUCAGCCAAUAAA 1719455 CFTR-Intron10-570 − GGUUUAAUUUUGUACAA 17 19456 CFTR-Intron10-571 +GACUAAUCACCUCCCAA 17 19457 CFTR-Intron10-572 + GUUCUCACAUGGCAGAA 1719458 CFTR-Intron10-573 − GGUUGAUAAGAAGAGAA 17 19459 CFTR-Intron10-574 +GAGGGAAUGCAGGAGAA 17 19460 CFTR-Intron10-575 + GGGAGGCUGAAGCGGAA 1719461 CFTR-Intron10-576 + GGAUUUCAACAUAUGAA 17 19462 CFTR-Intron10-577 +GGUAACAAUAAUAUUAA 17 19463 CFTR-Intron10-578 − GACCAGCGUGGGCAACA 1719464 CFTR-Intron10-579 + GUACAGUGGUGCAAUCA 17 19465 CFTR-Intron10-580 −GAAGGAAGGAAGUAAGA 17 19466 CFTR-Intron10-581 − GAAAGCAAUAGUAGAGA 1719467 CFTR-Intron10-582 − GUAGGAGGAAGGAAGGA 17 19468 CFTR-Intron10-583 −GGAAGUAGGAGGAAGGA 17 19469 CFTR-Intron10-584 − GAAAAAGAAAGAGAGGA 1719470 CFTR-Intron10-585 − GAAAGGAAGUAGGAGGA 17 19471 CFTR-Intron10-586 +GUCCCAGCUACUUGGGA 17 19472 CFTR-Intron10-587 − GUAUUCUAUCAUAUGGA 1719473 CFTR-Intron10-588 − GAGAAACAGGUUUUGGA 17 19474 CFTR-Intron10-589 −GUUCAGGCAAGUGAUGA 17 19475 CFTR-Intron10-590 + GGGUGAGGGUCUCUCUA 1719476 CFTR-Intron10-591 + GUGAAUGGUGCCAGGUA 17 19477 CFTR-Intron10-592 −GAAGAGAAAGGGGUGUA 17 19478 CFTR-Intron10-593 + GAAAAAAAAUUCAAAAC 1719479 CFTR-Intron10-594 + GAUAUAAGAAAUGAAAC 17 19480 CFTR-Intron10-595 −GUAUUUUUAGUAGAGAC 17 19481 CFTR-Intron10-596 + GGAGAAUGGCGUGAACC 1719482 CFTR-Intron10-597 + GAGAAUGGCGUGAACCC 17 19483 CFTR-Intron10-598 +GUCUCACUCUGUCACCC 17 19484 CFTR-Intron10-599 − GUCUUACUCUGUCACCC 1719485 CFTR-Intron10-600 + GAGAAUUGCUUGAGCCC 17 19486 CFTR-Intron10-601 −GUCUCGCUCUGUCGCCC 17 19487 CFTR-Intron10-602 + GCCACUGCACUCCAGCC 1719488 CFTR-Intron10-603 + GGAGAAUUGCUUGAGCC 17 19489 CFTR-Intron10-604 −GCCACUGCACUCUAGCC 17 19490 CFTR-Intron10-605 + GUUUCACUGUGUUAGCC 1719491 CFTR-Intron10-606 − GUUUCACCGUUUUAGCC 17 19492 CFTR-Intron10-607 −GCGCCCGCCACUACGCC 17 19493 CFTR-Intron10-608 − GCGUGAGCCACCGCGCC 1719494 CFTR-Intron10-609 − GUUUCACCAUGUUGGCC 17 19495 CFTR-Intron10-610 −GGAGAUCAAGACCAUCC 17 19496 CFTR-Intron10-611 + GGAGAUCGAGACCAUCC 1719497 CFTR-Intron10-612 − GUGAAUUGCUUGAGUCC 17 19498 CFTR-Intron10-613 −GGUUUCACCGUUUUAGC 17 19499 CFTR-Intron10-614 − GGCUGGAGUGCAGUGGC 1719500 CFTR-Intron10-615 + GCACCCGCCAUCACGUC 17 19501 CFTR-Intron10-616 +GGGCGGAUCACGAGGUC 17 19502 CFTR-Intron10-617 − GCAUGAGCCACUGUGUC 1719503 CFTR-Intron10-618 + GGUGGGAUAUGGAGAAG 17 19504 CFTR-Intron10-619 +GUAAUAGCAACAGGAAG 17 19505 CFTR-Intron10-620 − GAUUUUUGACUAUACAG 1719506 CFTR-Intron10-621 − GAGUUAGAGGAAGGCAG 17 19507 CFTR-Intron10-622 +GUUUGUGUUUUUUGUAG 17 19508 CFTR-Intron10-623 + GAGGCGGGCGGAUCACG 1719509 CFTR-Intron10-624 − GAGUCAAAAAUUAUACG 17 19510 CFTR-Intron10-625 −GGAGUUUGAGACCAGCG 17 19511 CFTR-Intron10-626 − GAACAAAGACUUGCAGG 1719512 CFTR-Intron10-627 + GGCGUGAACCCGGGAGG 17 19513 CFTR-Intron10-628 −GGAAGAAAGGAAGUAGG 17 19514 CFTR-Intron10-629 − GUGAUGGUAUUGCAGGG 1719515 CFTR-Intron10-630 − GAAGAAAGAAGGAAAUG 17 19516 CFTR-Intron10-631 −GAGGUGAUUAGUCCAUG 17 19517 CFTR-Intron10-632 + GAGGCAGGCAGAUCAUG 1719518 CFTR-Intron10-633 + GAAUAUAUUCUUUUAUG 17 19519 CFTR-Intron10-634 +GUAGCAAAUGAUAAAAU 17 19520 CFTR-Intron10-635 − GUUUACUAACUCAAUCU 1719521 CFTR-Intron10-636 + GUGCAGUGGCGCGAUCU 17 19522 CFTR-Intron10-637 −GCACAGUGGUGCGAUCU 17 19523 CFTR-Intron10-638 − GUGCAGUGGCGGGAUCU 1719524 CFTR-Intron10-639 − GCUGUGCAUUUUCCUCU 17 19525 CFTR-Intron10-640 −GAGUUUGAGACCAGCGU 17 19526 CFTR-Intron10-641 + GUGUUUUUUGUAGAGGU 1719527 CFTR-Intron10-642 − GUACUACUGUAAUAAUU 17 19528 CFTR-Intron10-643 −GCAGGAGGUGAGGGAUU 17 19529 CFTR-Intron10-644 − GUUAUCUCUGAAAUUUU 1719530 CFTR-Intron10-645 + GAAUGCAGGAGAAUGGAAAA 20 19531CFTR-Intron10-646 + GUGUUCUCACAUGGCAGAAA 20 19532 CFTR-Intron10-647 +GCAUCACGUGGUGUUUUAAA 20 19533 CFTR-Intron10-648 + GGGAGGCUGAGGCAGGAGAA20 19534 CFTR-Intron10-649 + GAUGAGGGAAUGCAGGAGAA 20 19535CFTR-Intron10-650 − GGGAGACAAGGGAGGAAGCA 20 19536 CFTR-Intron10-651 +GGCUGGGAAGUCCAAGAUCA 20 19537 CFTR-Intron10-652 − GAAGUAGGAGGAAGGAAGGA20 19538 CFTR-Intron10-653 − GAAGAAAGGAAGUAGGAGGA 20 19539CFTR-Intron10-654 + GUAGUCCCAGCUACUUGGGA 20 19540 CFTR-Intron10-655 −GGGAGGUGAUUAGUCCAUGA 20 19541 CFTR-Intron10-656 − GACUGUUUAUGUUAUCUGUA20 19542 CFTR-Intron10-657 − GCCACUUCCUGUUGCUAUUA 20 19543CFTR-Intron10-658 − GUGUGUAUAUGUGUGUAUUA 20 19544 CFTR-Intron10-659 +GUUCAAGCCUGUAUUGUUUA 20 19545 CFTR-Intron10-660 + GAGCUUACCGUAAUAGCAAC20 19546 CFTR-Intron10-661 + GCAGGAGAAUGGCGUGAACC 20 19547CFTR-Intron10-662 − GCAUAUAUAUAUUUUUAACC 20 19548 CFTR-Intron10-663 −GACAGAGUCUUACUGUCACC 20 19549 CFTR-Intron10-664 − GGAGUCUCGCUCUGUCGCCC20 19550 CFTR-Intron10-665 + GCAGGAGAAUUGCUUGAGCC 20 19551CFTR-Intron10-666 + GGAGUUUCACUGUGUUAGCC 20 19552 CFTR-Intron10-667 −GGGGUUUCACCGUUUUAGCC 20 19553 CFTR-Intron10-668 − GGGGUUUCACCAUGUUGGCC20 19554 CFTR-Intron10-669 + GAUGUAUCUCCAAAUAUGCC 20 19555CFTR-Intron10-670 − GGAUGCCCUUGACUGAAAGC 20 19556 CFTR-Intron10-671 −GAACACAGCAGGAAGACAGC 20 19557 CFTR-Intron10-672 − GCCUCACCCUCCCAAGUAGC20 19558 CFTR-Intron10-673 − GCCUCAGCCUCCCAAGUAGC 20 19559CFTR-Intron10-674 − GGAAGAGUCUUCCAAGUAGC 20 19560 CFTR-Intron10-675 +GCCUCAGCCUCCCGAGUAGC 20 19561 CFTR-Intron10-676 + GUUUGCCAUGUUGCCCACGC20 19562 CFTR-Intron10-677 − GAGUCUUACUGUCACCAGGC 20 19563CFTR-Intron10-678 − GCACUUUUGGAGGCAGAGGC 20 19564 CFTR-Intron10-679 +GCACUUUGGGAGGCCGAGGC 20 19565 CFTR-Intron10-680 − GCUACUCGGGAGGCUGAGGC20 19566 CFTR-Intron10-681 + GCUACUUGGGAGGCUGAGGC 20 19567CFTR-Intron10-682 + GCUACUUGGGAGGGUGAGGC 20 19568 CFTR-Intron10-683 +GAUUUCAACAUAUGAAUGGC 20 19569 CFTR-Intron10-684 + GUGCAAGACUUCACACCUGC20 19570 CFTR-Intron10-685 − GCUUCAGCCUCCCAAAGUGC 20 19571CFTR-Intron10-686 − GCCUCGGCCUCCCAAAGUGC 20 19572 CFTR-Intron10-687 −GCCCGUAGUCCCAGCUACUC 20 19573 CFTR-Intron10-688 + GGCGGGCGGAUCACGAGGUC20 19574 CFTR-Intron10-689 + GAAUUUAUUUCUCACAGUUC 20 19575CFTR-Intron10-690 + GUGUGUGUGUGUCCUUGUUC 20 19576 CFTR-Intron10-691 −GGGUUGAUAAGAAGAGAAAG 20 19577 CFTR-Intron10-692 − GAUCACCUGAGCCUGAGAAG20 19578 CFTR-Intron10-693 − GAAAGAAGGAAGGAAGUAAG 20 19579CFTR-Intron10-694 − GUCACCAGGCUGGAGCACAG 20 19580 CFTR-Intron10-695 −GUGGAUUUUUGACUAUACAG 20 19581 CFTR-Intron10-696 − GCAGAGUUAGAGGAAGGCAG20 19582 CFTR-Intron10-697 + GCCGAGGCGGGCGGAUCACG 20 19583CFTR-Intron10-698 − GUGGAGUCAAAAAUUAUACG 20 19584 CFTR-Intron10-699 +GAAAUGAAACAGGCCGGGCG 20 19585 CFTR-Intron10-700 − GAGAAUGGCGUGAACCCAGG20 19586 CFTR-Intron10-701 + GUUUGUGUUUUUUGUAGAGG 20 19587CFTR-Intron10-702 + GAGAAUGGCGUGAACCCGGG 20 19588 CFTR-Intron10-703 +GAGAAUUGCUUGAGCCCGGG 20 19589 CFTR-Intron10-704 − GUUCAGGCAAGUGAUGAUGG20 19590 CFTR-Intron10-705 + GCCGAGGCAGGCAGAUCAUG 20 19591CFTR-Intron10-706 − GAACAGUAAGGAGGUCACUG 20 19592 CFTR-Intron10-707 −GGUGAUGGUAUUGCAGGGUG 20 19593 CFTR-Intron10-708 − GGCUCAAAAAAAAAAAAAAU20 19594 CFTR-Intron10-709 − GCACCACUGUACCCUAGCCU 20 19595CFTR-Intron10-710 − GCGCCACUGCACUCUAGCCU 20 19596 CFTR-Intron10-711 −GGAGCACAGUGGUGCGAUCU 20 19597 CFTR-Intron10-712 − GGAGUGCAGUGGCGGGAUCU20 19598 CFTR-Intron10-713 − GCUACUUGGGAGGCUGAGGU 20 19599CFTR-Intron10-714 + GGUUAAGUUGUUCUUAGGGU 20 19600 CFTR-Intron10-715 −GAGACGGGGUUUCACCAUGU 20 19601 CFTR-Intron10-716 − GCCUCGGCCUCCCAAAGUGU20 19602 CFTR-Intron10-717 − GCAAUGCUAAUAAUACAAUU 20 19603CFTR-Intron10-718 + GAUCAAGGUGCCAGCAGAUU 20 19604 CFTR-Intron10-719 +GUUUCCAAAUUUUUUUUAUU 20 19605 CFTR-Intron10-720 + GCCUGUAGUCCCAGCUACUU20 19606 CFTR-Intron10-721 − GUAUUGCAGGGUGGGGCCUU 20 19607CFTR-Intron10-722 + GCCUGUAAUCCCAACACUUU 20 19608 CFTR-Intron10-723 +GCCUAUAAACCCAGCACUUU 20 19609 CFTR-Intron10-724 + GCCUGUAAUCCCAGCACUUU20 19610 CFTR-Intron10-725 − GAACACUUUAUAGUUUUUUU 20 19611

Table 40D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within intron 10. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. pyogenesCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 40D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-726 + AACAAAGAAACAAAAAA 17 19612CFTR-Intron10-727 + UAUGAUUUUAUGAAAAA 17 19613 CFTR-Intron10-728 +UGCAGGAGAAUGGAAAA 17 19614 CFTR-Intron10-729 + UGCAUAAAGGUUGAAAA 1719615 CFTR-Intron10-730 − UUCAGAAGUCUAUAAAA 17 19616 CFTR-Intron10-731 −AAAGAAAAAACAGCAAA 17 19617 CFTR-Intron10-732 + AGUAAAAAAAAAUCAAA 1719618 CFTR-Intron10-733 + CUAAAAUGACAAUCAAA 17 19619 CFTR-Intron10-734 +AAAAGCUGAAAGUCAAA 17 19620 CFTR-Intron10-735 + AUUCAAUGAAAAAGAAA 1719621 CFTR-Intron10-736 + UUCUCACAUGGCAGAAA 17 19622 CFTR-Intron10-737 −UAAACACUUCUGAGAAA 17 19623 CFTR-Intron10-738 + UAAACAAACAAAGGAAA 1719624 CFTR-Intron10-739 + AUUAUCUUUCUAGUAAA 17 19625 CFTR-Intron10-740 +ACCAAAUAAACAAACAA 17 19626 CFTR-Intron10-741 − AUGGAUAAGUUGAACAA 1719627 CFTR-Intron10-742 − AUUAGGAAAAUGUACAA 17 19628 CFTR-Intron10-743 +UGUUUAAAUAUUCCCAA 17 19629 CFTR-Intron10-744 + AAAGAAUAAGGCAUCAA 1719630 CFTR-Intron10-745 + AAAUAUAUUCAAAAGAA 17 19631 CFTR-Intron10-746 +UGAGAGACAGUAAAGAA 17 19632 CFTR-Intron10-747 − AAGGAAAUGAGGAAGAA 1719633 CFTR-Intron10-748 + AGGCUGAGGCAGGAGAA 17 19634 CFTR-Intron10-749 +AAACUGAGUAGAAGGAA 17 19635 CFTR-Intron10-750 + UUUCUCUUUACUGUGAA 1719636 CFTR-Intron10-751 + AAGAAAAGUAUCAAUAA 17 19637 CFTR-Intron10-752 +CAGUGACUUCAUAAUAA 17 19638 CFTR-Intron10-753 + AUAGAGAAAACUCAUAA 1719639 CFTR-Intron10-754 + ACAAAAAUUAAAACUAA 17 19640 CFTR-Intron10-755 +UCUAGAAAACAAUGUAA 17 19641 CFTR-Intron10-756 − AGAUAAAGUUGAAUUAA 1719642 CFTR-Intron10-757 + AAGCCUGUAUUGUUUAA 17 19643 CFTR-Intron10-758 −AUUUUGACCAUUUUUAA 17 19644 CFTR-Intron10-759 + UACCAUCCUGGCCAACA 1719645 CFTR-Intron10-760 − UUAUAGCAGCCUGAACA 17 19646 CFTR-Intron10-761 −UUUAAACAGAAGUAACA 17 19647 CFTR-Intron10-762 + AGAGAGAACUGCUCACA 1719648 CFTR-Intron10-763 + CCUGCUGUGUUCUCACA 17 19649 CFTR-Intron10-764 −UGAAAUCCUAAUUCCCA 17 19650 CFTR-Intron10-765 − UUUAUUUUUAUAUUCCA 1719651 CFTR-Intron10-766 − AGACAAGGGAGGAAGCA 17 19652 CFTR-Intron10-767 +UCAACAUAUGAAUGGCA 17 19653 CFTR-Intron10-768 − UACAGGCUUGAACUGCA 1719654 CFTR-Intron10-769 − AAGGUGAUGGUAUUGCA 17 19655 CFTR-Intron10-770 +CUAUUUAAACAGAAUCA 17 19656 CFTR-Intron10-771 + UGGGAAGUCCAAGAUCA 1719657 CFTR-Intron10-772 + UUCACUAAAAUAAUUCA 17 19658 CFTR-Intron10-773 +UAUAUUUUAUGCAUUCA 17 19659 CFTR-Intron10-774 − AUAAGCCACACAGUUCA 1719660 CFTR-Intron10-775 + UUGAGCCCAGGAGUUCA 17 19661 CFTR-Intron10-776 +AAUUGGUACAAAUUUCA 17 19662 CFTR-Intron10-777 − AGAGGAAGGAAGAAAGA 1719663 CFTR-Intron10-778 − AGAUUCUAAAGGAAAGA 17 19664 CFTR-Intron10-779 −AAGGAAGGAAGGAAAGA 17 19665 CFTR-Intron10-780 + UGUAUUUUUAGUAGAGA 1719666 CFTR-Intron10-781 − UUUUUUUUUUUUUGAGA 17 19667 CFTR-Intron10-782 −CUUUUCCUCUUAAUAGA 17 19668 CFTR-Intron10-783 + AUAUUCAAAAGAAAGGA 1719669 CFTR-Intron10-784 − AAGGAAGGAAAGAAGGA 17 19670 CFTR-Intron10-785 +CACUGUGUUAGCCAGGA 17 19671 CFTR-Intron10-786 − CACCAUGUUGGCCAGGA 1719672 CFTR-Intron10-787 − AAGGCAGAGUUAGAGGA 17 19673 CFTR-Intron10-788 −AAAAUUAUACUAUAGGA 17 19674 CFTR-Intron10-789 − AUAGAGUAAGACAGGGA 1719675 CFTR-Intron10-790 − CACCGUUUUAGCCGGGA 17 19676 CFTR-Intron10-791 −UGGACUGAGUAACUGGA 17 19677 CFTR-Intron10-792 − AUAUAUGUGUGUCUGGA 1719678 CFTR-Intron10-793 − AGGUGAUUAGUCCAUGA 17 19679 CFTR-Intron10-794 +UGGCAUAGCUGCACUGA 17 19680 CFTR-Intron10-795 − AAAUUAGCCAGACGUGA 1719681 CFTR-Intron10-796 − CCUAAUUCCCAAGGUGA 17 19682 CFTR-Intron10-797 −AGACUUGCAGGAGGUGA 17 19683 CFTR-Intron10-798 + AUGGCAGAAAGGGGUGA 1719684 CFTR-Intron10-799 − UUCAGGACAUGCUUUGA 17 19685 CFTR-Intron10-800 +UUCAAUUCUUCAAAAUA 17 19686 CFTR-Intron10-801 + AGUAUAUCAAAAGAAUA 1719687 CFTR-Intron10-802 + CCUCUGUGCUUUGAAUA 17 19688 CFTR-Intron10-803 −AUAAAUGUUGAAUAAUA 17 19689 CFTR-Intron10-804 − CAUAGUAUUCUAUCAUA 1719690 CFTR-Intron10-805 + CAUAGAGAAAACUCAUA 17 19691 CFTR-Intron10-806 +CUGCAGACCUCAAUAUA 17 19692 CFTR-Intron10-807 − AAGUUUCUCAUCUUAUA 1719693 CFTR-Intron10-808 + CCGAGUAGCUGGGACUA 17 19694 CFTR-Intron10-809 −UGGUUUGAAGAACAGUA 17 19695 CFTR-Intron10-810 − UGUUUAUGUUAUCUGUA 1719696 CFTR-Intron10-811 − UUUUAGGCUAUUCUGUA 17 19697 CFTR-Intron10-812 +ACUAGUGGCACUUUGUA 17 19698 CFTR-Intron10-813 + UUAGUUUUAUGCCAUUA 1719699 CFTR-Intron10-814 − CAGGAGGUGAGGGAUUA 17 19700 CFTR-Intron10-815 −ACUUCCUGUUGCUAUUA 17 19701 CFTR-Intron10-816 − UGUAUAUGUGUGUAUUA 1719702 CFTR-Intron10-817 + AUGUUAUUCAAGGUUUA 17 19703 CFTR-Intron10-818 −CAUUUUGACCAUUUUUA 17 19704 CFTR-Intron10-819 − AAGAUAAUGGGAGAAAC 1719705 CFTR-Intron10-820 + UGUGGCUUAUAAACAAC 17 19706 CFTR-Intron10-821 −UUUUAAACAGAAGUAAC 17 19707 CFTR-Intron10-822 − AAACUGUUAUAAUUAAC 1719708 CFTR-Intron10-823 − UGACCCUUAAACAAUAC 17 19709 CFTR-Intron10-824 +CAAGUAGCUGGGACUAC 17 19710 CFTR-Intron10-825 + CGAGUAGCUGGGACUAC 1719711 CFTR-Intron10-826 − CAAAGUGCUGGGAUUAC 17 19712 CFTR-Intron10-827 −CAAAGUGUUGGGAUUAC 17 19713 CFTR-Intron10-828 + UGCAAUAUGCAAUUUAC 1719714 CFTR-Intron10-829 + AAAUAUUGACUAUUUAC 17 19715 CFTR-Intron10-830 −UAUAUAUAUUUUUAACC 17 19716 CFTR-Intron10-831 − AGAGUCUUACUGUCACC 1719717 CFTR-Intron10-832 + UACUAAAAAAAGUUACC 17 19718 CFTR-Intron10-833 +AAAGGUCAAUUGAGCCC 17 19719 CFTR-Intron10-834 − UGCAAGCUCCGCCUCCC 1719720 CFTR-Intron10-835 − UGCAACCUCUGCCUCCC 17 19721 CFTR-Intron10-836 +ACCACUGUGCUCCAGCC 17 19722 CFTR-Intron10-837 + ACCACUGAAGUUCAGCC 1719723 CFTR-Intron10-838 + AAUACAAAAAAUUAGCC 17 19724 CFTR-Intron10-839 +AAGAAAUGAAACAGGCC 17 19725 CFTR-Intron10-840 + AGAGAUCAAUACCAUCC 1719726 CFTR-Intron10-841 − UGAUGGUGGCUUGAUCC 17 19727 CFTR-Intron10-842 +CGCUGGUCUCAAACUCC 17 19728 CFTR-Intron10-843 − CUGUAACCUUGAACUCC 1719729 CFTR-Intron10-844 − CUGCAAGCUCCGCCUCC 17 19730 CFTR-Intron10-845 −CUGCAACCUCUGCCUCC 17 19731 CFTR-Intron10-846 + CUGCAAGUUCUGCCUCC 1719732 CFTR-Intron10-847 − CCAUGUGAGAACACAGC 17 19733 CFTR-Intron10-848 −CACAGCAGGAAGACAGC 17 19734 CFTR-Intron10-849 − AGUGCAGCUAUGCCAGC 1719735 CFTR-Intron10-850 − UUUUAAAACAAAAUAGC 17 19736 CFTR-Intron10-851 −AAACAAAAGAAAAUAGC 17 19737 CFTR-Intron10-852 − UCACCCUCCCAAGUAGC 1719738 CFTR-Intron10-853 + UCAGCCUCCCAAGUAGC 17 19739 CFTR-Intron10-854 −AGAGUCUUCCAAGUAGC 17 19740 CFTR-Intron10-855 + UCAGCCUCCCGAGUAGC 1719741 CFTR-Intron10-856 + AAAUACAAAAAAUUAGC 17 19742 CFTR-Intron10-857 +UGCCAUGUUGCCCACGC 17 19743 CFTR-Intron10-858 + UAAGAAAUGAAACAGGC 1719744 CFTR-Intron10-859 − UCUUACUGUCACCAGGC 17 19745 CFTR-Intron10-860 −CGCUCUGUCGCCCAGGC 17 19746 CFTR-Intron10-861 − CUUUUGGAGGCAGAGGC 1719747 CFTR-Intron10-862 + CUUUGGGAGGCCGAGGC 17 19748 CFTR-Intron10-863 +CUCACAGUUCUGGAGGC 17 19749 CFTR-Intron10-864 − AAGGAGGUCACUGAGGC 1719750 CFTR-Intron10-865 − ACUCGGGAGGCUGAGGC 17 19751 CFTR-Intron10-866 +ACUUGGGAGGCUGAGGC 17 19752 CFTR-Intron10-867 + ACUUGGGAGGGUGAGGC 1719753 CFTR-Intron10-868 − UUCAAGGAAGAGGGGGC 17 19754 CFTR-Intron10-869 +UUCAACAUAUGAAUGGC 17 19755 CFTR-Intron10-870 − UAGCCAGACGUGAUGGC 1719756 CFTR-Intron10-871 + UAGCCGGGCGUAGUGGC 17 19757 CFTR-Intron10-872 −UCAGCCUCCCAAAGUGC 17 19758 CFTR-Intron10-873 − UCGGCCUCCCAAAGUGC 1719759 CFTR-Intron10-874 − CAAGGUGAUGGUAUUGC 17 19760 CFTR-Intron10-875 −UUUGAACAAAGACUUGC 17 19761 CFTR-Intron10-876 − CGUAGUCCCAGCUACUC 1719762 CFTR-Intron10-877 + CUCCACUUCUCAGGCUC 17 19763 CFTR-Intron10-878 +AUAGAGAGAAACAUCUC 17 19764 CFTR-Intron10-879 + UGCAGCCUCCACUUCUC 1719765 CFTR-Intron10-880 + AGAGACAAGGUGGUGUC 17 19766 CFTR-Intron10-881 −UCAAUAAAUUUGGUGUC 17 19767 CFTR-Intron10-882 − AUGUAUAUAUGUGUGUC 1719768 CFTR-Intron10-883 + UCUUUCUAAUUUCAUUC 17 19769 CFTR-Intron10-884 −AGGAAGUGAUCAGAUUC 17 19770 CFTR-Intron10-885 + UAAGAGGAAAAGACUUC 1719771 CFTR-Intron10-886 + UUUAUUUCUCACAGUUC 17 19772 CFTR-Intron10-887 +UGUGUGUGUCCUUGUUC 17 19773 CFTR-Intron10-888 − ACUGGCAAUUAAAUUUC 1719774 CFTR-Intron10-889 − UCUUUUGAAUAUAUUUC 17 19775 CFTR-Intron10-890 +AUAAAUAAUUGCCUUUC 17 19776 CFTR-Intron10-891 − AUUAUAACACUGCUUUC 1719777 CFTR-Intron10-892 + AAAAUUUGUUUUCUUUC 17 19778 CFTR-Intron10-893 +AAAAACAUUAGCCAAAG 17 19779 CFTR-Intron10-894 + UCUCACAUGGCAGAAAG 1719780 CFTR-Intron10-895 − UUGAUAAGAAGAGAAAG 17 19781 CFTR-Intron10-896 −AAGAUUCUAAAGGAAAG 17 19782 CFTR-Intron10-897 − UGAAUUUUUUUUCCAAG 1719783 CFTR-Intron10-898 − CACCUGAGCCUGAGAAG 17 19784 CFTR-Intron10-899 +ACUUUGGGAGGCUGAAG 17 19785 CFTR-Intron10-900 + AAAAAUUCACAAAUAAG 1719786 CFTR-Intron10-901 − AAAUUAGAAAGAAUAAG 17 19787 CFTR-Intron10-902 −AAAAAUAAAAAUAUAAG 17 19788 CFTR-Intron10-903 − AGAAGGAAGGAAGUAAG 1719789 CFTR-Intron10-904 − CCAUAUUCAAAGCACAG 17 19790 CFTR-Intron10-905 −ACCAGGCUGGAGCACAG 17 19791 CFTR-Intron10-906 + UUAAUGGCUGUGCACAG 1719792 CFTR-Intron10-907 − UAUGAGAAAAGUCACAG 17 19793 CFTR-Intron10-908 +CCUAGGCUAGGGUACAG 17 19794 CFTR-Intron10-909 + UGUUUAAAACUCUCCAG 1719795 CFTR-Intron10-910 − CUAUAUUUGUUUUCCAG 17 19796 CFTR-Intron10-911 +AGGAAAGGAGGUAGCAG 17 19797 CFTR-Intron10-912 + UUGAGCCCGGGAGGCAG 1719798 CFTR-Intron10-913 − AGCACUUUUGGAGGCAG 17 19799 CFTR-Intron10-914 +CAACAUAUGAAUGGCAG 17 19800 CFTR-Intron10-915 + CCCAGGCUAGAGUGCAG 1719801 CFTR-Intron10-916 − CCCAGGCUGGAGUGCAG 17 19802 CFTR-Intron10-917 −UGUCAGGCUGGGUGCAG 17 19803 CFTR-Intron10-918 + UAUUUAAACAGAAUCAG 1719804 CFTR-Intron10-919 − AAUGUUAAUUUAUUCAG 17 19805 CFTR-Intron10-920 −CCCAGGCUGAACUUCAG 17 19806 CFTR-Intron10-921 + UUGUUACAUAAAAAGAG 1719807 CFTR-Intron10-922 − AACAGAAAAAGAAAGAG 17 19808 CFTR-Intron10-923 −AAAUUAUACUAUAGGAG 17 19809 CFTR-Intron10-924 + AAUAGCCUAUUGUUGAG 1719810 CFTR-Intron10-925 − UAAAUGUUGAAUAAUAG 17 19811 CFTR-Intron10-926 +UAGAUGAUUAUUAAUAG 17 19812 CFTR-Intron10-927 − UAAAAAGUGAUCUCUAG 1719813 CFTR-Intron10-928 + AAAUUAGCCGGGCGUAG 17 19814 CFTR-Intron10-929 −UAUGAAGGCAGAGUUAG 17 19815 CFTR-Intron10-930 + AGAUGAUUAGCAUCACG 1719816 CFTR-Intron10-931 − UAUUUUUAGUAGAGACG 17 19817 CFTR-Intron10-932 +AACACUUUGGGAGGCCG 17 19818 CFTR-Intron10-933 + AGCACUUUGGGAGGCCG 1719819 CFTR-Intron10-934 + AUGAAACAGGCCGGGCG 17 19820 CFTR-Intron10-935 +AAAAAAAAAUCAAAAGG 17 19821 CFTR-Intron10-936 + CUGAGUAGAAGGAAAGG 1719822 CFTR-Intron10-937 − UUUGAAGAACAGUAAGG 17 19823 CFTR-Intron10-938 −AAUGGCGUGAACCCAGG 17 19824 CFTR-Intron10-939 − UAGUUUCAAGGAAGAGG 1719825 CFTR-Intron10-940 + UUACAUAAAAAGAGAGG 17 19826 CFTR-Intron10-941 +UGUGUUUUUUGUAGAGG 17 19827 CFTR-Intron10-942 + ACUUUGGGAGGCCGAGG 1719828 CFTR-Intron10-943 − UACUUGGGAGGCUGAGG 17 19829 CFTR-Intron10-944 −AAAAAUUAUACUAUAGG 17 19830 CFTR-Intron10-945 + AAACAGGCCGGGCGCGG 1719831 CFTR-Intron10-946 − CUGUAGGGAGACAAGGG 17 19832 CFTR-Intron10-947 +AAUGGCGUGAACCCGGG 17 19833 CFTR-Intron10-948 + AAUUGCUUGAGCCCGGG 1719834 CFTR-Intron10-949 + UGGGAGGCCGAGGCGGG 17 19835 CFTR-Intron10-950 −AGUCCCAGCUACUCGGG 17 19836 CFTR-Intron10-951 − UGGGAGGCUGAGGUGGG 1719837 CFTR-Intron10-952 + AGUCCCAGCUACUUGGG 17 19838 CFTR-Intron10-953 +AAUCCCAACACUUUGGG 17 15660 CFTR-Intron10-954 + AAACCCAGCACUUUGGG 1719839 CFTR-Intron10-955 + AAUCCCAGCACUUUGGG 17 19840 CFTR-Intron10-956 −AGGGUGGGGCCUUUGGG 17 19841 CFTR-Intron10-957 − CAGGCAAGUGAUGAUGG 1719842 CFTR-Intron10-958 − UUAGCCAGACGUGAUGG 17 19843 CFTR-Intron10-959 +AUUUCUCACAGUUCUGG 17 19844 CFTR-Intron10-960 − CUGAGCCUGAGAAGUGG 1719845 CFTR-Intron10-961 − AGGCUGGAGUGCAGUGG 17 19846 CFTR-Intron10-962 +UUAGCCGGGCGUAGUGG 17 19847 CFTR-Intron10-963 − AAAAUAGCUGGGUGUGG 1719848 CFTR-Intron10-964 + UCAAAAAAUAUUUGUGG 17 19849 CFTR-Intron10-965 −AAUCCUAGCACUUUUGG 17 19850 CFTR-Intron10-966 − AAUUUUAUAUAGAAAUG 1719851 CFTR-Intron10-967 + AACAAACAAAGGAAAUG 17 19852 CFTR-Intron10-968 −AAGCUAGUGAAUGAAUG 17 19853 CFTR-Intron10-969 + AUUAUUCAACAUUUAUG 1719854 CFTR-Intron10-970 − CAGUAAGGAGGUCACUG 17 19855 CFTR-Intron10-971 −AGCUACUCGGGAGGCUG 17 19856 CFTR-Intron10-972 + AGCUACUUGGGAGGCUG 1719857 CFTR-Intron10-973 + CAAAAAUUAGCUGAGUG 17 19858 CFTR-Intron10-974 +ACAUAAAAAGAGAGGUG 17 19859 CFTR-Intron10-975 + UGUUUUUUGUAGAGGUG 1719860 CFTR-Intron10-976 − AAGACUUGCAGGAGGUG 17 19861 CFTR-Intron10-977 +AGCUACUUGGGAGGGUG 17 19862 CFTR-Intron10-978 + CAUGGCAGAAAGGGGUG 1719863 CFTR-Intron10-979 − AAGAAAAUAGCUGGGUG 17 19864 CFTR-Intron10-980 +AAAUACCAUGAACUGUG 17 19865 CFTR-Intron10-981 − UUUAUAAAAAAUAAUUG 1719866 CFTR-Intron10-982 + UAUUCAAAAAAUAUUUG 17 19867 CFTR-Intron10-983 −ACAUUGGAAAAUUUUUG 17 19868 CFTR-Intron10-984 − UAGUAGUUAAGUUUUUG 1719869 CFTR-Intron10-985 − UCAAAAAAAAAAAAAAU 17 19870 CFTR-Intron10-986 +UAAAAUGACAAUCAAAU 17 19871 CFTR-Intron10-987 + CUAUUUGGAUGUCAAAU 1719872 CFTR-Intron10-988 + AAACAAACAAAGGAAAU 17 19873 CFTR-Intron10-989 −UUGAAGGAAGAUCCAAU 17 19874 CFTR-Intron10-990 − CAUAAAUGUUGAAUAAU 1719875 CFTR-Intron10-991 − UUUACUAGAAAGAUAAU 17 19876 CFTR-Intron10-992 −ACUGUCAGAGAAGUAAU 17 19877 CFTR-Intron10-993 − UUUUUCAGUUAAUACAU 1719878 CFTR-Intron10-994 + UACAAUUCUUAUUACAU 17 19879 CFTR-Intron10-995 −ACAGGCUUGAACUGCAU 17 19880 CFTR-Intron10-996 − ACCCUAGCCUAGGUGAU 1719881 CFTR-Intron10-997 + UUGUGUUAACAAAAUAU 17 19882 CFTR-Intron10-998 +AAUAUAUAUAUGCAUAU 17 19883 CFTR-Intron10-999 − UUAAAAAAUUAUACUAU 1719884 CFTR-Intron10-1000 − AAAGUUUCUCAUCUUAU 17 19885CFTR-Intron10-1001 + UAUUAUUCAACAUUUAU 17 19886 CFTR-Intron10-1002 −CAAAGUGCUGGGUUUAU 17 19887 CFTR-Intron10-1003 + UCAGACUUUUAUUUUAU 1719888 CFTR-Intron10-1004 + UUUAACAAACCUUUUAU 17 19889CFTR-Intron10-1005 + UUCCAAAUUUUUUUUAU 17 19890 CFTR-Intron10-1006 −UUAUUCUUGUAAUAACU 17 19891 CFTR-Intron10-1007 − CCGUAGUCCCAGCUACU 1719892 CFTR-Intron10-1008 + CUGUAGUCCCAGCUACU 17 19893CFTR-Intron10-1009 + CUGCAAUACCAUCACCU 17 19894 CFTR-Intron10-1010 +CCACUGCACUCCAGCCU 17 19895 CFTR-Intron10-1011 + CCACUGAAGUUCAGCCU 1719896 CFTR-Intron10-1012 − CCACUGUACCCUAGCCU 17 19897 CFTR-Intron10-1013− CCACUGCACUCUAGCCU 17 19898 CFTR-Intron10-1014 − UCGUGAUCCGCCCGCCU 1719899 CFTR-Intron10-1015 − UCAUGAUCUGCCUGCCU 17 19900 CFTR-Intron10-1016− UGUAACCUUGAACUCCU 17 19901 CFTR-Intron10-1017 + UGCAAGUUCUGCCUCCU 1719902 CFTR-Intron10-1018 − AGGUUUUGGAUGGAGCU 17 19903 CFTR-Intron10-1019− AACAAAAGAAAAUAGCU 17 19904 CFTR-Intron10-1020 − CACCCUCCCAAGUAGCU 1719905 CFTR-Intron10-1021 + CAGCCUCCCAAGUAGCU 17 19906CFTR-Intron10-1022 + CAGCCUCCCGAGUAGCU 17 19907 CFTR-Intron10-1023 +UCACAGUUCUGGAGGCU 17 19908 CFTR-Intron10-1024 − AAAUUAUUUCUACUGCU 1719909 CFTR-Intron10-1025 + CUGCCUCCAAAAGUGCU 17 19910 CFTR-Intron10-1026− CAGCCUCCCAAAGUGCU 17 19911 CFTR-Intron10-1027 − CGGCCUCCCAAAGUGCU 1719912 CFTR-Intron10-1028 − AAAAAAGUUGAGUUGCU 17 19913 CFTR-Intron10-1029− UGCUGGCACCUUGAUCU 17 19914 CFTR-Intron10-1030 − UGCUUUUCCCACUAUCU 1719915 CFTR-Intron10-1031 + AAUUUGAACAACAUUCU 17 19916CFTR-Intron10-1032 + UUUUUCAUUAUGAUUCU 17 19917 CFTR-Intron10-1033 +CUUUUUCUUAAUUUUCU 17 19918 CFTR-Intron10-1034 − UGAGGAAGAAAGGAAGU 1719919 CFTR-Intron10-1035 − UCUGCAAUUGUAUCAGU 17 19920CFTR-Intron10-1036 + CAGUUUUAUUUUUCAGU 17 19921 CFTR-Intron10-1037 +ACAUUUUCCUAAUGAGU 17 19922 CFTR-Intron10-1038 − AGUGGAAGUAGUAUAGU 1719923 CFTR-Intron10-1039 + UACAUAAAAAGAGAGGU 17 19924 CFTR-Intron10-1040− UUAGAGGUUAAGGAGGU 17 19925 CFTR-Intron10-1041 − ACUUGGGAGGCUGAGGU 1719926 CFTR-Intron10-1042 − ACGGGGUUUCACCAUGU 17 19927 CFTR-Intron10-1043− UCGGCCUCCCAAAGUGU 17 19928 CFTR-Intron10-1044 − AGAAGAGAAAGGGGUGU 1719929 CFTR-Intron10-1045 − ACCCAAUAAAAAAAAUU 17 19930 CFTR-Intron10-1046− UUUCCACUCAAUAAAUU 17 19931 CFTR-Intron10-1047 + CCAUCACCUUGGGAAUU 1719932 CFTR-Intron10-1048 − CACUAUUGAUUGACAUU 17 19933CFTR-Intron10-1049 + CAAGGUGCCAGCAGAUU 17 19934 CFTR-Intron10-1050 −UAUUCUUUUUAGAGAUU 17 19935 CFTR-Intron10-1051 − UACUUUUCUUCCUGAUU 1719936 CFTR-Intron10-1052 − UUUUCAUUGAAUGUAUU 17 19937 CFTR-Intron10-1053− UCCUUUGUUUGUUUAUU 17 19938 CFTR-Intron10-1054 + CAGACUUUUAUUUUAUU 1719939 CFTR-Intron10-1055 + UCCAAAUUUUUUUUAUU 17 19940CFTR-Intron10-1056 + CUGUAAUCCCAACACUU 17 19941 CFTR-Intron10-1057 −AAGUAACAGGGCCACUU 17 19942 CFTR-Intron10-1058 + CUAUAAACCCAGCACUU 1719943 CFTR-Intron10-1059 + CUGUAAUCCCAGCACUU 17 19944 CFTR-Intron10-1060− AAUUGAAUAUGAGACUU 17 19945 CFTR-Intron10-1061 + UGUAGUCCCAGCUACUU 1719946 CFTR-Intron10-1062 + UGCAAUACCAUCACCUU 17 19947CFTR-Intron10-1063 + AUGUUAAAUUUUCCCUU 17 19948 CFTR-Intron10-1064 +UUCCCUUAGGAUAUCUU 17 19949 CFTR-Intron10-1065 − AAGCAAGGAGAUGAGUU 1719950 CFTR-Intron10-1066 − CGGCCUCCCAAAGUGUU 17 19951 CFTR-Intron10-1067− UGUUAUCUCUGAAAUUU 17 19952 CFTR-Intron10-1068 − UUUGAUUAGAUAAAUUU 1719953 CFTR-Intron10-1069 − UCAAUAUUUUGGAAUUU 17 19954 CFTR-Intron10-1070− ACUAUUGAUUGACAUUU 17 19955 CFTR-Intron10-1071 + AAGGUGCCAGCAGAUUU 1719956 CFTR-Intron10-1072 − UAGUUUUAUCAAUAUUU 17 19957CFTR-Intron10-1073 + UCUCUGCAAACAUAUUU 17 19958 CFTR-Intron10-1074 −CAUUAUUCAUGAUAUUU 17 19959 CFTR-Intron10-1075 − UUUCAUUGAAUGUAUUU 1719960 CFTR-Intron10-1076 + UGUAAUCCCAACACUUU 17 19961CFTR-Intron10-1077 + UAUAAACCCAGCACUUU 17 19962 CFTR-Intron10-1078 +UGUAAUCCCAGCACUUU 17 19963 CFTR-Intron10-1079 − UGUAAUCCUAGCACUUU 1719964 CFTR-Intron10-1080 − UGCAGGGUGGGGCCUUU 17 19965 CFTR-Intron10-1081− UUUAACUGAAUAUCUUU 17 19966 CFTR-Intron10-1082 − AUGGGAGAAACAGGUUU 1719967 CFTR-Intron10-1083 − AUACAUUGGAAAAUUUU 17 19968 CFTR-Intron10-1084− CAAUAUUUUGGAAUUUU 17 19969 CFTR-Intron10-1085 − UACAUUGGAAAAUUUUU 1719970 CFTR-Intron10-1086 − CUUUGGCUAAUGUUUUU 17 19971 CFTR-Intron10-1087− CACUUUAUAGUUUUUUU 17 19972 CFTR-Intron10-1088 + ACAAACAAAGAAACAAAAAA20 19973 CFTR-Intron10-1089 + ACAUAUGAUUUUAUGAAAAA 20 19974CFTR-Intron10-1090 + CGAGACCAUCCCGGCUAAAA 20 19975 CFTR-Intron10-1091 −UAGAAAGAAAAAACAGCAAA 20 19976 CFTR-Intron10-1092 + AUUAGUAAAAAAAAAUCAAA20 19977 CFTR-Intron10-1093 + AAGAAAAGCUGAAAGUCAAA 20 19978CFTR-Intron10-1094 + UACAUUCAAUGAAAAAGAAA 20 19979 CFTR-Intron10-1095 −AGGGUUGAUAAGAAGAGAAA 20 19980 CFTR-Intron10-1096 − AUUUAAACACUUCUGAGAAA20 19981 CFTR-Intron10-1097 + AAAUAAACAAACAAAGGAAA 20 19982CFTR-Intron10-1098 − AAGGAUGUUUAUUUAUGAAA 20 19983 CFTR-Intron10-1099 +AAAACCAAAUAAACAAACAA 20 19984 CFTR-Intron10-1100 − CUCAUUAGGAAAAUGUACAA20 19985 CFTR-Intron10-1101 + AUGGACUAAUCACCUCCCAA 20 19986CFTR-Intron10-1102 − UCAUGUUGAUAAAGGGUCAA 20 19987 CFTR-Intron10-1103 +CUGAAAUAUAUUCAAAAGAA 20 19988 CFTR-Intron10-1104 + AGAUGAGAGACAGUAAAGAA20 19989 CFTR-Intron10-1105 − AAGAAGGAAAUGAGGAAGAA 20 19990CFTR-Intron10-1106 + UGUGUUCUCACAUGGCAGAA 20 19991 CFTR-Intron10-1107 +UUUGGGAGGCUGAAGCGGAA 20 19992 CFTR-Intron10-1108 + UUAGGAUUUCAACAUAUGAA20 19993 CFTR-Intron10-1109 + ACAUUUCUCUUUACUGUGAA 20 19994CFTR-Intron10-1110 + AGGAAGAAAAGUAUCAAUAA 20 19995 CFTR-Intron10-1111 +AUACAGUGACUUCAUAAUAA 20 19996 CFTR-Intron10-1112 + AACAUAGAGAAAACUCAUAA20 19997 CFTR-Intron10-1113 + UGAACAAAAAUUAAAACUAA 20 19998CFTR-Intron10-1114 + UUUUCUAGAAAACAAUGUAA 20 19999 CFTR-Intron10-1115 −AACAGAUAAAGUUGAAUUAA 20 20000 CFTR-Intron10-1116 + UGUUACCUUUCAAUGUUUAA20 20001 CFTR-Intron10-1117 + UUCAAGCCUGUAUUGUUUAA 20 20002CFTR-Intron10-1118 − AUCAUUUUGACCAUUUUUAA 20 20003 CFTR-Intron10-1119 +CAAUACCAUCCUGGCCAACA 20 20004 CFTR-Intron10-1120 − UGAGACCAGCGUGGGCAACA20 20005 CFTR-Intron10-1121 − UUGUUAUAGCAGCCUGAACA 20 20006CFTR-Intron10-1122 + UGGAGAGAGAACUGCUCACA 20 20007 CFTR-Intron10-1123 +CUUCCUGCUGUGUUCUCACA 20 20008 CFTR-Intron10-1124 + AAUGAUCAAUAAUAGAGACA20 20009 CFTR-Intron10-1125 + AUUUUACAAUUCUUAUUACA 20 20010CFTR-Intron10-1126 − UGUUGAAAUCCUAAUUCCCA 20 20011 CFTR-Intron10-1127 −UUCUUUAUUUUUAUAUUCCA 20 20012 CFTR-Intron10-1128 + AUUUCAACAUAUGAAUGGCA20 20013 CFTR-Intron10-1129 − AAAGUGCCACUAGUGAUGCA 20 20014CFTR-Intron10-1130 − CAAUACAGGCUUGAACUGCA 20 20015 CFTR-Intron10-1131 −CCCAAGGUGAUGGUAUUGCA 20 20016 CFTR-Intron10-1132 + AGGGUACAGUGGUGCAAUCA20 20017 CFTR-Intron10-1133 + UGCUUCACUAAAAUAAUUCA 20 20018CFTR-Intron10-1134 + ACAUAUAUUUUAUGCAUUCA 20 20019 CFTR-Intron10-1135 −UUUAUAAGCCACACAGUUCA 20 20020 CFTR-Intron10-1136 + CAAUUGAGCCCAGGAGUUCA20 20021 CFTR-Intron10-1137 − AAGAGAGGAAGGAAGAAAGA 20 20022CFTR-Intron10-1138 − AGGAAGGAAGGAAGGAAAGA 20 20023 CFTR-Intron10-1139 −AAAGAAGGAAGGAAGUAAGA 20 20024 CFTR-Intron10-1140 − AAUGAAAGCAAUAGUAGAGA20 20025 CFTR-Intron10-1141 + UUUUGUAUUUUUAGUAGAGA 20 20026CFTR-Intron10-1142 − UUUUUUUUUUUUUUUUGAGA 20 20027 CFTR-Intron10-1143 −AGUCUUUUCCUCUUAAUAGA 20 20028 CFTR-Intron10-1144 + AAUAUAUUCAAAAGAAAGGA20 20029 CFTR-Intron10-1145 − AGGAAGGAAGGAAAGAAGGA 20 20030CFTR-Intron10-1146 − AAAGGAAGUAGGAGGAAGGA 20 20031 CFTR-Intron10-1147 +UUUCACUGUGUUAGCCAGGA 20 20032 CFTR-Intron10-1148 − UUUCACCAUGUUGGCCAGGA20 20033 CFTR-Intron10-1149 − ACAGAAAAAGAAAGAGAGGA 20 20034CFTR-Intron10-1150 − AUGAAGGCAGAGUUAGAGGA 20 20035 CFTR-Intron10-1151 −UAAAAAAUUAUACUAUAGGA 20 20036 CFTR-Intron10-1152 + AUUGGUACAAAUUUCAGGGA20 20037 CFTR-Intron10-1153 − UUUCACCGUUUUAGCCGGGA 20 20038CFTR-Intron10-1154 − AUAGUAUUCUAUCAUAUGGA 20 20039 CFTR-Intron10-1155 −UUCUGGACUGAGUAACUGGA 20 20040 CFTR-Intron10-1156 − UGUAUAUAUGUGUGUCUGGA20 20041 CFTR-Intron10-1157 − UGGGAGAAACAGGUUUUGGA 20 20042CFTR-Intron10-1158 + UUGACCCUUUAUCAACAUGA 20 20043 CFTR-Intron10-1159 +UGCUGGCAUAGCUGCACUGA 20 20044 CFTR-Intron10-1160 − AAAAAAUUAGCCAGACGUGA20 20045 CFTR-Intron10-1161 − AAUCCUAAUUCCCAAGGUGA 20 20046CFTR-Intron10-1162 − CAAAGACUUGCAGGAGGUGA 20 20047 CFTR-Intron10-1163 +CACAUGGCAGAAAGGGGUGA 20 20048 CFTR-Intron10-1164 − AGAUUCAGGACAUGCUUUGA20 20049 CFTR-Intron10-1165 + AUAUUCAAUUCUUCAAAAUA 20 20050CFTR-Intron10-1166 − AAAACUAAUUGUAGUACAUA 20 20051 CFTR-Intron10-1167 −AUGCAUAGUAUUCUAUCAUA 20 20052 CFTR-Intron10-1168 + AAACAUAGAGAAAACUCAUA20 20053 CFTR-Intron10-1169 + UAGCUGCAGACCUCAAUAUA 20 20054CFTR-Intron10-1170 + CAAAAAUUACAGAACCUAUA 20 20055 CFTR-Intron10-1171 −AAAAAGUUUCUCAUCUUAUA 20 20056 CFTR-Intron10-1172 + CUCCCGAGUAGCUGGGACUA20 20057 CFTR-Intron10-1173 + AAGGGGUGAGGGUCUCUCUA 20 20058CFTR-Intron10-1174 + AAGGUGUGAGGGUCUCUCUA 20 20059 CFTR-Intron10-1175 +ACUGUGAAUGGUGCCAGGUA 20 20060 CFTR-Intron10-1176 + AUCACUAGUGGCACUUUGUA20 20061 CFTR-Intron10-1177 + UUGAUGUUAUUCAAGGUUUA 20 20062CFTR-Intron10-1178 − UAUCAUUUUGACCAUUUUUA 20 20063 CFTR-Intron10-1179 +UUGGAAAAAAAAUUCAAAAC 20 20064 CFTR-Intron10-1180 + CUGUGUGGCUUAUAAACAAC20 20065 CFTR-Intron10-1181 + CCAUCAUCACUUGCCUGAAC 20 20066CFTR-Intron10-1182 − AGCUUUCUGGACUGAGUAAC 20 20067 CFTR-Intron10-1183 −UUUGUAUUUUUAGUAGAGAC 20 20068 CFTR-Intron10-1184 − ACAAGUGCCUAGCACUUGAC20 20069 CFTR-Intron10-1185 − AAUUGACCCUUAAACAAUAC 20 20070CFTR-Intron10-1186 + UCCCAAGUAGCUGGGACUAC 20 20071 CFTR-Intron10-1187 +UCCCGAGUAGCUGGGACUAC 20 20072 CFTR-Intron10-1188 − UCCCAAAGUGCUGGGAUUAC20 20073 CFTR-Intron10-1189 − UCCCAAAGUGUUGGGAUUAC 20 20074CFTR-Intron10-1190 + UACUGCAAUAUGCAAUUUAC 20 20075 CFTR-Intron10-1191 +CAGGAGAAUGGCGUGAACCC 20 20076 CFTR-Intron10-1192 + AGAGUCUCACUCUGUCACCC20 20077 CFTR-Intron10-1193 − UAGGUCUUACUCUGUCACCC 20 20078CFTR-Intron10-1194 + CGGAAAGGUCAAUUGAGCCC 20 20079 CFTR-Intron10-1195 +CAGGAGAAUUGCUUGAGCCC 20 20080 CFTR-Intron10-1196 − CACUGCAAGCUCCGCCUCCC20 20081 CFTR-Intron10-1197 − CACUGCAACCUCUGCCUCCC 20 20082CFTR-Intron10-1198 + CCCGCCACUGCACUCCAGCC 20 20083 CFTR-Intron10-1199 +CGCACCACUGUGCUCCAGCC 20 20084 CFTR-Intron10-1200 + CACACCACUGAAGUUCAGCC20 20085 CFTR-Intron10-1201 − CGCGCCACUGCACUCUAGCC 20 20086CFTR-Intron10-1202 + AAAAAUACAAAAAAUUAGCC 20 20087 CFTR-Intron10-1203 −CAGGCGCCCGCCACUACGCC 20 20088 CFTR-Intron10-1204 − CAGGCGUGAGCCACCGCGCC20 20089 CFTR-Intron10-1205 + UAUAAGAAAUGAAACAGGCC 20 20090CFTR-Intron10-1206 − UUAGGAGAUCAAGACCAUCC 20 20091 CFTR-Intron10-1207 +UCAGGAGAUCGAGACCAUCC 20 20092 CFTR-Intron10-1208 + UCAAGAGAUCAAUACCAUCC20 20093 CFTR-Intron10-1209 − UGAUGAUGGUGGCUUGAUCC 20 20094CFTR-Intron10-1210 − AGGAAGACAGCUGGCUAUCC 20 20095 CFTR-Intron10-1211 +CCACGCUGGUCUCAAACUCC 20 20096 CFTR-Intron10-1212 − UCACUGUAACCUUGAACUCC20 20097 CFTR-Intron10-1213 − UUAUUCUUUUGAUAUACUCC 20 20098CFTR-Intron10-1214 − UCACUGCAAGCUCCGCCUCC 20 20099 CFTR-Intron10-1215 −UCACUGCAACCUCUGCCUCC 20 20100 CFTR-Intron10-1216 + UCACUGCAAGUUCUGCCUCC20 20101 CFTR-Intron10-1217 − CAGGUGAAUUGCUUGAGUCC 20 20102CFTR-Intron10-1218 − CUGCCAUGUGAGAACACAGC 20 20103 CFTR-Intron10-1219 −AUCAGUGCAGCUAUGCCAGC 20 20104 CFTR-Intron10-1220 − AGCUUUUAAAACAAAAUAGC20 20105 CFTR-Intron10-1221 − CACAAACAAAAGAAAAUAGC 20 20106CFTR-Intron10-1222 + ACCUCAGCCUCCCAAGUAGC 20 20107 CFTR-Intron10-1223 +UAAAAAUACAAAAAAUUAGC 20 20108 CFTR-Intron10-1224 − CGGGGUUUCACCGUUUUAGC20 20109 CFTR-Intron10-1225 + AUAUAAGAAAUGAAACAGGC 20 20110CFTR-Intron10-1226 − UCUCGCUCUGUCGCCCAGGC 20 20111 CFTR-Intron10-1227 −CAAUAAAUUUGGUGUCAGGC 20 20112 CFTR-Intron10-1228 + ACACUUUGGGAGGCCGAGGC20 20113 CFTR-Intron10-1229 + UUUCUCACAGUUCUGGAGGC 20 20114CFTR-Intron10-1230 − AAUUAGCCAGACGUGAUGGC 20 20115 CFTR-Intron10-1231 −CCAGGCUGGAGUGCAGUGGC 20 20116 CFTR-Intron10-1232 + AAUUAGCCGGGCGUAGUGGC20 20117 CFTR-Intron10-1233 − CUUAGCAGACCCAAAUCUGC 20 20118CFTR-Intron10-1234 + UUCAUUUAUCUCGAAAUUGC 20 20119 CFTR-Intron10-1235 −UCCCAAGGUGAUGGUAUUGC 20 20120 CFTR-Intron10-1236 − ACAUUUGAACAAAGACUUGC20 20121 CFTR-Intron10-1237 + AGCCUCCACUUCUCAGGCUC 20 20122CFTR-Intron10-1238 + UAUAUAGAGAGAAACAUCUC 20 20123 CFTR-Intron10-1239 +CACUGCAGCCUCCACUUCUC 20 20124 CFTR-Intron10-1240 + CGGGCACCCGCCAUCACGUC20 20125 CFTR-Intron10-1241 − UAGGCAUGAGCCACUGUGUC 20 20126CFTR-Intron10-1242 − UGUAUGUAUAUAUGUGUGUC 20 20127 CFTR-Intron10-1243 +UAUUCUUUCUAAUUUCAUUC 20 20128 CFTR-Intron10-1244 − AGUAGGAAGUGAUCAGAUUC20 20129 CFTR-Intron10-1245 − CUUUCUUUUGAAUAUAUUUC 20 20130CFTR-Intron10-1246 − AAAGAUGAUUCCAAGCUUUC 20 20131 CFTR-Intron10-1247 −UUCAUUAUAACACUGCUUUC 20 20132 CFTR-Intron10-1248 + AAGAAAAUUUGUUUUCUUUC20 20133 CFTR-Intron10-1249 + UGUUCUCACAUGGCAGAAAG 20 20134CFTR-Intron10-1250 − UUUUGAAUUUUUUUUCCAAG 20 20135 CFTR-Intron10-1251 +ACCGUAAUAGCAACAGGAAG 20 20136 CFTR-Intron10-1252 + AGCACUUUGGGAGGCUGAAG20 20137 CFTR-Intron10-1253 + AAAAAAAAUUCACAAAUAAG 20 20138CFTR-Intron10-1254 − AUGAAAUUAGAAAGAAUAAG 20 20139 CFTR-Intron10-1255 −AUCAAAAAUAAAAAUAUAAG 20 20140 CFTR-Intron10-1256 − AUCAGUAGGCUUCCUAUAAG20 20141 CFTR-Intron10-1257 + AUAUUAAUGGCUGUGCACAG 20 20142CFTR-Intron10-1258 + UCACCUAGGCUAGGGUACAG 20 20143 CFTR-Intron10-1259 +UUCUGUUUAAAACUCUCCAG 20 20144 CFTR-Intron10-1260 + AGAAGGAAAGGAGGUAGCAG20 20145 CFTR-Intron10-1261 + UGCUUGAGCCCGGGAGGCAG 20 20146CFTR-Intron10-1262 − CCUAGCACUUUUGGAGGCAG 20 20147 CFTR-Intron10-1263 +UUUCAACAUAUGAAUGGCAG 20 20148 CFTR-Intron10-1264 + UCACCCAGGCUAGAGUGCAG20 20149 CFTR-Intron10-1265 − UCGCCCAGGCUGGAGUGCAG 20 20150CFTR-Intron10-1266 − UGGUGUCAGGCUGGGUGCAG 20 20151 CFTR-Intron10-1267 −AGGAAUGUUAAUUUAUUCAG 20 20152 CFTR-Intron10-1268 − UCACCCAGGCUGAACUUCAG20 20153 CFTR-Intron10-1269 − ACAAACAGAAAAAGAAAGAG 20 20154CFTR-Intron10-1270 − AAAAAAUUAUACUAUAGGAG 20 20155 CFTR-Intron10-1271 +ACUAAUAGCCUAUUGUUGAG 20 20156 CFTR-Intron10-1272 − CAGUAAAAAGUGAUCUCUAG20 20157 CFTR-Intron10-1273 + AAAAAAUUAGCCGGGCGUAG 20 20158CFTR-Intron10-1274 − AAGAAGAGAAAGGGGUGUAG 20 20159 CFTR-Intron10-1275 +UUUGUUUGUGUUUUUUGUAG 20 20160 CFTR-Intron10-1276 − AAAUGUGAGAAAAAGUUUAG20 20161 CFTR-Intron10-1277 + CGGAGAUGAUUAGCAUCACG 20 20162CFTR-Intron10-1278 − UUGUAUUUUUAGUAGAGACG 20 20163 CFTR-Intron10-1279 +CCCAACACUUUGGGAGGCCG 20 20164 CFTR-Intron10-1280 + CCCAGCACUUUGGGAGGCCG20 20165 CFTR-Intron10-1281 − CCAGGAGUUUGAGACCAGCG 20 20166CFTR-Intron10-1282 + AGUAAAAAAAAAUCAAAAGG 20 20167 CFTR-Intron10-1283 +AAACUGAGUAGAAGGAAAGG 20 20168 CFTR-Intron10-1284 − UGGUUUGAAGAACAGUAAGG20 20169 CFTR-Intron10-1285 − UUUGAACAAAGACUUGCAGG 20 20170CFTR-Intron10-1286 + AGCACUUUGGGAGGCCGAGG 20 20171 CFTR-Intron10-1287 +AAUGGCGUGAACCCGGGAGG 20 20172 CFTR-Intron10-1288 − AGCUACUUGGGAGGCUGAGG20 20173 CFTR-Intron10-1289 − UUAAAAAAUUAUACUAUAGG 20 20174CFTR-Intron10-1290 − UGAGGAAGAAAGGAAGUAGG 20 20175 CFTR-Intron10-1291 +AUGAAACAGGCCGGGCGCGG 20 20176 CFTR-Intron10-1292 − AAGGUGAUGGUAUUGCAGGG20 20177 CFTR-Intron10-1293 + CUUUGGGAGGCCGAGGCGGG 20 20178CFTR-Intron10-1294 − CGUAGUCCCAGCUACUCGGG 20 20179 CFTR-Intron10-1295 −ACUUGGGAGGCUGAGGUGGG 20 20180 CFTR-Intron10-1296 + UGUAGUCCCAGCUACUUGGG20 20181 CFTR-Intron10-1297 + UGUAAUCCCAACACUUUGGG 20 20182CFTR-Intron10-1298 + UAUAAACCCAGCACUUUGGG 20 20183 CFTR-Intron10-1299 +UGUAAUCCCAGCACUUUGGG 20 20184 CFTR-Intron10-1300 − UGCAGGGUGGGGCCUUUGGG20 20185 CFTR-Intron10-1301 − AAAUUAGCCAGACGUGAUGG 20 20186CFTR-Intron10-1302 + UUUAUUUCUCACAGUUCUGG 20 20187 CFTR-Intron10-1303 −CACCUGAGCCUGAGAAGUGG 20 20188 CFTR-Intron10-1304 − CCCAGGCUGGAGUGCAGUGG20 20189 CFTR-Intron10-1305 + AAAUUAGCCGGGCGUAGUGG 20 20190CFTR-Intron10-1306 − AAGAAAAUAGCUGGGUGUGG 20 20191 CFTR-Intron10-1307 +UAUUCAAAAAAUAUUUGUGG 20 20192 CFTR-Intron10-1308 − UGUAAUCCUAGCACUUUUGG20 20193 CFTR-Intron10-1309 − AGGAAUUUUAUAUAGAAAUG 20 20194CFTR-Intron10-1310 + AUAAACAAACAAAGGAAAUG 20 20195 CFTR-Intron10-1311 −AAGGAAGAAAGAAGGAAAUG 20 20196 CFTR-Intron10-1312 − UGGGAGGUGAUUAGUCCAUG20 20197 CFTR-Intron10-1313 − CCCAGCUACUCGGGAGGCUG 20 20198CFTR-Intron10-1314 + CCCAGCUACUUGGGAGGCUG 20 20199 CFTR-Intron10-1315 +AUACAAAAAUUAGCUGAGUG 20 20200 CFTR-Intron10-1316 + UUGUGUUUUUUGUAGAGGUG20 20201 CFTR-Intron10-1317 − ACAAAGACUUGCAGGAGGUG 20 20202CFTR-Intron10-1318 + CCCAGCUACUUGGGAGGGUG 20 20203 CFTR-Intron10-1319 +UCACAUGGCAGAAAGGGGUG 20 20204 CFTR-Intron10-1320 − CAAAAGAAAAUAGCUGGGUG20 20205 CFTR-Intron10-1321 + ACAAAAUACCAUGAACUGUG 20 20206CFTR-Intron10-1322 − AUUUUUAUAAAAAAUAAUUG 20 20207 CFTR-Intron10-1323 +AUCUAUUCAAAAAAUAUUUG 20 20208 CFTR-Intron10-1324 − AAUACAUUGGAAAAUUUUUG20 20209 CFTR-Intron10-1325 − UAUUAGUAGUUAAGUUUUUG 20 20210CFTR-Intron10-1326 + AUAGUAGCAAAUGAUAAAAU 20 20211 CFTR-Intron10-1327 +UCUCUAUUUGGAUGUCAAAU 20 20212 CFTR-Intron10-1328 + AAUAAACAAACAAAGGAAAU20 20213 CFTR-Intron10-1329 − UAAGGUUUCCACUCAACAAU 20 20214CFTR-Intron10-1330 + UUUACCAUUAUCUACACAAU 20 20215 CFTR-Intron10-1331 −CCCCAUAAAUGUUGAAUAAU 20 20216 CFTR-Intron10-1332 − UUUUUUUUCAGUUAAUACAU20 20217 CFTR-Intron10-1333 + UUUUACAAUUCUUAUUACAU 20 20218CFTR-Intron10-1334 − AAUACAGGCUUGAACUGCAU 20 20219 CFTR-Intron10-1335 −UGUACCCUAGCCUAGGUGAU 20 20220 CFTR-Intron10-1336 + AAAAAUAUAUAUAUGCAUAU20 20221 CFTR-Intron10-1337 − CUAUUAAAAAAUUAUACUAU 20 20222CFTR-Intron10-1338 − UUCUCCCUGUUAUUCCUUAU 20 20223 CFTR-Intron10-1339 −UAAAAAGUUUCUCAUCUUAU 20 20224 CFTR-Intron10-1340 − UCCCAAAGUGCUGGGUUUAU20 20225 CFTR-Intron10-1341 + UUCUCAGACUUUUAUUUUAU 20 20226CFTR-Intron10-1342 + AGUUUCCAAAUUUUUUUUAU 20 20227 CFTR-Intron10-1343 −UGCCCGUAGUCCCAGCUACU 20 20228 CFTR-Intron10-1344 + CGCCUGUAGUCCCAGCUACU20 20229 CFTR-Intron10-1345 + UGCCUGUAGUCCCAGCUACU 20 17606CFTR-Intron10-1346 + ACCCUGCAAUACCAUCACCU 20 20230 CFTR-Intron10-1347 +CCGCCACUGCACUCCAGCCU 20 20231 CFTR-Intron10-1348 + ACACCACUGAAGUUCAGCCU20 20232 CFTR-Intron10-1349 − ACCUCGUGAUCCGCCCGCCU 20 20233CFTR-Intron10-1350 − ACCUCAUGAUCUGCCUGCCU 20 20234 CFTR-Intron10-1351 −CACUGUAACCUUGAACUCCU 20 20235 CFTR-Intron10-1352 + CACUGCAAGUUCUGCCUCCU20 20236 CFTR-Intron10-1353 − ACAAACAAAAGAAAAUAGCU 20 20237CFTR-Intron10-1354 − CCUCACCCUCCCAAGUAGCU 20 20238 CFTR-Intron10-1355 +CCUCAGCCUCCCAAGUAGCU 20 20239 CFTR-Intron10-1356 + CCUCAGCCUCCCGAGUAGCU20 20240 CFTR-Intron10-1357 + UUCUCACAGUUCUGGAGGCU 20 20241CFTR-Intron10-1358 + CCUCUGCCUCCAAAAGUGCU 20 20242 CFTR-Intron10-1359 −CUUCAGCCUCCCAAAGUGCU 20 20243 CFTR-Intron10-1360 − CCUCGGCCUCCCAAAGUGCU20 20244 CFTR-Intron10-1361 − AAGAAAAAAGUUGAGUUGCU 20 20245CFTR-Intron10-1362 + AGAGUGCAGUGGCGCGAUCU 20 20246 CFTR-Intron10-1363 −AUCUGCUGGCACCUUGAUCU 20 20247 CFTR-Intron10-1364 − AAAGCUGUGCAUUUUCCUCU20 20248 CFTR-Intron10-1365 + AUAUAGAGAGAAACAUCUCU 20 20249CFTR-Intron10-1366 + AUAUUUUUCAUUAUGAUUCU 20 20250 CFTR-Intron10-1367 +UUAAUUUUCUCGGUAUUUCU 20 20251 CFTR-Intron10-1368 + UUACUUUUUCUUAAUUUUCU20 20252 CFTR-Intron10-1369 − AAAUGAGGAAGAAAGGAAGU 20 20253CFTR-Intron10-1370 − UGGAUUUUUGACUAUACAGU 20 20254 CFTR-Intron10-1371 −ACAUCUGCAAUUGUAUCAGU 20 20255 CFTR-Intron10-1372 − AUCCAAAUAGAGAUGUUAGU20 20256 CFTR-Intron10-1373 − CAGGAGUUUGAGACCAGCGU 20 20257CFTR-Intron10-1374 + UUUGUGUUUUUUGUAGAGGU 20 20258 CFTR-Intron10-1375 −AGGUGAUGGUAUUGCAGGGU 20 20259 CFTR-Intron10-1376 + UGAAUGGUGCCAGGUAGGGU20 20260 CFTR-Intron10-1377 − UUUUUGACUAUACAGUGGGU 20 20261CFTR-Intron10-1378 − AUAAGAAGAGAAAGGGGUGU 20 20262 CFTR-Intron10-1379 −AAAUUUCCACUCAAUAAAUU 20 20263 CFTR-Intron10-1380 + AUACCAUCACCUUGGGAAUU20 20264 CFTR-Intron10-1381 − AUGGUACUACUGUAAUAAUU 20 20265CFTR-Intron10-1382 − AAUCACUAUUGAUUGACAUU 20 20266 CFTR-Intron10-1383 −UUUUAUUCUUUUUAGAGAUU 20 20267 CFTR-Intron10-1384 − CUUGCAGGAGGUGAGGGAUU20 20268 CFTR-Intron10-1385 − UGAUACUUUUCUUCCUGAUU 20 20269CFTR-Intron10-1386 + AUAGAAGUAGAAGAACUAUU 20 20270 CFTR-Intron10-1387 −UCUUUUUCAUUGAAUGUAUU 20 20271 CFTR-Intron10-1388 + UCUGUUUGUCUUAGAUUAUU20 20272 CFTR-Intron10-1389 − AUUUCCUUUGUUUGUUUAUU 20 20273CFTR-Intron10-1390 + UCUCAGACUUUUAUUUUAUU 20 20274 CFTR-Intron10-1391 +UGCCUGUAAUCCCAACACUU 20 20275 CFTR-Intron10-1392 + UGCCUAUAAACCCAGCACUU20 20276 CFTR-Intron10-1393 + CGCCUGUAAUCCCAGCACUU 20 20277CFTR-Intron10-1394 − AAGAAUUGAAUAUGAGACUU 20 20278 CFTR-Intron10-1395 +CCCUGCAAUACCAUCACCUU 20 20279 CFTR-Intron10-1396 + AAAAUGUUAAAUUUUCCCUU20 20280 CFTR-Intron10-1397 + AUUUUCCCUUAGGAUAUCUU 20 20281CFTR-Intron10-1398 − CUUUUAGUUAGCAUAAAGUU 20 20282 CFTR-Intron10-1399 −AGGAAGCAAGGAGAUGAGUU 20 20283 CFTR-Intron10-1400 − CCUCGGCCUCCCAAAGUGUU20 20284 CFTR-Intron10-1401 − AGUUGUUAUCUCUGAAAUUU 20 20285CFTR-Intron10-1402 − UUAUCAAUAUUUUGGAAUUU 20 20286 CFTR-Intron10-1403 −AUCACUAUUGAUUGACAUUU 20 20287 CFTR-Intron10-1404 + AUCAAGGUGCCAGCAGAUUU20 20288 CFTR-Intron10-1405 − AAAUAGUUUUAUCAAUAUUU 20 20289CFTR-Intron10-1406 − CAUCAUUAUUCAUGAUAUUU 20 20290 CFTR-Intron10-1407 −CUUUUUCAUUGAAUGUAUUU 20 20291 CFTR-Intron10-1408 − ACUUGUAAUCCUAGCACUUU20 20292 CFTR-Intron10-1409 − UAUUGCAGGGUGGGGCCUUU 20 20293CFTR-Intron10-1410 − AAAUUUAACUGAAUAUCUUU 20 20294 CFTR-Intron10-1411 −UUAAUACAUUGGAAAAUUUU 20 20295 CFTR-Intron10-1412 − UAUCAAUAUUUUGGAAUUUU20 20296 CFTR-Intron10-1413 − UAAUACAUUGGAAAAUUUUU 20 20297

Table 41A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within intron 10, have a highlevel of orthogonality, start with a 5′G, and PAM is NNGRRT. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 41A 1st Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-1414 + GAUAAUACUACUGACUAAAA 20 20298CFTR-Intron10-1415 + GUAACUCCAGUGCUAUUUAAA 21 20299 CFTR-Intron10-1416 +GGUAACUCCAGUGCUAUUUAAA 22 20300 CFTR-Intron10-1417 + GACUCCAGGAGUAUAUCAA19 20301 CFTR-Intron10-1418 + GGACUCCAGGAGUAUAUCAA 20 20302CFTR-Intron10-1419 + GUGGACUCCAGGAGUAUAUCAA 22 20303CFTR-Intron10-1420 + GAUGAGAGACAGUAAAGAA 19 20304 CFTR-Intron10-1421 +GCUAUUUUUGCACAUCUAUCA 21 20305 CFTR-Intron10-1422 + GCUACCUUGGUUGGAUGA18 20306 CFTR-Intron10-1423 + GGCUACCUUGGUUGGAUGA 19 20307CFTR-Intron10-1424 + GAUUGGCUACCUUGGUUGGAUGA 23 20308CFTR-Intron10-1425 + GGAUUGGCUACCUUGGUUGGAUGA 24 20309CFTR-Intron10-1426 + GAAUAUCCAUCCAUAUGA 18 20310 CFTR-Intron10-1427 +GUUACAACAGUCUUUAUA 18 20311 CFTR-Intron10-1428 + GUUCAACUUAUCCAUUAAUCCUA23 20312 CFTR-Intron10-1429 + GAUACAAAUUACCAAAUUGUA 21 20313CFTR-Intron10-1430 + GCACCCAGCCUGACACCAAAUUUA 24 20314CFTR-Intron10-1431 + GUACAAAUAUUGACUAUUUA 20 20315 CFTR-Intron10-1432 +GCAAGUACAAAUAUUGACUAUUUA 24 20316 CFTR-Intron10-1433 +GAGCUCAUAUUAGUGAAC 18 20317 CFTR-Intron10-1434 + GAUACUAAAAAAAGUUAC 1820318 CFTR-Intron10-1435 + GUAUUAGCAAGUGGACUCC 19 20319CFTR-Intron10-1436 + GCACUCUAUUUAGAGUGUAUGGC 23 20320CFTR-Intron10-1437 + GAAAAGGCUCUUUAUAAUGC 20 20321 CFTR-Intron10-1438 +GCUAAGAGACUCCUGAAUC 19 20322 CFTR-Intron10-1439 +GUCUGCUAAGAGACUCCUGAAUC 23 20323 CFTR-Intron10-1440 +GGUCUGCUAAGAGACUCCUGAAUC 24 20324 CFTR-Intron10-1441 +GUAGAAGACCUAAAUAUC 18 20325 CFTR-Intron10-1442 + GAUGUAGAAGACCUAAAUAUC21 20326 CFTR-Intron10-1443 + GAAGAUGUAGAAGACCUAAAUAUC 24 20327CFTR-Intron10-1444 + GGGUCUGCUAAGAGACUC 18 20328 CFTR-Intron10-1445 +GAUUUGGGUCUGCUAAGAGACUC 23 20329 CFTR-Intron10-1446 +GAUAUUUUUCAUUAUGAUUC 20 20330 CFTR-Intron10-94 + GCUUGACAUCAGUUGGGUUC 2018980 CFTR-Intron10-1447 + GAUAAAUAAUUGCCUUUC 18 20331CFTR-Intron10-1448 + GAUAUUGAUAAAUAAUUGCCUUUC 24 20332CFTR-Intron10-1449 + GUUGGAUGAGGGAAUGCAG 19 20333 CFTR-Intron10-1450 +GGUUGGAUGAGGGAAUGCAG 20 20334 CFTR-Intron10-1451 +GAAUUGAUCUUGAAGACAUACG 22 20335 CFTR-Intron10-1452 +GCCUAGAUGAUUAUUAAUAGGG 22 20336 CFTR-Intron10-1453 + GUUAAGUUGUUCUUAGGG18 20337 CFTR-Intron10-1454 + GGUUAAGUUGUUCUUAGGG 19 20338CFTR-Intron10-1455 + GCCAGGUUAAGUUGUUCUUAGGG 23 20339CFTR-Intron10-1456 + GUUACCUGGAUUGGCUACCUUGG 23 20340CFTR-Intron10-1457 + GGAAAUGGGGUAUAAGUG 18 20341 CFTR-Intron10-107 +GUUACAUAAAAAGAGAGGUG 20 18993 CFTR-Intron10-1458 +GCUAAUAGCUUAUUCUAUACAU 22 20342 CFTR-Intron10-1459 +GAGCUAAUAGCUUAUUCUAUACAU 24 20343 CFTR-Intron10-1460 +GAAUAAUGAUGUACAUUUAAUAU 23 20344 CFTR-Intron10-1461 +GUAAUGGAAACACUAUAUAU 20 20345 CFTR-Intron10-1462 +GUACAUCCAACUAACAUCUCUAU 23 20346 CFTR-Intron10-1463 +GGAAAAUGUUAAAUUUUCCCU 21 20347 CFTR-Intron10-1464 + GCACUUGUUGACAGUCCU18 20348 CFTR-Intron10-1465 + GGCACUUGUUGACAGUCCU 19 20349CFTR-Intron10-1466 + GCUAGGCACUUGUUGACAGUCCU 23 20350CFTR-Intron10-117 + GUUACUCAGUCCAGAAAGCU 20 19003 CFTR-Intron10-1467 +GUGCAAGUCCUCUGUGCU 18 20351 CFTR-Intron10-1468 + GCCAGGUUAAGUUGUUCU 1820352 CFTR-Intron10-1469 + GAGGGUCUCUCUAAGGUGU 19 20353CFTR-Intron10-1470 + GUGAGGGUCUCUCUAAGGUGU 21 20354 CFTR-Intron10-1471 +GGUGAGGGUCUCUCUAAGGUGU 22 20355 CFTR-Intron10-1472 +GGGUGAGGGUCUCUCUAAGGUGU 23 20356 CFTR-Intron10-1473 +GGGGUGAGGGUCUCUCUAAGGUGU 24 20357 CFTR-Intron10-1474 +GGAAAUCAGCACUCUAUU 18 20358 CFTR-Intron10-1475 + GGGAAAUCAGCACUCUAUU 1920359 CFTR-Intron10-1476 + GGGGAAAUCAGCACUCUAUU 20 20360CFTR-Intron10-1477 + GUGGGGAAAUCAGCACUCUAUU 22 20361CFTR-Intron10-1478 + GUAACUCUUUAUUCACUU 18 20362 CFTR-Intron10-1479 −GCUUUCAGGAGCCAAAAA 18 20363 CFTR-Intron10-1480 − GAUAAGAUUCUAAAGGAAA 1920364 CFTR-Intron10-1481 − GGAUAAGAUUCUAAAGGAAA 20 20365CFTR-Intron10-1482 − GCUGGAUAAGAUUCUAAAGGAAA 23 20366 CFTR-Intron10-1483− GGCUGGAUAAGAUUCUAAAGGAAA 24 20367 CFTR-Intron10-1484 −GUACUCAUGCCAUACACUCUAAA 23 20368 CFTR-Intron10-1485 −GCUUUGAAGGAAGAUCCAA 19 20369 CFTR-Intron10-1486 − GGAGAACCAUAUUUUGAAGAA21 20370 CFTR-Intron10-1487 − GAGGAGAACCAUAUUUUGAAGAA 23 20371CFTR-Intron10-1488 − GGGUUGAUAAGAAGAGAA 18 20372 CFTR-Intron10-68 −GAGGGUUGAUAAGAAGAGAA 20 18954 CFTR-Intron10-1489 −GAAAGAGGGUUGAUAAGAAGAGAA 24 20373 CFTR-Intron10-1490 −GUACUUGCUCUCUGACCACAUAA 23 20374 CFTR-Intron10-1491 −GUAUAUGAUAUACUCUUAA 19 20375 CFTR-Intron10-1492 − GAUGUAUAUGAUAUACUCUUAA22 20376 CFTR-Intron10-1493 − GGAUGUAUAUGAUAUACUCUUAA 23 20377CFTR-Intron10-1494 − GUAUAGAAUUUUGCAUCA 18 20378 CFTR-Intron10-1495 −GGUAGUAAUUGUGUUUCA 18 20379 CFTR-Intron10-1496 − GAAAAGGUAGUAAUUGUGUUUCA23 20380 CFTR-Intron10-1497 − GAUCUAGCUAAAAUAUAAGA 20 20381CFTR-Intron10-1498 − GAUUCCAAGCUUUCUGGA 18 20382 CFTR-Intron10-1499 −GAUAUACUCUUAAGUGAAUA 20 20383 CFTR-Intron10-1500 − GAUGGAUAUUCUAUGAUAUA20 20384 CFTR-Intron10-1501 − GGAUGGAUAUUCUAUGAUAUA 21 20385CFTR-Intron10-1502 − GUUUUUGCUUGCUUUUUAUA 20 20386 CFTR-Intron10-1503 −GUCUGAGAAGACAAAGCUA 19 20387 CFTR-Intron10-1504 − GUAAUCGGCGGUGGAGGUA 1920388 CFTR-Intron10-1505 − GAAGUAAUCGGCGGUGGAGGUA 22 20389CFTR-Intron10-1506 − GAGAAGUAAUCGGCGGUGGAGGUA 24 20390CFTR-Intron10-1507 − GAUCAUUGCCUCACUAUGGUA 21 20391 CFTR-Intron10-1508 −GUAAUAACUGGGACUCAUAUGUA 23 20392 CFTR-Intron10-1509 − GAAGAUCCAAUAGGAUUA18 20393 CFTR-Intron10-1510 − GGAAGAUCCAAUAGGAUUA 19 20394CFTR-Intron10-1511 − GAAGGAAGAUCCAAUAGGAUUA 22 20395 CFTR-Intron10-1512− GCAGGAGGUGAGGGAUUA 18 20396 CFTR-Intron10-1513 − GUUAGCAAUGGUCUAAAC 1820397 CFTR-Intron10-1514 − GAUUCUGUUUAAAUAGCAC 19 20398CFTR-Intron10-1515 − GAGAAGGUCAAACUUGAC 18 20399 CFTR-Intron10-1516 −GUAGAGAAGGUCAAACUUGAC 21 20400 CFTR-Intron10-1517 −GCCUUAUUCUUUUGAUAUACUCC 23 20401 CFTR-Intron10-1518 −GUCUUGCGCUUAUGAAACUUCC 22 20402 CFTR-Intron10-1519 − GCUUUUAAAACAAAAUAGC19 20403 CFTR-Intron10-1520 − GGAAGACAGCUGGCUAUC 18 20404CFTR-Intron10-1521 − GCAGGAAGACAGCUGGCUAUC 21 20405 CFTR-Intron10-1522 −GCUGGCUAUCCAGGAUUC 18 20406 CFTR-Intron10-1523 − GACAGCUGGCUAUCCAGGAUUC22 20407 CFTR-Intron10-1524 − GUUCUGUAAUUUUUGCUUC 19 20408CFTR-Intron10-1525 − GGUUCUGUAAUUUUUGCUUC 20 20409 CFTR-Intron10-1526 −GACUUUGUAGUGAUCUUC 18 20410 CFTR-Intron10-1527 − GAAGACUUUGUAGUGAUCUUC21 20411 CFTR-Intron10-1528 − GAGAAGACUUUGUAGUGAUCUUC 23 20412CFTR-Intron10-1529 − GGAGAAGACUUUGUAGUGAUCUUC 24 20413CFTR-Intron10-1530 − GCUUUUCAAAAUACUUUC 18 20414 CFTR-Intron10-1531 −GAAGCUUUUCAAAAUACUUUC 21 20415 CFTR-Intron10-1532 − GUAACAGUACAAGAAAAAAG20 20416 CFTR-Intron10-99 − GCAUAUGAGAAAAGUCACAG 20 18985CFTR-Intron10-1533 − GGCAUAUGAGAAAAGUCACAG 21 20417 CFTR-Intron10-1534 −GAACCCAACUGAUGUCAAGCAG 22 20418 CFTR-Intron10-1535 −GGAACCCAACUGAUGUCAAGCAG 23 20419 CFTR-Intron10-1536 − GUAUUAGAGGUUAAGGAG18 20420 CFTR-Intron10-1537 − GUCUUUUCCUCUUAAUAG 18 20421CFTR-Intron10-1538 − GAAGUCUUUUCCUCUUAAUAG 21 20422 CFTR-Intron10-1539 −GAAAAGCAGCUAUGAAGG 18 20423 CFTR-Intron10-1540 −GCUUAUGAAAAGCAGCUAUGAAGG 24 20424 CFTR-Intron10-1541 −GGCAUAGAGUAAGACAGG 18 20425 CFTR-Intron10-1542 − GCUGGCAUAGAGUAAGACAGG21 20426 CFTR-Intron10-1543 − GGCUGGCAUAGAGUAAGACAGG 22 20427CFTR-Intron10-1544 − GAGGCUGGCAUAGAGUAAGACAGG 24 20428CFTR-Intron10-1545 − GGUAGUGUGAAGAUGGGG 18 20429 CFTR-Intron10-1546 −GCUGGUAGUGUGAAGAUGGGG 21 20430 CFTR-Intron10-1547 −GGCUGGUAGUGUGAAGAUGGGG 22 20431 CFTR-Intron10-1548 −GGGCUGGUAGUGUGAAGAUGGGG 23 20432 CFTR-Intron10-1549 −GGGGCUGGUAGUGUGAAGAUGGGG 24 20433 CFTR-Intron10-1550 −GGGAAUGCAGACUCUGGG 18 20434 CFTR-Intron10-1551 − GAUUAGGGAAUGCAGACUCUGGG23 20435 CFTR-Intron10-1552 − GGAUUAGGGAAUGCAGACUCUGGG 24 20436CFTR-Intron10-1553 − GGGGGAGCCCCAUAAAUG 18 20437 CFTR-Intron10-1554 −GUGGGGGAGCCCCAUAAAUG 20 20438 CFTR-Intron10-1555 − GUGAGAUUAGAGGCCACUG19 20439 CFTR-Intron10-1556 − GGUGAGAUUAGAGGCCACUG 20 20440CFTR-Intron10-1557 − GCACAUAUGUUCAGACUG 18 20441 CFTR-Intron10-1558 −GACUUGCACAUAUGUUCAGACUG 23 20442 CFTR-Intron10-1559 −GGACUUGCACAUAUGUUCAGACUG 24 20443 CFTR-Intron10-1560 −GCAUCUCACCAGUGUGUG 18 20444 CFTR-Intron10-1561 − GGCAUCUCACCAGUGUGUG 1920445 CFTR-Intron10-1562 − GAGGAGAACCAUAUUUUG 18 20446CFTR-Intron10-1563 − GAUGAGGAGAACCAUAUUUUG 21 20447 CFTR-Intron10-1564 −GCCCCAUAAAUGUUGAAUAAU 21 20448 CFTR-Intron10-1565 −GAGCCCCAUAAAUGUUGAAUAAU 23 20449 CFTR-Intron10-1566 −GGAGCCCCAUAAAUGUUGAAUAAU 24 20450 CFTR-Intron10-1567 −GAUUUUUUCCCAUGUAAU 18 20451 CFTR-Intron10-1568 − GAAUCACUAUUGAUUGACAU 2020452 CFTR-Intron10-1569 − GUAGUUUCUAUUAAUAGAU 19 20453CFTR-Intron10-1570 − GUGUAGUUUCUAUUAAUAGAU 21 20454 CFTR-Intron10-1571 −GAAAGAGCUUUCUAGUAU 18 20455 CFTR-Intron10-1572 − GAGAAAGAGCUUUCUAGUAU 2020456 CFTR-Intron10-1573 − GUUCAAAUUAUUUCUACUGCU 21 20457CFTR-Intron10-1574 − GUUGUUCAAAUUAUUUCUACUGCU 24 20458CFTR-Intron10-1575 − GUAAAGACUAAGGCUUAUUUCU 22 20459 CFTR-Intron10-1576− GAUAAGAAGAGAAAGGGGUGU 21 20460 CFTR-Intron10-1577 −GUUGAUAAGAAGAGAAAGGGGUGU 24 20461 CFTR-Intron10-1578 −GUUGUUAUCUCUGAAAUU 18 20462 CFTR-Intron10-1579 −GCUAUUACGGUAAGCUCAAGCAUU 24 20463 CFTR-Intron10-1580 −GCUGCCUUUUAGUAGUAUU 19 20464 CFTR-Intron10-126 − GGCUGCCUUUUAGUAGUAUU 2019012 CFTR-Intron10-1581 − GAGGCUGCCUUUUAGUAGUAUU 22 20465CFTR-Intron10-1582 − GGAGGCUGCCUUUUAGUAGUAUU 23 20466 CFTR-Intron10-1583− GAAUAGAUUAGCUUAUAUACUU 22 20467 CFTR-Intron10-1584 −GUUAGAGGAAGGCAGUGGUCCCUU 24 20468 CFTR-Intron10-1585 −GAUGUGCAAAAAUAGCUU 18 20469 CFTR-Intron10-1586 − GAUAGAUGUGCAAAAAUAGCUU22 20470 CFTR-Intron10-1587 − GUUACAUGACCUUCCUUUCUU 21 20471CFTR-Intron10-1588 − GAUAAUGGGAGAAACAGGUU 20 20472 CFTR-Intron10-1589 −GCACUGGAGUUACCUGUU 18 20473 CFTR-Intron10-1590 − GCAAAUAGUUUUAUCAAUAUUU22 20474 CFTR-Intron10-1591 − GUUUUGGAUGGAGCUUGGUUU 21 20475CFTR-Intron10-1592 − GGUUUUGGAUGGAGCUUGGUUU 22 20476 CFTR-Intron10-1593− GUCCUCCACAAAUAUUUU 18 20477

Table 41B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within intron 10, have ahigh level of orthogonality and PAM is NNGRRT. It is contemplated hereinthat in an embodiment the targeting domain hybridizes to the targetdomain through complementary base pairing. Any of the targeting domainsin the Table can be used with a S. aureus Cas9 molecule that generates adouble stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 41B 2nd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-1594 + CAUAUGAUUUUAUGAAAA 18 20478CFTR-Intron10-1595 + ACAUAUGAUUUUAUGAAAA 19 20479 CFTR-Intron10-1596 +UACAUAUGAUUUUAUGAAAA 20 20480 CFTR-Intron10-1597 + UAAUACUACUGACUAAAA 1820481 CFTR-Intron10-1598 + AUAAUACUACUGACUAAAA 19 20482CFTR-Intron10-1599 + ACUCCAGUGCUAUUUAAA 18 20483 CFTR-Intron10-1600 +AACUCCAGUGCUAUUUAAA 19 20484 CFTR-Intron10-1601 + UAACUCCAGUGCUAUUUAAA20 20485 CFTR-Intron10-1602 + AGGUAACUCCAGUGCUAUUUAAA 23 20486CFTR-Intron10-1603 + CAGGUAACUCCAGUGCUAUUUAAA 24 20487CFTR-Intron10-1604 + ACUCCAGGAGUAUAUCAA 18 20488 CFTR-Intron10-1605 +UGGACUCCAGGAGUAUAUCAA 21 20489 CFTR-Intron10-1606 +AGUGGACUCCAGGAGUAUAUCAA 23 20490 CFTR-Intron10-1607 +AAGUGGACUCCAGGAGUAUAUCAA 24 20491 CFTR-Intron10-1608 +AUGAGAGACAGUAAAGAA 18 20492 CFTR-Intron10-1104 + AGAUGAGAGACAGUAAAGAA 2019989 CFTR-Intron10-1609 + AGGGUGGGAUAUGGAGAA 18 20493CFTR-Intron10-1610 + UAGGGUGGGAUAUGGAGAA 19 20494 CFTR-Intron10-1611 +UUAGGGUGGGAUAUGGAGAA 20 20495 CFTR-Intron10-1612 + UUUACCAUUAUCUACACA 1820496 CFTR-Intron10-1613 + UUUUACCAUUAUCUACACA 19 20497CFTR-Intron10-1614 + UUUUUACCAUUAUCUACACA 20 20498 CFTR-Intron10-1615 +UAGUGAACUAGAGUCACA 18 20499 CFTR-Intron10-1616 + UUAGUGAACUAGAGUCACA 1920500 CFTR-Intron10-1617 + AUUAGUGAACUAGAGUCACA 20 20501CFTR-Intron10-1618 + UAUUAGUGAACUAGAGUCACA 21 20502 CFTR-Intron10-1619 +AUAUUAGUGAACUAGAGUCACA 22 20503 CFTR-Intron10-1620 +CAUAUUAGUGAACUAGAGUCACA 23 20504 CFTR-Intron10-1621 +UCAUAUUAGUGAACUAGAGUCACA 24 20505 CFTR-Intron10-1622 +UGGAGAAGAGGAUGACCA 18 20506 CFTR-Intron10-1623 + AUGGAGAAGAGGAUGACCA 1920507 CFTR-Intron10-1624 + UAUGGAGAAGAGGAUGACCA 20 20508CFTR-Intron10-1625 + AGAGACACACCUAAAGCA 18 20509 CFTR-Intron10-1626 +AAGAGACACACCUAAAGCA 19 20510 CFTR-Intron10-1627 + AAAGAGACACACCUAAAGCA20 20511 CFTR-Intron10-1628 + UAGUGAUUCAUUAUAUCA 18 20512CFTR-Intron10-1629 + AUAGUGAUUCAUUAUAUCA 19 20513 CFTR-Intron10-1630 +AAUAGUGAUUCAUUAUAUCA 20 20514 CFTR-Intron10-1631 + AUUUUUGCACAUCUAUCA 1820515 CFTR-Intron10-1632 + UAUUUUUGCACAUCUAUCA 19 20516CFTR-Intron10-1633 + CUAUUUUUGCACAUCUAUCA 20 20517 CFTR-Intron10-1634 +AGCUAUUUUUGCACAUCUAUCA 22 20518 CFTR-Intron10-1635 +AAGCUAUUUUUGCACAUCUAUCA 23 20519 CFTR-Intron10-1636 +AAAGCUAUUUUUGCACAUCUAUCA 24 20520 CFTR-Intron10-1637 +AAAAGGCAGCCUCCUAGA 18 20521 CFTR-Intron10-1638 + UAAAAGGCAGCCUCCUAGA 1920522 CFTR-Intron10-1639 + CUAAAAGGCAGCCUCCUAGA 20 20523CFTR-Intron10-375 + UGGCUACCUUGGUUGGAUGA 20 19261 CFTR-Intron10-1640 +UUGGCUACCUUGGUUGGAUGA 21 20524 CFTR-Intron10-1641 +AUUGGCUACCUUGGUUGGAUGA 22 20525 CFTR-Intron10-1642 + AGAAUAUCCAUCCAUAUGA19 20526 CFTR-Intron10-1643 + UAGAAUAUCCAUCCAUAUGA 20 20527CFTR-Intron10-1644 + AUAGAAUAUCCAUCCAUAUGA 21 20528 CFTR-Intron10-1645 +CAUAGAAUAUCCAUCCAUAUGA 22 20529 CFTR-Intron10-1646 +UCAUAGAAUAUCCAUCCAUAUGA 23 20530 CFTR-Intron10-1647 +AUCAUAGAAUAUCCAUCCAUAUGA 24 20531 CFTR-Intron10-1648 +AUUACCAAAUUGUAUUGA 18 20532 CFTR-Intron10-1649 + AAUUACCAAAUUGUAUUGA 1920533 CFTR-Intron10-1650 + AAAUUACCAAAUUGUAUUGA 20 20534CFTR-Intron10-1651 + AAAAUUACAGAACCUAUA 18 20535 CFTR-Intron10-1652 +AAAAAUUACAGAACCUAUA 19 20536 CFTR-Intron10-1170 + CAAAAAUUACAGAACCUAUA20 20055 CFTR-Intron10-1653 + UGUUACAACAGUCUUUAUA 19 20537CFTR-Intron10-1654 + UUGUUACAACAGUCUUUAUA 20 20538 CFTR-Intron10-1655 +UCCUCCCUUGUCUCCCUA 18 20539 CFTR-Intron10-1656 + UUCCUCCCUUGUCUCCCUA 1920540 CFTR-Intron10-1657 + CUUCCUCCCUUGUCUCCCUA 20 20541CFTR-Intron10-1658 + ACUUAUCCAUUAAUCCUA 18 20542 CFTR-Intron10-1659 +AACUUAUCCAUUAAUCCUA 19 20543 CFTR-Intron10-1660 + CAACUUAUCCAUUAAUCCUA20 20544 CFTR-Intron10-1661 + UCAACUUAUCCAUUAAUCCUA 21 20545CFTR-Intron10-1662 + UUCAACUUAUCCAUUAAUCCUA 22 20546CFTR-Intron10-1663 + UGUUCAACUUAUCCAUUAAUCCUA 24 20547CFTR-Intron10-1664 + ACAAAUUACCAAAUUGUA 18 20548 CFTR-Intron10-1665 +UACAAAUUACCAAAUUGUA 19 20549 CFTR-Intron10-1666 + AUACAAAUUACCAAAUUGUA20 20550 CFTR-Intron10-1667 + UGAUACAAAUUACCAAAUUGUA 22 20551CFTR-Intron10-1668 + CUGAUACAAAUUACCAAAUUGUA 23 20552CFTR-Intron10-1669 + UCUGAUACAAAUUACCAAAUUGUA 24 20553CFTR-Intron10-1670 + AGCCUGACACCAAAUUUA 18 20554 CFTR-Intron10-1671 +CAGCCUGACACCAAAUUUA 19 20555 CFTR-Intron10-1672 + CCAGCCUGACACCAAAUUUA20 20556 CFTR-Intron10-1673 + CCCAGCCUGACACCAAAUUUA 21 20557CFTR-Intron10-1674 + ACCCAGCCUGACACCAAAUUUA 22 20558CFTR-Intron10-1675 + CACCCAGCCUGACACCAAAUUUA 23 20559CFTR-Intron10-1676 + ACAAAUAUUGACUAUUUA 18 20560 CFTR-Intron10-1677 +UACAAAUAUUGACUAUUUA 19 20561 CFTR-Intron10-1678 + AGUACAAAUAUUGACUAUUUA21 20562 CFTR-Intron10-1679 + AAGUACAAAUAUUGACUAUUUA 22 20563CFTR-Intron10-1680 + CAAGUACAAAUAUUGACUAUUUA 23 20564CFTR-Intron10-1681 + AGAGCUCAUAUUAGUGAAC 19 20565 CFTR-Intron10-1682 +CAGAGCUCAUAUUAGUGAAC 20 20566 CFTR-Intron10-1683 + UCAGAGCUCAUAUUAGUGAAC21 20567 CFTR-Intron10-1684 + AUCAGAGCUCAUAUUAGUGAAC 22 20568CFTR-Intron10-1685 + UAUCAGAGCUCAUAUUAGUGAAC 23 20569CFTR-Intron10-1686 + UUAUCAGAGCUCAUAUUAGUGAAC 24 20570CFTR-Intron10-1687 + UCUAUUAAUAGAAACUAC 18 20571 CFTR-Intron10-1688 +AUCUAUUAAUAGAAACUAC 19 20572 CFTR-Intron10-1689 + AAUCUAUUAAUAGAAACUAC20 20573 CFTR-Intron10-1690 + UAAUCUAUUAAUAGAAACUAC 21 20574CFTR-Intron10-1691 + CUAAUCUAUUAAUAGAAACUAC 22 20575CFTR-Intron10-1692 + UCUAAUCUAUUAAUAGAAACUAC 23 20576CFTR-Intron10-1693 + CUCUAAUCUAUUAAUAGAAACUAC 24 20577CFTR-Intron10-1694 + UACUACUUCCACUACUAC 18 20578 CFTR-Intron10-1695 +AUACUACUUCCACUACUAC 19 20579 CFTR-Intron10-1696 + UAUACUACUUCCACUACUAC20 20580 CFTR-Intron10-1697 + CUAUACUACUUCCACUACUAC 21 20581CFTR-Intron10-1698 + ACUAUACUACUUCCACUACUAC 22 20582CFTR-Intron10-1699 + UACUAUACUACUUCCACUACUAC 23 20583CFTR-Intron10-1700 + CUACUAUACUACUUCCACUACUAC 24 20584CFTR-Intron10-1701 + AUGAGUCCCAGUUAUUAC 18 20585 CFTR-Intron10-1702 +UAUGAGUCCCAGUUAUUAC 19 20586 CFTR-Intron10-1703 + AUAUGAGUCCCAGUUAUUAC20 20587 CFTR-Intron10-1704 + CAUAUGAGUCCCAGUUAUUAC 21 20588CFTR-Intron10-1705 + ACAUAUGAGUCCCAGUUAUUAC 22 20589CFTR-Intron10-1706 + UACAUAUGAGUCCCAGUUAUUAC 23 20590CFTR-Intron10-1707 + AUACAUAUGAGUCCCAGUUAUUAC 24 20591CFTR-Intron10-1708 + AGAUACUAAAAAAAGUUAC 19 20592 CFTR-Intron10-1709 +AAGAUACUAAAAAAAGUUAC 20 20593 CFTR-Intron10-1710 + UAUUAGCAAGUGGACUCC 1820594 CFTR-Intron10-426 + UGUAUUAGCAAGUGGACUCC 20 19312CFTR-Intron10-1711 + UUGUAUUAGCAAGUGGACUCC 21 20595 CFTR-Intron10-1712 +AUUGUAUUAGCAAGUGGACUCC 22 20596 CFTR-Intron10-1713 +AAUUGUAUUAGCAAGUGGACUCC 23 20597 CFTR-Intron10-1714 +CAAUUGUAUUAGCAAGUGGACUCC 24 20598 CFTR-Intron10-1715 +UGAGCCUAUCACCUAGGC 18 20599 CFTR-Intron10-1716 + UUGAGCCUAUCACCUAGGC 1920600 CFTR-Intron10-1717 + UUUGAGCCUAUCACCUAGGC 20 20601CFTR-Intron10-1718 + CUAUUUAGAGUGUAUGGC 18 20602 CFTR-Intron10-1719 +UCUAUUUAGAGUGUAUGGC 19 20603 CFTR-Intron10-1720 + CUCUAUUUAGAGUGUAUGGC20 20604 CFTR-Intron10-1721 + ACUCUAUUUAGAGUGUAUGGC 21 20605CFTR-Intron10-1722 + CACUCUAUUUAGAGUGUAUGGC 22 20606CFTR-Intron10-1723 + AGCACUCUAUUUAGAGUGUAUGGC 24 20607CFTR-Intron10-1724 + AAAGGCUCUUUAUAAUGC 18 20608 CFTR-Intron10-1725 +AAAAGGCUCUUUAUAAUGC 19 20609 CFTR-Intron10-1726 + AGAAAAGGCUCUUUAUAAUGC21 20610 CFTR-Intron10-1727 + AAGAAAAGGCUCUUUAUAAUGC 22 20611CFTR-Intron10-1728 + AAAGAAAAGGCUCUUUAUAAUGC 23 20612CFTR-Intron10-1729 + AAAAGAAAAGGCUCUUUAUAAUGC 24 20613CFTR-Intron10-1730 + CUAAGAGACUCCUGAAUC 18 20614 CFTR-Intron10-1731 +UGCUAAGAGACUCCUGAAUC 20 20615 CFTR-Intron10-1732 + CUGCUAAGAGACUCCUGAAUC21 20616 CFTR-Intron10-1733 + UCUGCUAAGAGACUCCUGAAUC 22 20617CFTR-Intron10-1734 + UGUAGAAGACCUAAAUAUC 19 20618 CFTR-Intron10-1735 +AUGUAGAAGACCUAAAUAUC 20 20619 CFTR-Intron10-1736 +AGAUGUAGAAGACCUAAAUAUC 22 20620 CFTR-Intron10-1737 +AAGAUGUAGAAGACCUAAAUAUC 23 20621 CFTR-Intron10-1738 +UGGGUCUGCUAAGAGACUC 19 20622 CFTR-Intron10-1739 + UUGGGUCUGCUAAGAGACUC20 20623 CFTR-Intron10-1740 + UUUGGGUCUGCUAAGAGACUC 21 20624CFTR-Intron10-1741 + AUUUGGGUCUGCUAAGAGACUC 22 20625CFTR-Intron10-1742 + AGAUUUGGGUCUGCUAAGAGACUC 24 20626CFTR-Intron10-1743 + UACUAUUGCUUUCAUUAAGUC 21 20627 CFTR-Intron10-1744 +CUACUAUUGCUUUCAUUAAGUC 22 20628 CFTR-Intron10-1745 +UCUACUAUUGCUUUCAUUAAGUC 23 20629 CFTR-Intron10-1746 +CUCUACUAUUGCUUUCAUUAAGUC 24 20630 CFTR-Intron10-1747 +UAGAGACAAGGUGGUGUC 18 20631 CFTR-Intron10-1748 + AUAGAGACAAGGUGGUGUC 1920632 CFTR-Intron10-437 + AAUAGAGACAAGGUGGUGUC 20 19323CFTR-Intron10-1749 + UAAUAGAGACAAGGUGGUGUC 21 20633 CFTR-Intron10-1750 +AUAAUAGAGACAAGGUGGUGUC 22 20634 CFTR-Intron10-1751 +AAUAAUAGAGACAAGGUGGUGUC 23 20635 CFTR-Intron10-1752 +CAAUAAUAGAGACAAGGUGGUGUC 24 20636 CFTR-Intron10-1753 +UAUUUUUCAUUAUGAUUC 18 20637 CFTR-Intron10-1754 + AUAUUUUUCAUUAUGAUUC 1920638 CFTR-Intron10-1755 + UUGACAUCAGUUGGGUUC 18 20639CFTR-Intron10-1756 + CUUGACAUCAGUUGGGUUC 19 20640 CFTR-Intron10-1757 +UGCUUGACAUCAGUUGGGUUC 21 20641 CFTR-Intron10-1758 +CUGCUUGACAUCAGUUGGGUUC 22 20642 CFTR-Intron10-1759 +UCUGCUUGACAUCAGUUGGGUUC 23 20643 CFTR-Intron10-1760 +UUCUGCUUGACAUCAGUUGGGUUC 24 20644 CFTR-Intron10-1761 +UGAUAAAUAAUUGCCUUUC 19 20645 CFTR-Intron10-445 + UUGAUAAAUAAUUGCCUUUC 2019331 CFTR-Intron10-1762 + AUUGAUAAAUAAUUGCCUUUC 21 20646CFTR-Intron10-1763 + UAUUGAUAAAUAAUUGCCUUUC 22 20647CFTR-Intron10-1764 + AUAUUGAUAAAUAAUUGCCUUUC 23 20648CFTR-Intron10-1765 + UUGGAUGAGGGAAUGCAG 18 20649 CFTR-Intron10-1766 +UGGUUGGAUGAGGGAAUGCAG 21 20650 CFTR-Intron10-1767 +UUGGUUGGAUGAGGGAAUGCAG 22 20651 CFTR-Intron10-1768 +CUUGGUUGGAUGAGGGAAUGCAG 23 20652 CFTR-Intron10-1769 +CCUUGGUUGGAUGAGGGAAUGCAG 24 20653 CFTR-Intron10-1770 +CCUUCUGCUUGACAUCAG 18 20654 CFTR-Intron10-1771 + CCCUUCUGCUUGACAUCAG 1920655 CFTR-Intron10-1772 + ACCCUUCUGCUUGACAUCAG 20 20656CFTR-Intron10-1773 + CACCCUUCUGCUUGACAUCAG 21 20657 CFTR-Intron10-1774 +ACACCCUUCUGCUUGACAUCAG 22 20658 CFTR-Intron10-1775 +AACACCCUUCUGCUUGACAUCAG 23 20659 CFTR-Intron10-1776 +UAACACCCUUCUGCUUGACAUCAG 24 20660 CFTR-Intron10-1777 +AAUUGAUCUUGAAGACAUACG 21 20661 CFTR-Intron10-1778 +AGAAUUGAUCUUGAAGACAUACG 23 20662 CFTR-Intron10-1779 +UAGAAUUGAUCUUGAAGACAUACG 24 20663 CFTR-Intron10-1780 +ACUGUGAAUGGUGCCAGG 18 20664 CFTR-Intron10-1781 + UACUGUGAAUGGUGCCAGG 1920665 CFTR-Intron10-1782 + UUACUGUGAAUGGUGCCAGG 20 20666CFTR-Intron10-1783 + UUUACUGUGAAUGGUGCCAGG 21 20667 CFTR-Intron10-1784 +CUUUACUGUGAAUGGUGCCAGG 22 20668 CFTR-Intron10-1785 +UCUUUACUGUGAAUGGUGCCAGG 23 20669 CFTR-Intron10-1786 +CUCUUUACUGUGAAUGGUGCCAGG 24 20670 CFTR-Intron10-1787 +AGAUGAUUAUUAAUAGGG 18 20671 CFTR-Intron10-1788 + UAGAUGAUUAUUAAUAGGG 1920672 CFTR-Intron10-1789 + CUAGAUGAUUAUUAAUAGGG 20 20673CFTR-Intron10-1790 + CCUAGAUGAUUAUUAAUAGGG 21 20674 CFTR-Intron10-1791 +AGCCUAGAUGAUUAUUAAUAGGG 23 20675 CFTR-Intron10-1792 +CAGCCUAGAUGAUUAUUAAUAGGG 24 20676 CFTR-Intron10-475 +AGGUUAAGUUGUUCUUAGGG 20 19361 CFTR-Intron10-1793 + CAGGUUAAGUUGUUCUUAGGG21 20677 CFTR-Intron10-1794 + CCAGGUUAAGUUGUUCUUAGGG 22 20678CFTR-Intron10-1795 + UGCCAGGUUAAGUUGUUCUUAGGG 24 20679CFTR-Intron10-1796 + UAACAAACCUUUUAUUGG 18 20680 CFTR-Intron10-1797 +UUAACAAACCUUUUAUUGG 19 20681 CFTR-Intron10-1798 + UUUAACAAACCUUUUAUUGG20 20682 CFTR-Intron10-1799 + CUGGAUUGGCUACCUUGG 18 20683CFTR-Intron10-1800 + CCUGGAUUGGCUACCUUGG 19 20684 CFTR-Intron10-1801 +ACCUGGAUUGGCUACCUUGG 20 20685 CFTR-Intron10-1802 + UACCUGGAUUGGCUACCUUGG21 20686 CFTR-Intron10-1803 + UUACCUGGAUUGGCUACCUUGG 22 20687CFTR-Intron10-1804 + AGUUACCUGGAUUGGCUACCUUGG 24 20688CFTR-Intron10-1805 + AGGAAAUGGGGUAUAAGUG 19 20689 CFTR-Intron10-487 +AAGGAAAUGGGGUAUAAGUG 20 19373 CFTR-Intron10-1806 + UACAUAAAAAGAGAGGUG 1820690 CFTR-Intron10-1807 + UUACAUAAAAAGAGAGGUG 19 20691CFTR-Intron10-1808 + UGUUACAUAAAAAGAGAGGUG 21 20692 CFTR-Intron10-1809 +UUGUUACAUAAAAAGAGAGGUG 22 20693 CFTR-Intron10-1810 +AUUGUUACAUAAAAAGAGAGGUG 23 20694 CFTR-Intron10-1811 +UAUUGUUACAUAAAAAGAGAGGUG 24 20695 CFTR-Intron10-1812 +ACAGUUUCAUCUUACUUG 18 20696 CFTR-Intron10-1813 + AACAGUUUCAUCUUACUUG 1920697 CFTR-Intron10-1814 + UAACAGUUUCAUCUUACUUG 20 20698CFTR-Intron10-1815 + AUAACAGUUUCAUCUUACUUG 21 20699 CFTR-Intron10-1816 +UAUAACAGUUUCAUCUUACUUG 22 20700 CFTR-Intron10-1817 +UUAUAACAGUUUCAUCUUACUUG 23 20701 CFTR-Intron10-1818 +AUUAUAACAGUUUCAUCUUACUUG 24 20702 CFTR-Intron10-1819 +UAUUACAUGGGAAAAAAU 18 20703 CFTR-Intron10-1820 + UUAUUACAUGGGAAAAAAU 1920704 CFTR-Intron10-1821 + CUUAUUACAUGGGAAAAAAU 20 20705CFTR-Intron10-1822 + UCUUAUUACAUGGGAAAAAAU 21 20706 CFTR-Intron10-1823 +UUCUUAUUACAUGGGAAAAAAU 22 20707 CFTR-Intron10-1824 +AUUCUUAUUACAUGGGAAAAAAU 23 20708 CFTR-Intron10-1825 +AAUUCUUAUUACAUGGGAAAAAAU 24 20709 CFTR-Intron10-1826 +AUAGCUUAUUCUAUACAU 18 20710 CFTR-Intron10-1827 + AAUAGCUUAUUCUAUACAU 1920711 CFTR-Intron10-1828 + UAAUAGCUUAUUCUAUACAU 20 20712CFTR-Intron10-1829 + CUAAUAGCUUAUUCUAUACAU 21 20713 CFTR-Intron10-1830 +AGCUAAUAGCUUAUUCUAUACAU 23 20714 CFTR-Intron10-1831 + AUGAUGUACAUUUAAUAU18 20715 CFTR-Intron10-1832 + AAUGAUGUACAUUUAAUAU 19 20716CFTR-Intron10-1833 + UAAUGAUGUACAUUUAAUAU 20 20717 CFTR-Intron10-1834 +AUAAUGAUGUACAUUUAAUAU 21 20718 CFTR-Intron10-1835 +AAUAAUGAUGUACAUUUAAUAU 22 20719 CFTR-Intron10-1836 +UGAAUAAUGAUGUACAUUUAAUAU 24 20720 CFTR-Intron10-1837 +AGAUCUCUGCAAACAUAU 18 20721 CFTR-Intron10-1838 + AAGAUCUCUGCAAACAUAU 1920722 CFTR-Intron10-1839 + UAAGAUCUCUGCAAACAUAU 20 20723CFTR-Intron10-1840 + AUAAGAUCUCUGCAAACAUAU 21 20724 CFTR-Intron10-1841 +CAUAAGAUCUCUGCAAACAUAU 22 20725 CFTR-Intron10-1842 +ACAUAAGAUCUCUGCAAACAUAU 23 20726 CFTR-Intron10-1843 +UACAUAAGAUCUCUGCAAACAUAU 24 20727 CFTR-Intron10-1844 +AAUGGAAACACUAUAUAU 18 20728 CFTR-Intron10-1845 + UAAUGGAAACACUAUAUAU 1920729 CFTR-Intron10-1846 + UGUAAUGGAAACACUAUAUAU 21 20730CFTR-Intron10-1847 + AUGUAAUGGAAACACUAUAUAU 22 20731CFTR-Intron10-1848 + AAUGUAAUGGAAACACUAUAUAU 23 20732CFTR-Intron10-1849 + CAAUGUAAUGGAAACACUAUAUAU 24 20733CFTR-Intron10-1850 + UCCAACUAACAUCUCUAU 18 20734 CFTR-Intron10-1851 +AUCCAACUAACAUCUCUAU 19 20735 CFTR-Intron10-1852 + CAUCCAACUAACAUCUCUAU20 20736 CFTR-Intron10-1853 + ACAUCCAACUAACAUCUCUAU 21 20737CFTR-Intron10-1854 + UACAUCCAACUAACAUCUCUAU 22 20738CFTR-Intron10-1855 + UGUACAUCCAACUAACAUCUCUAU 24 20739CFTR-Intron10-1856 + UCCUUAACCUCUAAUACU 18 20740 CFTR-Intron10-1857 +CUCCUUAACCUCUAAUACU 19 20741 CFTR-Intron10-1858 + CCUCCUUAACCUCUAAUACU20 20742 CFTR-Intron10-1859 + ACCUCCUUAACCUCUAAUACU 21 20743CFTR-Intron10-1860 + CACCUCCUUAACCUCUAAUACU 22 20744CFTR-Intron10-1861 + CCACCUCCUUAACCUCUAAUACU 23 20745CFTR-Intron10-1862 + CCCACCUCCUUAACCUCUAAUACU 24 20746CFTR-Intron10-1863 + UGGAAAAUGUUAAAUUUUCCCU 22 20747CFTR-Intron10-1864 + CUGGAAAAUGUUAAAUUUUCCCU 23 20748CFTR-Intron10-1865 + UCUGGAAAAUGUUAAAUUUUCCCU 24 20749CFTR-Intron10-516 + AGGCACUUGUUGACAGUCCU 20 19402 CFTR-Intron10-1866 +UAGGCACUUGUUGACAGUCCU 21 20750 CFTR-Intron10-1867 +CUAGGCACUUGUUGACAGUCCU 22 20751 CFTR-Intron10-1868 +UGCUAGGCACUUGUUGACAGUCCU 24 20752 CFTR-Intron10-1869 +UACUCAGUCCAGAAAGCU 18 20753 CFTR-Intron10-1870 + UUACUCAGUCCAGAAAGCU 1920754 CFTR-Intron10-1871 + UGUGCAAGUCCUCUGUGCU 19 20755CFTR-Intron10-1872 + AUGUGCAAGUCCUCUGUGCU 20 20756 CFTR-Intron10-1873 +UAUGUGCAAGUCCUCUGUGCU 21 20757 CFTR-Intron10-1874 +AUAUGUGCAAGUCCUCUGUGCU 22 20758 CFTR-Intron10-1875 +CAUAUGUGCAAGUCCUCUGUGCU 23 20759 CFTR-Intron10-1876 +ACAUAUGUGCAAGUCCUCUGUGCU 24 20760 CFTR-Intron10-1877 +UUAAUUGCCAGUAAGUCU 18 20761 CFTR-Intron10-1878 + UUUAAUUGCCAGUAAGUCU 1920762 CFTR-Intron10-526 + AUUUAAUUGCCAGUAAGUCU 20 19412CFTR-Intron10-1879 + UGCCAGGUUAAGUUGUUCU 19 20763 CFTR-Intron10-1880 +AUGCCAGGUUAAGUUGUUCU 20 20764 CFTR-Intron10-1881 + AGAGUGUAUGGCAUGAGU 1820765 CFTR-Intron10-1882 + UAGAGUGUAUGGCAUGAGU 19 20766CFTR-Intron10-1883 + UUAGAGUGUAUGGCAUGAGU 20 20767 CFTR-Intron10-1884 +UUUAGAGUGUAUGGCAUGAGU 21 20768 CFTR-Intron10-1885 +AUUUAGAGUGUAUGGCAUGAGU 22 20769 CFTR-Intron10-1886 +UAUUUAGAGUGUAUGGCAUGAGU 23 20770 CFTR-Intron10-1887 +CUAUUUAGAGUGUAUGGCAUGAGU 24 20771 CFTR-Intron10-1888 +AGGGUCUCUCUAAGGUGU 18 20772 CFTR-Intron10-1889 + UGAGGGUCUCUCUAAGGUGU 2020773 CFTR-Intron10-1890 + UGGGGAAAUCAGCACUCUAUU 21 20774CFTR-Intron10-1891 + UGUGGGGAAAUCAGCACUCUAUU 23 20775CFTR-Intron10-1892 + CUGUGGGGAAAUCAGCACUCUAUU 24 20776CFTR-Intron10-1893 + UGUAACUCUUUAUUCACUU 19 20777 CFTR-Intron10-1894 +UUGUAACUCUUUAUUCACUU 20 20778 CFTR-Intron10-1895 + UUUGUAACUCUUUAUUCACUU21 20779 CFTR-Intron10-1896 + UUUUGUAACUCUUUAUUCACUU 22 20780CFTR-Intron10-1897 + AUUUUGUAACUCUUUAUUCACUU 23 20781CFTR-Intron10-1898 + CAUUUUGUAACUCUUUAUUCACUU 24 20782CFTR-Intron10-1899 + UAUCAACCCUCUUUCCUU 18 20783 CFTR-Intron10-1900 +UUAUCAACCCUCUUUCCUU 19 20784 CFTR-Intron10-1901 + CUUAUCAACCCUCUUUCCUU20 20785 CFTR-Intron10-1902 + UCUUAUCAACCCUCUUUCCUU 21 20786CFTR-Intron10-1903 + UUCUUAUCAACCCUCUUUCCUU 22 20787CFTR-Intron10-1904 + CUUCUUAUCAACCCUCUUUCCUU 23 20788CFTR-Intron10-1905 + UCUUCUUAUCAACCCUCUUUCCUU 24 20789CFTR-Intron10-1906 + UUUAUCAACAUGAAGGUU 18 20790 CFTR-Intron10-1907 +CUUUAUCAACAUGAAGGUU 19 20791 CFTR-Intron10-555 + CCUUUAUCAACAUGAAGGUU 2019441 CFTR-Intron10-1908 − UGCUUUCAGGAGCCAAAAA 19 20792CFTR-Intron10-1909 − CUGCUUUCAGGAGCCAAAAA 20 20793 CFTR-Intron10-1910 −ACUGCUUUCAGGAGCCAAAAA 21 20794 CFTR-Intron10-1911 −CACUGCUUUCAGGAGCCAAAAA 22 20795 CFTR-Intron10-1912 −ACACUGCUUUCAGGAGCCAAAAA 23 20796 CFTR-Intron10-1913 −AACACUGCUUUCAGGAGCCAAAAA 24 20797 CFTR-Intron10-1914 −UUAAACACUUCUGAGAAA 18 20798 CFTR-Intron10-1915 − UUUAAACACUUCUGAGAAA 1920799 CFTR-Intron10-1096 − AUUUAAACACUUCUGAGAAA 20 19981CFTR-Intron10-1916 − AUAAGAUUCUAAAGGAAA 18 20800 CFTR-Intron10-1917 −UGGAUAAGAUUCUAAAGGAAA 21 20801 CFTR-Intron10-1918 −CUGGAUAAGAUUCUAAAGGAAA 22 20802 CFTR-Intron10-1919 − CAUGCCAUACACUCUAAA18 20803 CFTR-Intron10-1920 − UCAUGCCAUACACUCUAAA 19 20804CFTR-Intron10-1921 − CUCAUGCCAUACACUCUAAA 20 20805 CFTR-Intron10-1922 −ACUCAUGCCAUACACUCUAAA 21 20806 CFTR-Intron10-1923 −UACUCAUGCCAUACACUCUAAA 22 20807 CFTR-Intron10-1924 −CGUACUCAUGCCAUACACUCUAAA 24 20808 CFTR-Intron10-1925 −AGGUUUAAUUUUGUACAA 18 20809 CFTR-Intron10-1926 − UAGGUUUAAUUUUGUACAA 1920810 CFTR-Intron10-343 − CUAGGUUUAAUUUUGUACAA 20 19229CFTR-Intron10-1927 − UCUAGGUUUAAUUUUGUACAA 21 20811 CFTR-Intron10-1928 −UUCUAGGUUUAAUUUUGUACAA 22 20812 CFTR-Intron10-1929 −CUUCUAGGUUUAAUUUUGUACAA 23 20813 CFTR-Intron10-1930 −ACUUCUAGGUUUAAUUUUGUACAA 24 20814 CFTR-Intron10-1931 −CUUUGAAGGAAGAUCCAA 18 20815 CFTR-Intron10-1932 − UGCUUUGAAGGAAGAUCCAA 2020816 CFTR-Intron10-1933 − UAAUCAUCUAGGCUGCAA 18 20817CFTR-Intron10-1934 − AUAAUCAUCUAGGCUGCAA 19 20818 CFTR-Intron10-1935 −AAUAAUCAUCUAGGCUGCAA 20 20819 CFTR-Intron10-1936 − UAAUAAUCAUCUAGGCUGCAA21 20820 CFTR-Intron10-1937 − UUAAUAAUCAUCUAGGCUGCAA 22 20821CFTR-Intron10-1938 − AUUAAUAAUCAUCUAGGCUGCAA 23 20822 CFTR-Intron10-1939− UAUUAAUAAUCAUCUAGGCUGCAA 24 20823 CFTR-Intron10-1940 −AGGAGAACCAUAUUUUGAAGAA 22 20824 CFTR-Intron10-1941 −UGAGGAGAACCAUAUUUUGAAGAA 24 20825 CFTR-Intron10-1942 −AGGGUUGAUAAGAAGAGAA 19 20826 CFTR-Intron10-1943 − AGAGGGUUGAUAAGAAGAGAA21 20827 CFTR-Intron10-1944 − AAGAGGGUUGAUAAGAAGAGAA 22 20828CFTR-Intron10-1945 − AAAGAGGGUUGAUAAGAAGAGAA 23 20829 CFTR-Intron10-1946− UGCUCUCUGACCACAUAA 18 20830 CFTR-Intron10-1947 − UUGCUCUCUGACCACAUAA19 20831 CFTR-Intron10-1948 − CUUGCUCUCUGACCACAUAA 20 20832CFTR-Intron10-1949 − ACUUGCUCUCUGACCACAUAA 21 20833 CFTR-Intron10-1950 −UACUUGCUCUCUGACCACAUAA 22 20834 CFTR-Intron10-1951 −UGUACUUGCUCUCUGACCACAUAA 24 20835 CFTR-Intron10-1952 −UAUAUGAUAUACUCUUAA 18 20836 CFTR-Intron10-1953 − UGUAUAUGAUAUACUCUUAA 2020837 CFTR-Intron10-1954 − AUGUAUAUGAUAUACUCUUAA 21 20838CFTR-Intron10-1955 − CGGAUGUAUAUGAUAUACUCUUAA 24 20839CFTR-Intron10-1956 − AACUCAUUAGGAAAAUGUACA 21 20840 CFTR-Intron10-1957 −CAACUCAUUAGGAAAAUGUACA 22 20841 CFTR-Intron10-1958 −CCAACUCAUUAGGAAAAUGUACA 23 20842 CFTR-Intron10-1959 −ACCAACUCAUUAGGAAAAUGUACA 24 20843 CFTR-Intron10-1960 −AUGAAGUUAAAAACAUCA 18 20844 CFTR-Intron10-1961 − UAUGAAGUUAAAAACAUCA 1920845 CFTR-Intron10-1962 − AUAUGAAGUUAAAAACAUCA 20 20846CFTR-Intron10-1963 − AGUAUAGAAUUUUGCAUCA 19 20847 CFTR-Intron10-1964 −UAGUAUAGAAUUUUGCAUCA 20 20848 CFTR-Intron10-1965 − AGGUAGUAAUUGUGUUUCA19 20849 CFTR-Intron10-1966 − AAGGUAGUAAUUGUGUUUCA 20 20850CFTR-Intron10-1967 − AAAGGUAGUAAUUGUGUUUCA 21 20851 CFTR-Intron10-1968 −AAAAGGUAGUAAUUGUGUUUCA 22 20852 CFTR-Intron10-1969 −UGAAAAGGUAGUAAUUGUGUUUCA 24 20853 CFTR-Intron10-1970 −AGAGCCUUUUCUUUUUCA 18 20854 CFTR-Intron10-1971 − AAGAGCCUUUUCUUUUUCA 1920855 CFTR-Intron10-1972 − AAAGAGCCUUUUCUUUUUCA 20 20856CFTR-Intron10-1973 − UCUAGCUAAAAUAUAAGA 18 20857 CFTR-Intron10-1974 −AUCUAGCUAAAAUAUAAGA 19 20858 CFTR-Intron10-1975 − CUUGACCAGAAUGAAAUUAGA21 20859 CFTR-Intron10-1976 − ACUUGACCAGAAUGAAAUUAGA 22 20860CFTR-Intron10-1977 − AACUUGACCAGAAUGAAAUUAGA 23 20861 CFTR-Intron10-1978− AAACUUGACCAGAAUGAAAUUAGA 24 20862 CFTR-Intron10-1979 −AGGAAAAUGUACAAAGGA 18 20863 CFTR-Intron10-1980 − UAGGAAAAUGUACAAAGGA 1920864 CFTR-Intron10-1981 − UUAGGAAAAUGUACAAAGGA 20 20865CFTR-Intron10-1982 − UGAUUCCAAGCUUUCUGGA 19 20866 CFTR-Intron10-1983 −AUGAUUCCAAGCUUUCUGGA 20 20867 CFTR-Intron10-1984 − UAUACUCUUAAGUGAAUA 1820868 CFTR-Intron10-1985 − AUAUACUCUUAAGUGAAUA 19 20869CFTR-Intron10-1986 − UGAUAUACUCUUAAGUGAAUA 21 20870 CFTR-Intron10-1987 −AUGAUAUACUCUUAAGUGAAUA 22 20871 CFTR-Intron10-1988 −UAUGAUAUACUCUUAAGUGAAUA 23 20872 CFTR-Intron10-1989 −AUAUGAUAUACUCUUAAGUGAAUA 24 20873 CFTR-Intron10-1990 −CUAACCUUCAUGUUGAUA 18 20874 CFTR-Intron10-1991 − CCUAACCUUCAUGUUGAUA 1920875 CFTR-Intron10-1992 − CCCUAACCUUCAUGUUGAUA 20 20876CFTR-Intron10-1993 − UGGAUAUUCUAUGAUAUA 18 20877 CFTR-Intron10-1994 −AUGGAUAUUCUAUGAUAUA 19 20878 CFTR-Intron10-1995 − UGGAUGGAUAUUCUAUGAUAUA22 20879 CFTR-Intron10-1996 − AUGGAUGGAUAUUCUAUGAUAUA 23 20880CFTR-Intron10-1997 − UAUGGAUGGAUAUUCUAUGAUAUA 24 20881CFTR-Intron10-1998 − AUACUUUCUAGAAUUAUA 18 20882 CFTR-Intron10-1999 −AAUACUUUCUAGAAUUAUA 19 20883 CFTR-Intron10-2000 − AAAUACUUUCUAGAAUUAUA20 20884 CFTR-Intron10-2001 − UUUUGCUUGCUUUUUAUA 18 20885CFTR-Intron10-2002 − UUUUUGCUUGCUUUUUAUA 19 20886 CFTR-Intron10-2003 −UCUGAGAAGACAAAGCUA 18 20887 CFTR-Intron10-2004 − AGUCUGAGAAGACAAAGCUA 2020888 CFTR-Intron10-2005 − AAGUCUGAGAAGACAAAGCUA 21 20889CFTR-Intron10-2006 − AAAGUCUGAGAAGACAAAGCUA 22 20890 CFTR-Intron10-2007− AAAAGUCUGAGAAGACAAAGCUA 23 20891 CFTR-Intron10-2008 −UAAAAGUCUGAGAAGACAAAGCUA 24 20892 CFTR-Intron10-2009 −AGUGAAGCAAUAUUAGUA 18 20893 CFTR-Intron10-2010 − UAGUGAAGCAAUAUUAGUA 1920894 CFTR-Intron10-2011 − UUAGUGAAGCAAUAUUAGUA 20 20895CFTR-Intron10-2012 − UUUAGUGAAGCAAUAUUAGUA 21 20896 CFTR-Intron10-2013 −UUUUAGUGAAGCAAUAUUAGUA 22 20897 CFTR-Intron10-2014 −AUUUUAGUGAAGCAAUAUUAGUA 23 20898 CFTR-Intron10-2015 −UAUUUUAGUGAAGCAAUAUUAGUA 24 20899 CFTR-Intron10-2016 −UAAUCGGCGGUGGAGGUA 18 20900 CFTR-Intron10-389 − AGUAAUCGGCGGUGGAGGUA 2019275 CFTR-Intron10-2017 − AAGUAAUCGGCGGUGGAGGUA 21 20901CFTR-Intron10-2018 − AGAAGUAAUCGGCGGUGGAGGUA 23 20902 CFTR-Intron10-2019− CAUUGCCUCACUAUGGUA 18 20903 CFTR-Intron10-2020 − UCAUUGCCUCACUAUGGUA19 20904 CFTR-Intron10-2021 − AUCAUUGCCUCACUAUGGUA 20 20905CFTR-Intron10-2022 − UGAUCAUUGCCUCACUAUGGUA 22 20906 CFTR-Intron10-2023− UUGAUCAUUGCCUCACUAUGGUA 23 20907 CFTR-Intron10-2024 −AUUGAUCAUUGCCUCACUAUGGUA 24 20908 CFTR-Intron10-2025 −AACUGGGACUCAUAUGUA 18 20909 CFTR-Intron10-2026 − UAACUGGGACUCAUAUGUA 1920910 CFTR-Intron10-2027 − AUAACUGGGACUCAUAUGUA 20 20911CFTR-Intron10-2028 − AAUAACUGGGACUCAUAUGUA 21 20912 CFTR-Intron10-2029 −UAAUAACUGGGACUCAUAUGUA 22 20913 CFTR-Intron10-2030 −UGUAAUAACUGGGACUCAUAUGUA 24 20914 CFTR-Intron10-2031 −AGGAAGAUCCAAUAGGAUUA 20 20915 CFTR-Intron10-2032 − AAGGAAGAUCCAAUAGGAUUA21 20916 CFTR-Intron10-2033 − UGAAGGAAGAUCCAAUAGGAUUA 23 20917CFTR-Intron10-2034 − UUGAAGGAAGAUCCAAUAGGAUUA 24 20918CFTR-Intron10-2035 − UGCAGGAGGUGAGGGAUUA 19 20919 CFTR-Intron10-394 −UUGCAGGAGGUGAGGGAUUA 20 19280 CFTR-Intron10-2036 − CAGCCAAUAAAAGGUUUGUUA21 20920 CFTR-Intron10-2037 − UCAGCCAAUAAAAGGUUUGUUA 22 20921CFTR-Intron10-2038 − UUCAGCCAAUAAAAGGUUUGUUA 23 20922 CFTR-Intron10-2039− AUUCAGCCAAUAAAAGGUUUGUUA 24 20923 CFTR-Intron10-2040 −AGUUAGCAAUGGUCUAAAC 19 20924 CFTR-Intron10-2041 − AAGUUAGCAAUGGUCUAAAC20 20925 CFTR-Intron10-2042 − AUUCUGUUUAAAUAGCAC 18 20926CFTR-Intron10-410 − UGAUUCUGUUUAAAUAGCAC 20 19296 CFTR-Intron10-2043 −CUGAUUCUGUUUAAAUAGCAC 21 20927 CFTR-Intron10-2044 −CCUGAUUCUGUUUAAAUAGCAC 22 20928 CFTR-Intron10-2045 −CCCUGAUUCUGUUUAAAUAGCAC 23 20929 CFTR-Intron10-2046 −CCCCUGAUUCUGUUUAAAUAGCAC 24 20930 CFTR-Intron10-2047 −AGAGAAGGUCAAACUUGAC 19 20931 CFTR-Intron10-2048 − UAGAGAAGGUCAAACUUGAC20 20932 CFTR-Intron10-2049 − AGUAGAGAAGGUCAAACUUGAC 22 20933CFTR-Intron10-2050 − UAGUAGAGAAGGUCAAACUUGAC 23 20934 CFTR-Intron10-2051− AUAGUAGAGAAGGUCAAACUUGAC 24 20935 CFTR-Intron10-2052 −CUCUAUAUAAAGUGAUCC 18 20936 CFTR-Intron10-2053 − UCUCUAUAUAAAGUGAUCC 1920937 CFTR-Intron10-2054 − CUCUCUAUAUAAAGUGAUCC 20 20938CFTR-Intron10-2055 − UCUCUCUAUAUAAAGUGAUCC 21 20939 CFTR-Intron10-2056 −UUCUCUCUAUAUAAAGUGAUCC 22 20940 CFTR-Intron10-2057 −UUUCUCUCUAUAUAAAGUGAUCC 23 20941 CFTR-Intron10-2058 −AUUUCUCUCUAUAUAAAGUGAUCC 24 20942 CFTR-Intron10-2059 −AUUCUUUUGAUAUACUCC 18 20943 CFTR-Intron10-2060 − UAUUCUUUUGAUAUACUCC 1920944 CFTR-Intron10-1213 − UUAUUCUUUUGAUAUACUCC 20 20098CFTR-Intron10-2061 − CUUAUUCUUUUGAUAUACUCC 21 20945 CFTR-Intron10-2062 −CCUUAUUCUUUUGAUAUACUCC 22 20946 CFTR-Intron10-2063 −UGCCUUAUUCUUUUGAUAUACUCC 24 20947 CFTR-Intron10-2064 −UGCGCUUAUGAAACUUCC 18 20948 CFTR-Intron10-2065 − UUGCGCUUAUGAAACUUCC 1920949 CFTR-Intron10-2066 − CUUGCGCUUAUGAAACUUCC 20 20950CFTR-Intron10-2067 − UCUUGCGCUUAUGAAACUUCC 21 20951 CFTR-Intron10-2068 −UGUCUUGCGCUUAUGAAACUUCC 23 20952 CFTR-Intron10-2069 −AUGUCUUGCGCUUAUGAAACUUCC 24 20953 CFTR-Intron10-2070 −AAACCAAACAAGCUUUCC 18 20954 CFTR-Intron10-2071 − AAAACCAAACAAGCUUUCC 1920955 CFTR-Intron10-2072 − UAAAACCAAACAAGCUUUCC 20 20956CFTR-Intron10-2073 − CUUUUAAAACAAAAUAGC 18 20957 CFTR-Intron10-1220 −AGCUUUUAAAACAAAAUAGC 20 20105 CFTR-Intron10-2074 − AGGAAGACAGCUGGCUAUC19 20958 CFTR-Intron10-2075 − CAGGAAGACAGCUGGCUAUC 20 20959CFTR-Intron10-2076 − AGCAGGAAGACAGCUGGCUAUC 22 20960 CFTR-Intron10-2077− CAGCAGGAAGACAGCUGGCUAUC 23 20961 CFTR-Intron10-2078 −ACAGCAGGAAGACAGCUGGCUAUC 24 20962 CFTR-Intron10-2079 −AGCUGGCUAUCCAGGAUUC 19 20963 CFTR-Intron10-441 − CAGCUGGCUAUCCAGGAUUC 2019327 CFTR-Intron10-2080 − ACAGCUGGCUAUCCAGGAUUC 21 20964CFTR-Intron10-2081 − AGACAGCUGGCUAUCCAGGAUUC 23 20965 CFTR-Intron10-2082− AAGACAGCUGGCUAUCCAGGAUUC 24 20966 CFTR-Intron10-2083 −UUCUGUAAUUUUUGCUUC 18 20967 CFTR-Intron10-2084 − AGACUUUGUAGUGAUCUUC 1920968 CFTR-Intron10-2085 − AAGACUUUGUAGUGAUCUUC 20 20969CFTR-Intron10-2086 − AGAAGACUUUGUAGUGAUCUUC 22 20970 CFTR-Intron10-2087− AGCUUUUCAAAAUACUUUC 19 20971 CFTR-Intron10-2088 − AAGCUUUUCAAAAUACUUUC20 20972 CFTR-Intron10-2089 − UGAAGCUUUUCAAAAUACUUUC 22 20973CFTR-Intron10-2090 − UUGAAGCUUUUCAAAAUACUUUC 23 20974 CFTR-Intron10-2091− CUUGAAGCUUUUCAAAAUACUUUC 24 20975 CFTR-Intron10-2092 −AACAGUACAAGAAAAAAG 18 20976 CFTR-Intron10-2093 − UAACAGUACAAGAAAAAAG 1920977 CFTR-Intron10-2094 − UGCCAUUAACAGAUAAAG 18 20978CFTR-Intron10-2095 − UUGCCAUUAACAGAUAAAG 19 20979 CFTR-Intron10-2096 −UUUGCCAUUAACAGAUAAAG 20 20980 CFTR-Intron10-2097 − AUAUGAGAAAAGUCACAG 1820981 CFTR-Intron10-2098 − CAUAUGAGAAAAGUCACAG 19 20982CFTR-Intron10-2099 − UGGCAUAUGAGAAAAGUCACAG 22 20983 CFTR-Intron10-2100− AUGGCAUAUGAGAAAAGUCACAG 23 20984 CFTR-Intron10-2101 −AAUGGCAUAUGAGAAAAGUCACAG 24 20985 CFTR-Intron10-2102 −CCAACUGAUGUCAAGCAG 18 20986 CFTR-Intron10-2103 − CCCAACUGAUGUCAAGCAG 1920987 CFTR-Intron10-2104 − ACCCAACUGAUGUCAAGCAG 20 20988CFTR-Intron10-2105 − AACCCAACUGAUGUCAAGCAG 21 20989 CFTR-Intron10-2106 −CGGAACCCAACUGAUGUCAAGCAG 24 20990 CFTR-Intron10-2107 −AGUAUUAGAGGUUAAGGAG 19 20991 CFTR-Intron10-2108 − AAGUAUUAGAGGUUAAGGAG20 20992 CFTR-Intron10-2109 − UAAGUAUUAGAGGUUAAGGAG 21 20993CFTR-Intron10-2110 − CUAAGUAUUAGAGGUUAAGGAG 22 20994 CFTR-Intron10-2111− UCUAAGUAUUAGAGGUUAAGGAG 23 20995 CFTR-Intron10-2112 −UUCUAAGUAUUAGAGGUUAAGGAG 24 20996 CFTR-Intron10-2113 −AGUCUUUUCCUCUUAAUAG 19 20997 CFTR-Intron10-2114 − AAGUCUUUUCCUCUUAAUAG20 20998 CFTR-Intron10-2115 − UGAAGUCUUUUCCUCUUAAUAG 22 20999CFTR-Intron10-2116 − CUGAAGUCUUUUCCUCUUAAUAG 23 21000 CFTR-Intron10-2117− CCUGAAGUCUUUUCCUCUUAAUAG 24 21001 CFTR-Intron10-2118 −UGAAAAGCAGCUAUGAAGG 19 21002 CFTR-Intron10-2119 − AUGAAAAGCAGCUAUGAAGG20 21003 CFTR-Intron10-2120 − UAUGAAAAGCAGCUAUGAAGG 21 21004CFTR-Intron10-2121 − UUAUGAAAAGCAGCUAUGAAGG 22 21005 CFTR-Intron10-2122− CUUAUGAAAAGCAGCUAUGAAGG 23 21006 CFTR-Intron10-2123 −UUUCAACUUAUACACAGG 18 21007 CFTR-Intron10-2124 − AUUUCAACUUAUACACAGG 1921008 CFTR-Intron10-468 − CAUUUCAACUUAUACACAGG 20 19354CFTR-Intron10-2125 − UCAUUUCAACUUAUACACAGG 21 21009 CFTR-Intron10-2126 −AUCAUUUCAACUUAUACACAGG 22 21010 CFTR-Intron10-2127 −UAUCAUUUCAACUUAUACACAGG 23 21011 CFTR-Intron10-2128 −AUAUCAUUUCAACUUAUACACAGG 24 21012 CFTR-Intron10-2129 −UGGCAUAGAGUAAGACAGG 19 21013 CFTR-Intron10-2130 − CUGGCAUAGAGUAAGACAGG20 21014 CFTR-Intron10-2131 − AGGCUGGCAUAGAGUAAGACAGG 23 21015CFTR-Intron10-2132 − AAUAAAUUUGGUGUCAGG 18 21016 CFTR-Intron10-2133 −CAAUAAAUUUGGUGUCAGG 19 21017 CFTR-Intron10-2134 − UCAAUAAAUUUGGUGUCAGG20 21018 CFTR-Intron10-2135 − CUCAAUAAAUUUGGUGUCAGG 21 21019CFTR-Intron10-2136 − ACUCAAUAAAUUUGGUGUCAGG 22 21020 CFTR-Intron10-2137− CACUCAAUAAAUUUGGUGUCAGG 23 21021 CFTR-Intron10-2138 −CCACUCAAUAAAUUUGGUGUCAGG 24 21022 CFTR-Intron10-2139 −UGGUAGUGUGAAGAUGGGG 19 21023 CFTR-Intron10-2140 − CUGGUAGUGUGAAGAUGGGG20 21024 CFTR-Intron10-2141 − AGGGAAUGCAGACUCUGGG 19 21025CFTR-Intron10-2142 − UAGGGAAUGCAGACUCUGGG 20 21026 CFTR-Intron10-2143 −UUAGGGAAUGCAGACUCUGGG 21 21027 CFTR-Intron10-2144 −AUUAGGGAAUGCAGACUCUGGG 22 21028 CFTR-Intron10-2145 − UGGGGGAGCCCCAUAAAUG19 21029 CFTR-Intron10-2146 − UUUUUAUGUAACAAUAUG 18 21030CFTR-Intron10-2147 − CUUUUUAUGUAACAAUAUG 19 21031 CFTR-Intron10-2148 −UCUUUUUAUGUAACAAUAUG 20 21032 CFTR-Intron10-2149 − CUCUUUUUAUGUAACAAUAUG21 21033 CFTR-Intron10-2150 − UCUCUUUUUAUGUAACAAUAUG 22 21034CFTR-Intron10-2151 − CUCUCUUUUUAUGUAACAAUAUG 23 21035 CFTR-Intron10-2152− CCUCUCUUUUUAUGUAACAAUAUG 24 21036 CFTR-Intron10-2153 −UGAGAUUAGAGGCCACUG 18 21037 CFTR-Intron10-2154 − UGCACAUAUGUUCAGACUG 1921038 CFTR-Intron10-2155 − UUGCACAUAUGUUCAGACUG 20 21039CFTR-Intron10-2156 − CUUGCACAUAUGUUCAGACUG 21 21040 CFTR-Intron10-2157 −ACUUGCACAUAUGUUCAGACUG 22 21041 CFTR-Intron10-2158 − UGUUAAAGAAUGACUGUG18 21042 CFTR-Intron10-2159 − UUGUUAAAGAAUGACUGUG 19 21043CFTR-Intron10-2160 − UUUGUUAAAGAAUGACUGUG 20 21044 CFTR-Intron10-492 −UGGCAUCUCACCAGUGUGUG 20 19378 CFTR-Intron10-2161 − AUGGCAUCUCACCAGUGUGUG21 21045 CFTR-Intron10-2162 − UAUGGCAUCUCACCAGUGUGUG 22 21046CFTR-Intron10-2163 − UUAUGGCAUCUCACCAGUGUGUG 23 21047 CFTR-Intron10-2164− CUUAUGGCAUCUCACCAGUGUGUG 24 21048 CFTR-Intron10-2165 −UGAGGAGAACCAUAUUUUG 19 21049 CFTR-Intron10-2166 − AUGAGGAGAACCAUAUUUUG20 21050 CFTR-Intron10-2167 − AGAUGAGGAGAACCAUAUUUUG 22 21051CFTR-Intron10-2168 − AAGAUGAGGAGAACCAUAUUUUG 23 21052 CFTR-Intron10-2169− UAAGAUGAGGAGAACCAUAUUUUG 24 21053 CFTR-Intron10-2170 −CCAUAAAUGUUGAAUAAU 18 21054 CFTR-Intron10-2171 − CCCAUAAAUGUUGAAUAAU 1921055 CFTR-Intron10-1331 − CCCCAUAAAUGUUGAAUAAU 20 20216CFTR-Intron10-2172 − AGCCCCAUAAAUGUUGAAUAAU 22 21056 CFTR-Intron10-2173− AGAUUUUUUCCCAUGUAAU 19 21057 CFTR-Intron10-2174 − CAGAUUUUUUCCCAUGUAAU20 21058 CFTR-Intron10-2175 − AUCACUAUUGAUUGACAU 18 21059CFTR-Intron10-2176 − AAUCACUAUUGAUUGACAU 19 21060 CFTR-Intron10-2177 −UGAAUCACUAUUGAUUGACAU 21 21061 CFTR-Intron10-2178 −AUGAAUCACUAUUGAUUGACAU 22 21062 CFTR-Intron10-2179 −AAUGAAUCACUAUUGAUUGACAU 23 21063 CFTR-Intron10-2180 −UAAUGAAUCACUAUUGAUUGACAU 24 21064 CFTR-Intron10-2181 −UAGUUUCUAUUAAUAGAU 18 21065 CFTR-Intron10-2182 − UGUAGUUUCUAUUAAUAGAU 2021066 CFTR-Intron10-2183 − CGUGUAGUUUCUAUUAAUAGAU 22 21067CFTR-Intron10-2184 − UCGUGUAGUUUCUAUUAAUAGAU 23 21068 CFTR-Intron10-2185− UUCGUGUAGUUUCUAUUAAUAGAU 24 21069 CFTR-Intron10-2186 −AGAAAGAGCUUUCUAGUAU 19 21070 CFTR-Intron10-2187 − AAAGCUGUGCAUUUUCCU 1821071 CFTR-Intron10-2188 − AAAAGCUGUGCAUUUUCCU 19 21072CFTR-Intron10-2189 − AAAAAGCUGUGCAUUUUCCU 20 21073 CFTR-Intron10-2190 −UGUUCAAAUUAUUUCUACUGCU 22 21074 CFTR-Intron10-2191 −UUGUUCAAAUUAUUUCUACUGCU 23 21075 CFTR-Intron10-2192 − UGUAGGCUAUAUGUAUCU18 21076 CFTR-Intron10-2193 − CUGUAGGCUAUAUGUAUCU 19 21077CFTR-Intron10-2194 − UCUGUAGGCUAUAUGUAUCU 20 21078 CFTR-Intron10-2195 −AGACUAAGGCUUAUUUCU 18 21079 CFTR-Intron10-2196 − AAGACUAAGGCUUAUUUCU 1921080 CFTR-Intron10-2197 − AAAGACUAAGGCUUAUUUCU 20 21081CFTR-Intron10-2198 − UAAAGACUAAGGCUUAUUUCU 21 21082 CFTR-Intron10-2199 −CGUAAAGACUAAGGCUUAUUUCU 23 21083 CFTR-Intron10-2200 −UCGUAAAGACUAAGGCUUAUUUCU 24 21084 CFTR-Intron10-2201 −AAGAAGAGAAAGGGGUGU 18 21085 CFTR-Intron10-2202 − UAAGAAGAGAAAGGGGUGU 1921086 CFTR-Intron10-1378 − AUAAGAAGAGAAAGGGGUGU 20 20262CFTR-Intron10-2203 − UGAUAAGAAGAGAAAGGGGUGU 22 21087 CFTR-Intron10-2204− UUGAUAAGAAGAGAAAGGGGUGU 23 21088 CFTR-Intron10-2205 −AGUUGUUAUCUCUGAAAUU 19 21089 CFTR-Intron10-2206 − AAGUUGUUAUCUCUGAAAUU20 21090 CFTR-Intron10-2207 − CAAGUUGUUAUCUCUGAAAUU 21 21091CFTR-Intron10-2208 − UCAAGUUGUUAUCUCUGAAAUU 22 21092 CFTR-Intron10-2209− AUCAAGUUGUUAUCUCUGAAAUU 23 21093 CFTR-Intron10-2210 −UAUCAAGUUGUUAUCUCUGAAAUU 24 21094 CFTR-Intron10-2211 −ACGGUAAGCUCAAGCAUU 18 21095 CFTR-Intron10-2212 − UACGGUAAGCUCAAGCAUU 1921096 CFTR-Intron10-2213 − UUACGGUAAGCUCAAGCAUU 20 21097CFTR-Intron10-2214 − AUUACGGUAAGCUCAAGCAUU 21 21098 CFTR-Intron10-2215 −UAUUACGGUAAGCUCAAGCAUU 22 21099 CFTR-Intron10-2216 −CUAUUACGGUAAGCUCAAGCAUU 23 21100 CFTR-Intron10-2217 − CUGCCUUUUAGUAGUAUU18 21101 CFTR-Intron10-2218 − AGGCUGCCUUUUAGUAGUAUU 21 21102CFTR-Intron10-2219 − AGGAGGCUGCCUUUUAGUAGUAUU 24 21103CFTR-Intron10-2220 − AGAUUAGCUUAUAUACUU 18 21104 CFTR-Intron10-2221 −UAGAUUAGCUUAUAUACUU 19 21105 CFTR-Intron10-550 − AUAGAUUAGCUUAUAUACUU 2019436 CFTR-Intron10-2222 − AAUAGAUUAGCUUAUAUACUU 21 21106CFTR-Intron10-2223 − UGAAUAGAUUAGCUUAUAUACUU 23 21107 CFTR-Intron10-2224− UUGAAUAGAUUAGCUUAUAUACUU 24 21108 CFTR-Intron10-2225 −UUUUCCAAGCGGUCCCUU 18 21109 CFTR-Intron10-2226 − UUUUUCCAAGCGGUCCCUU 1921110 CFTR-Intron10-2227 − UUUUUUCCAAGCGGUCCCUU 20 21111CFTR-Intron10-2228 − UUUUUUUCCAAGCGGUCCCUU 21 21112 CFTR-Intron10-2229 −UUUUUUUUCCAAGCGGUCCCUU 22 21113 CFTR-Intron10-2230 −AUUUUUUUUCCAAGCGGUCCCUU 23 21114 CFTR-Intron10-2231 −AAUUUUUUUUCCAAGCGGUCCCUU 24 21115 CFTR-Intron10-2232 −AGAGGAAGGCAGUGGUCCCUU 21 21116 CFTR-Intron10-2233 −UAGAGGAAGGCAGUGGUCCCUU 22 21117 CFTR-Intron10-2234 −UUAGAGGAAGGCAGUGGUCCCUU 23 21118 CFTR-Intron10-2235 −AGAUGUGCAAAAAUAGCUU 19 21119 CFTR-Intron10-552 − UAGAUGUGCAAAAAUAGCUU 2019438 CFTR-Intron10-2236 − AUAGAUGUGCAAAAAUAGCUU 21 21120CFTR-Intron10-2237 − UGAUAGAUGUGCAAAAAUAGCUU 23 21121 CFTR-Intron10-2238− AUGAUAGAUGUGCAAAAAUAGCUU 24 21122 CFTR-Intron10-2239 −ACAUGACCUUCCUUUCUU 18 21123 CFTR-Intron10-2240 − UACAUGACCUUCCUUUCUU 1921124 CFTR-Intron10-2241 − UUACAUGACCUUCCUUUCUU 20 21125CFTR-Intron10-2242 − UGUUACAUGACCUUCCUUUCUU 22 21126 CFTR-Intron10-2243− CUGUUACAUGACCUUCCUUUCUU 23 21127 CFTR-Intron10-2244 −UCUGUUACAUGACCUUCCUUUCUU 24 21128 CFTR-Intron10-2245 −UAAUGGGAGAAACAGGUU 18 21129 CFTR-Intron10-2246 − AUAAUGGGAGAAACAGGUU 1921130 CFTR-Intron10-2247 − AGCACUGGAGUUACCUGUU 19 21131CFTR-Intron10-2248 − UAGCACUGGAGUUACCUGUU 20 21132 CFTR-Intron10-2249 −AUAGCACUGGAGUUACCUGUU 21 21133 CFTR-Intron10-2250 −AAUAGCACUGGAGUUACCUGUU 22 21134 CFTR-Intron10-2251 −AAAUAGCACUGGAGUUACCUGUU 23 21135 CFTR-Intron10-2252 −UAAAUAGCACUGGAGUUACCUGUU 24 21136 CFTR-Intron10-2253 −CAAAUAGUUUUAUCAAUAUUU 21 21137 CFTR-Intron10-2254 −UGCAAAUAGUUUUAUCAAUAUUU 23 21138 CFTR-Intron10-2255 −CUGCAAAUAGUUUUAUCAAUAUUU 24 21139 CFTR-Intron10-2256 −UUGGAUGGAGCUUGGUUU 18 21140 CFTR-Intron10-2257 − UUUGGAUGGAGCUUGGUUU 1921141 CFTR-Intron10-563 − UUUUGGAUGGAGCUUGGUUU 20 19449CFTR-Intron10-2258 − AGGUUUUGGAUGGAGCUUGGUUU 23 21142 CFTR-Intron10-2259− CAGGUUUUGGAUGGAGCUUGGUUU 24 21143 CFTR-Intron10-2260 −UGUCCUCCACAAAUAUUUU 19 21144 CFTR-Intron10-2261 − AUGUCCUCCACAAAUAUUUU20 21145

Table 41C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within intron 10, start witha 5′G and PAM is NNGRRT. It is contemplated herein that in an embodimentthe targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 41C 3rd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-2262 + GUAAGACCUAAUCUCUAAA 19 21146CFTR-Intron10-2263 + GAGUAAGACCUAAUCUCUAAA 21 21147 CFTR-Intron10-2264 +GACAGAUGAGAGACAGUAAAGAA 23 21148 CFTR-Intron10-2265 +GGACAGAUGAGAGACAGUAAAGAA 24 21149 CFTR-Intron10-2266 +GUGUUCUCACAUGGCAGAA 19 21150 CFTR-Intron10-2267 + GCUGUGUUCUCACAUGGCAGAA22 21151 CFTR-Intron10-2268 + GUUCUUAGGGUGGGAUAUGGAGAA 24 21152CFTR-Intron10-2269 + GAAGAAAAGUAUCAAUAA 18 21153 CFTR-Intron10-2270 +GGAAGAAAAGUAUCAAUAA 19 21154 CFTR-Intron10-2271 + GUUUUUACCAUUAUCUACACA21 21155 CFTR-Intron10-2272 + GAUAUGGAGAAGAGGAUGACCA 22 21156CFTR-Intron10-2273 + GGAUAUGGAGAAGAGGAUGACCA 23 21157CFTR-Intron10-2274 + GGGAUAUGGAGAAGAGGAUGACCA 24 21158CFTR-Intron10-2275 + GAAGUUCAGCCUGGGUGA 18 21159 CFTR-Intron10-2276 +GCAAAAAUUACAGAACCUAUA 21 21160 CFTR-Intron10-2277 +GAAGCAAAAAUUACAGAACCUAUA 24 21161 CFTR-Intron10-2278 +GCUUCCUCCCUUGUCUCCCUA 21 21162 CFTR-Intron10-2279 +GUCUUCUCAGACUUUUAUUUUA 22 21163 CFTR-Intron10-2280 + GUUUCCAAAUUUUUUUUA18 21164 CFTR-Intron10-2281 + GACAAGUUUCCAAAUUUUUUUUA 23 21165CFTR-Intron10-2282 + GUGUGGCUUAUAAACAAC 18 21166 CFTR-Intron10-2283 +GAACUGUGUGGCUUAUAAACAAC 23 21167 CFTR-Intron10-2284 +GAAGAUACUAAAAAAAGUUAC 21 21168 CFTR-Intron10-2285 +GGAAGAUACUAAAAAAAGUUAC 22 21169 CFTR-Intron10-2286 +GGGAAGAUACUAAAAAAAGUUAC 23 21170 CFTR-Intron10-2287 + GAAAGGUCAAUUGAGCCC18 21171 CFTR-Intron10-2288 + GGAAAGGUCAAUUGAGCCC 19 21172CFTR-Intron10-2289 + GCGGAAAGGUCAAUUGAGCCC 21 21173 CFTR-Intron10-2290 +GAAGCGGAAAGGUCAAUUGAGCCC 24 21174 CFTR-Intron10-2291 +GCUACUUGGAAGACUCUUCC 20 21175 CFTR-Intron10-2292 +GAUCACACCACUGAAGUUCAGC 22 21176 CFTR-Intron10-2293 + GAGUUUCACUGUGUUAGC18 21177 CFTR-Intron10-2294 + GGAGUUUCACUGUGUUAGC 19 21178CFTR-Intron10-2295 + GACGGAGUUUCACUGUGUUAGC 22 21179CFTR-Intron10-2296 + GAGACGGAGUUUCACUGUGUUAGC 24 21180CFTR-Intron10-2297 + GUCUCACUCUGUCACCCAGGC 21 21181 CFTR-Intron10-2298 +GAGUCUCACUCUGUCACCCAGGC 23 21182 CFTR-Intron10-2299 +GCCUCUGCCUCCAAAAGUGC 20 21183 CFTR-Intron10-2300 +GCCAUUCUCCUGCCUCAGCCUC 22 21184 CFTR-Intron10-2301 +GCUCACUGCAAGUUCUGCCUC 21 21185 CFTR-Intron10-2302 +GGCUCACUGCAAGUUCUGCCUC 22 21186 CFTR-Intron10-2303 +GAUCUUCCUUCAAAGCAUGUC 21 21187 CFTR-Intron10-2304 +GGAUCUUCCUUCAAAGCAUGUC 22 21188 CFTR-Intron10-2305 +GUGAUAUUUUUCAUUAUGAUUC 22 21189 CFTR-Intron10-2306 +GGUGAUAUUUUUCAUUAUGAUUC 23 21190 CFTR-Intron10-2307 +GCUACUUGGGAGGCUGAGGCAG 22 21191 CFTR-Intron10-2308 +GCUACUUGGGAGGGUGAGGCAG 22 21192 CFTR-Intron10-701 + GUUUGUGUUUUUUGUAGAGG20 19587 CFTR-Intron10-2309 + GCACUUUGGGAGGCCGAGGCGG 22 21193CFTR-Intron10-2310 + GAACAAAAAUUAAAACUAAUGG 22 21194CFTR-Intron10-2311 + GUGAACAAAAAUUAAAACUAAUGG 24 21195CFTR-Intron10-2312 + GUAGUCCCAGCUACUUGG 18 21196 CFTR-Intron10-2313 +GCCUGUAGUCCCAGCUACUUGG 22 21197 CFTR-Intron10-2314 +GUGCCUGUAGUCCCAGCUACUUGG 24 21198 CFTR-Intron10-2315 +GCAAUACCAUCACCUUGGGAAU 22 21199 CFTR-Intron10-2316 + GAAUUAGGAUUUCAACAU18 21200 CFTR-Intron10-2317 + GGAAUUAGGAUUUCAACAU 19 21201CFTR-Intron10-2318 + GGGAAUUAGGAUUUCAACAU 20 21202 CFTR-Intron10-2319 +GAUCAAGGUGCCAGCAGAU 19 21203 CFTR-Intron10-2320 + GUGAUAGUUGCACAACUAU 1921204 CFTR-Intron10-2321 + GGUGAUAGUUGCACAACUAU 20 21205CFTR-Intron10-2322 + GAGGUGAUAGUUGCACAACUAU 22 21206CFTR-Intron10-2323 + GGAGGUGAUAGUUGCACAACUAU 23 21207CFTR-Intron10-2324 + GUUUAUUUACAUUUCUCUUUACU 23 21208CFTR-Intron10-2325 + GAAAAUGUUAAAUUUUCCCU 20 21209 CFTR-Intron10-2326 +GAAAUUUAAUUGCCAGUAAGUCU 23 21210 CFTR-Intron10-2327 +GUUCUCACAUGGCAGAAAGGGGU 23 21211 CFTR-Intron10-2328 +GCAUCACUAGUGGCACUUUGU 21 21212 CFTR-Intron10-2329 +GUGCAUCACUAGUGGCACUUUGU 23 21213 CFTR-Intron10-2330 +GACCCUUUAUCAACAUGAAGGUU 23 21214 CFTR-Intron10-2331 +GAAAUAUAGAUUUAAUCUUAUUU 23 21215 CFTR-Intron10-2332 +GGAAAUAUAGAUUUAAUCUUAUUU 24 21216 CFTR-Intron10-2333 +GUAUUUCUAGGCUAGACAGUUU 22 21217 CFTR-Intron10-2334 +GGUAUUUCUAGGCUAGACAGUUU 23 21218 CFTR-Intron10-2335 +GUUCAAGCCUGUAUUGUUU 19 21219 CFTR-Intron10-2336 + GCAGUUCAAGCCUGUAUUGUUU22 21220 CFTR-Intron10-2337 − GAAUAUUUAAACACUUCUGAGAAA 24 21221CFTR-Intron10-2338 − GACAUGCUUUGAAGGAAGAUCCAA 24 21222CFTR-Intron10-2339 − GAACCAUAUUUUGAAGAA 18 21223 CFTR-Intron10-2340 −GAGAACCAUAUUUUGAAGAA 20 21224 CFTR-Intron10-2341 − GUAUAUUAUAGAAAUUUAA19 21225 CFTR-Intron10-2342 − GGUAUAUUAUAGAAAUUUAA 20 21226CFTR-Intron10-2343 − GACAGGUAUAUUAUAGAAAUUUAA 24 21227CFTR-Intron10-2344 − GUGGAUUUUUGACUAUACA 19 21228 CFTR-Intron10-2345 −GAGGUCACUGAGGCUGGCA 19 21229 CFTR-Intron10-2346 − GGAGGUCACUGAGGCUGGCA20 21230 CFTR-Intron10-2347 − GUAAGGAGGUCACUGAGGCUGGCA 24 21231CFTR-Intron10-2348 − GAUAUGAAGUUAAAAACAUCA 21 21232 CFTR-Intron10-2349 −GAGAUAUGAAGUUAAAAACAUCA 23 21233 CFTR-Intron10-2350 −GGAGAUAUGAAGUUAAAAACAUCA 24 21234 CFTR-Intron10-2351 −GACCAGAAUGAAAUUAGA 18 21235 CFTR-Intron10-2352 − GAUGAUUCCAAGCUUUCUGGA21 21236 CFTR-Intron10-2353 − GAAAUAAAUUUAAAGACAUGA 21 21237CFTR-Intron10-2354 − GGAAAUAAAUUUAAAGACAUGA 22 21238 CFTR-Intron10-2355− GAGGAAAUAAAUUUAAAGACAUGA 24 21239 CFTR-Intron10-2356 −GAGAAGACAAAGCUAGUGA 19 21240 CFTR-Intron10-2357 −GUCUGAGAAGACAAAGCUAGUGA 23 21241 CFTR-Intron10-2358 − GCACUCUAGCCUGGGUGA18 21242 CFTR-Intron10-2359 − GCCACUGCACUCUAGCCUGGGUGA 24 21243CFTR-Intron10-2360 − GCACCCCUAACCUUCAUGUUGAUA 24 21244CFTR-Intron10-2361 − GACUUGCAGGAGGUGAGGGAUUA 23 21245 CFTR-Intron10-2362− GCCAAUAAAAGGUUUGUUA 19 21246 CFTR-Intron10-2363 − GCAUAUAUAUAUUUUUAAC19 21247 CFTR-Intron10-2364 − GUGGAGUCAAAAAUUAUAC 19 21248CFTR-Intron10-2365 − GUUUAGUGCAAUGCCAUAAACC 22 21249 CFTR-Intron10-2366− GAAAAAGUAAGAUAUGCC 18 21250 CFTR-Intron10-2367 − GGUGAAUUGCUUGAGUCC 1821251 CFTR-Intron10-2368 − GCAGGUGAAUUGCUUGAGUCC 21 21252CFTR-Intron10-2369 − GGCAGGUGAAUUGCUUGAGUCC 22 21253 CFTR-Intron10-2370− GAGGCAGGUGAAUUGCUUGAGUCC 24 21254 CFTR-Intron10-2371 −GAAAACAAAUUUUCUUUGUUUUCC 24 21255 CFTR-Intron10-2372 −GCGCCACUGCACUCUAGC 18 21256 CFTR-Intron10-2373 − GAUCGCGCCACUGCACUCUAGC22 21257 CFTR-Intron10-2374 − GAGAUCGCGCCACUGCACUCUAGC 24 21258CFTR-Intron10-2375 − GGGUUUCACCGUUUUAGC 18 21259 CFTR-Intron10-2376 −GGGGUUUCACCGUUUUAGC 19 21260 CFTR-Intron10-2377 − GACGGGGUUUCACCGUUUUAGC22 21261 CFTR-Intron10-2378 − GAGACGGGGUUUCACCGUUUUAGC 24 21262CFTR-Intron10-2379 − GUCUCGCUCUGUCGCCCAGGC 21 21263 CFTR-Intron10-2380 −GAGUCUCGCUCUGUCGCCCAGGC 23 21264 CFTR-Intron10-2381 −GGAGUCUCGCUCUGUCGCCCAGGC 24 21265 CFTR-Intron10-2382 −GGGUUUCACCAUGUUGGC 18 21266 CFTR-Intron10-2383 − GGGGUUUCACCAUGUUGGC 1921267 CFTR-Intron10-2384 − GACGGGGUUUCACCAUGUUGGC 22 21268CFTR-Intron10-2385 − GAGACGGGGUUUCACCAUGUUGGC 24 21269 CFTR-Intron10-686− GCCUCGGCCUCCCAAAGUGC 20 19572 CFTR-Intron10-2386 −GCCCGCCUCGGCCUCCCAAAGUGC 24 21270 CFTR-Intron10-2387 −GCAGAGGCAGGUGAAUUGC 19 21271 CFTR-Intron10-2388 − GGCAGAGGCAGGUGAAUUGC20 21272 CFTR-Intron10-2389 − GAGGCAGAGGCAGGUGAAUUGC 22 21273CFTR-Intron10-2390 − GGAGGCAGAGGCAGGUGAAUUGC 23 21274 CFTR-Intron10-2391− GCUCACUGCAAGCUCCGCCUC 21 21275 CFTR-Intron10-2392 −GGCUCACUGCAAGCUCCGCCUC 22 21276 CFTR-Intron10-2393 −GUUGUAACAGUACAAGAAAAAAG 23 21277 CFTR-Intron10-2394 −GCUUUGCCAUUAACAGAUAAAG 22 21278 CFTR-Intron10-2395 −GCACUUUUGGAGGCAGAGGCAG 22 21279 CFTR-Intron10-2396 −GCUACUCGGGAGGCUGAGGCAG 22 21280 CFTR-Intron10-2397 −GACAAGGGAGGAAGCAAGGAG 21 21281 CFTR-Intron10-2398 −GAGACAAGGGAGGAAGCAAGGAG 23 21282 CFTR-Intron10-2399 −GGAGACAAGGGAGGAAGCAAGGAG 24 21283 CFTR-Intron10-2400 −GACAUCCAAAUAGAGAUGUUAG 22 21284 CFTR-Intron10-2401 −GCAUAGAGUAAGACAGGGAGGG 22 21285 CFTR-Intron10-2402 −GGCAUAGAGUAAGACAGGGAGGG 23 21286 CFTR-Intron10-2403 −GCAUAGUAUUCUAUCAUAUGG 21 21287 CFTR-Intron10-2404 −GAUGCAUAGUAUUCUAUCAUAUGG 24 21288 CFTR-Intron10-2405 −GCUUUCUGGACUGAGUAACUGG 22 21289 CFTR-Intron10-2406 − GUAUAUAUGUGUGUCUGG18 21290 CFTR-Intron10-2407 − GUAUGUAUAUAUGUGUGUCUGG 22 21291CFTR-Intron10-2408 − GCCCAGGCUGGAGUGCAGUGG 21 21292 CFTR-Intron10-2409 −GUCGCCCAGGCUGGAGUGCAGUGG 24 21293 CFTR-Intron10-2410 −GCUACUUGGGAGGCUGAGGUGG 22 21294 CFTR-Intron10-2411 −GGUGGGGGAGCCCCAUAAAUG 21 21295 CFTR-Intron10-2412 −GGGUGGGGGAGCCCCAUAAAUG 22 21296 CFTR-Intron10-2413 −GGGUGAGAUUAGAGGCCACUG 21 21297 CFTR-Intron10-2414 − GCUUCAGCCUCCCAAAGUG19 21298 CFTR-Intron10-2415 − GAACAAAGACUUGCAGGAGGUG 22 21299CFTR-Intron10-2416 − GUUUGUUAAAGAAUGACUGUG 21 21300 CFTR-Intron10-2417 −GGUUUGUUAAAGAAUGACUGUG 22 21301 CFTR-Intron10-2418 −GCUAUUAGUAGUUAAGUUUUUG 22 21302 CFTR-Intron10-2419 −GGCUAUUAGUAGUUAAGUUUUUG 23 21303 CFTR-Intron10-2420 − GGGAGGUGAUUAGUCCAU18 21304 CFTR-Intron10-2421 − GCCUUUGGGAGGUGAUUAGUCCAU 24 21305CFTR-Intron10-2422 − GAUGCAUAGUAUUCUAUCAU 20 21306 CFTR-Intron10-2423 −GAUGAGAAAGAGCUUUCUAGUAU 23 21307 CFTR-Intron10-2424 −GUCUGUAGGCUAUAUGUAUCU 21 21308 CFTR-Intron10-716 − GCCUCGGCCUCCCAAAGUGU20 19602 CFTR-Intron10-2425 − GCCUGCCUCGGCCUCCCAAAGUGU 24 21309CFTR-Intron10-2426 − GGAAGGCAGUGGUCCCUU 18 21310 CFTR-Intron10-127 −GAGGAAGGCAGUGGUCCCUU 20 19013 CFTR-Intron10-2427 − GAAGCAAGGAGAUGAGUU 1821311 CFTR-Intron10-2428 − GGAAGCAAGGAGAUGAGUU 19 21312CFTR-Intron10-2429 − GAGGAAGCAAGGAGAUGAGUU 21 21313 CFTR-Intron10-2430 −GGAGGAAGCAAGGAGAUGAGUU 22 21314 CFTR-Intron10-2431 −GGGAGGAAGCAAGGAGAUGAGUU 23 21315 CFTR-Intron10-2432 −GAAAGAUAAUGGGAGAAACAGGUU 24 21316 CFTR-Intron10-2433 −GCAUGGGUCCACUUAUUU 18 21317 CFTR-Intron10-2434 − GAACUGCAUGGGUCCACUUAUUU23 21318 CFTR-Intron10-2435 − GCUUUUUUGUUGUUUUUCUAGUUU 24 21319CFTR-Intron10-2436 − GUUAAUACAUUGGAAAAUUUU 21 21320 CFTR-Intron10-2437 −GUAUGUCCUCCACAAAUAUUUU 22 21321

Table 41D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within intron 10, and PAM isNNGRRT. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 41D 4th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-2438 + CAAAAAAGCGAAGAAAAA 18 21322CFTR-Intron10-2439 + ACAAAAAAGCGAAGAAAAA 19 21323 CFTR-Intron10-2440 +AACAAAAAAGCGAAGAAAAA 20 21324 CFTR-Intron10-2441 + CAACAAAAAAGCGAAGAAAAA21 21325 CFTR-Intron10-2442 + ACAACAAAAAAGCGAAGAAAAA 22 21326CFTR-Intron10-2443 + AACAACAAAAAAGCGAAGAAAAA 23 21327CFTR-Intron10-2444 + AAACAACAAAAAAGCGAAGAAAAA 24 21328CFTR-Intron10-2445 + AUACAUAUGAUUUUAUGAAAA 21 21329 CFTR-Intron10-2446 +CAUACAUAUGAUUUUAUGAAAA 22 21330 CFTR-Intron10-2447 +ACAUACAUAUGAUUUUAUGAAAA 23 21331 CFTR-Intron10-2448 +UACAUACAUAUGAUUUUAUGAAAA 24 21332 CFTR-Intron10-2449 +AGAUAAUACUACUGACUAAAA 21 21333 CFTR-Intron10-2450 +AAGAUAAUACUACUGACUAAAA 22 21334 CFTR-Intron10-2451 +AAAGAUAAUACUACUGACUAAAA 23 21335 CFTR-Intron10-2452 +AAAAGAUAAUACUACUGACUAAAA 24 21336 CFTR-Intron10-2453 +AUAAACAAACAAAGGAAA 18 21337 CFTR-Intron10-2454 + AAUAAACAAACAAAGGAAA 1921338 CFTR-Intron10-1097 + AAAUAAACAAACAAAGGAAA 20 19982CFTR-Intron10-2455 + CAAAUAAACAAACAAAGGAAA 21 21339 CFTR-Intron10-2456 +CCAAAUAAACAAACAAAGGAAA 22 21340 CFTR-Intron10-2457 +ACCAAAUAAACAAACAAAGGAAA 23 21341 CFTR-Intron10-2458 +AACCAAAUAAACAAACAAAGGAAA 24 21342 CFTR-Intron10-2459 +UAAGACCUAAUCUCUAAA 18 21343 CFTR-Intron10-2460 + AGUAAGACCUAAUCUCUAAA 2021344 CFTR-Intron10-2461 + AGAGUAAGACCUAAUCUCUAAA 22 21345CFTR-Intron10-2462 + CAGAGUAAGACCUAAUCUCUAAA 23 21346CFTR-Intron10-2463 + ACAGAGUAAGACCUAAUCUCUAAA 24 21347CFTR-Intron10-2464 + CAGAUGAGAGACAGUAAAGAA 21 21348 CFTR-Intron10-2465 +ACAGAUGAGAGACAGUAAAGAA 22 21349 CFTR-Intron10-2466 + UGUUCUCACAUGGCAGAA18 21350 CFTR-Intron10-1106 + UGUGUUCUCACAUGGCAGAA 20 19991CFTR-Intron10-2467 + CUGUGUUCUCACAUGGCAGAA 21 21351 CFTR-Intron10-2468 +UGCUGUGUUCUCACAUGGCAGAA 23 21352 CFTR-Intron10-2469 +CUGCUGUGUUCUCACAUGGCAGAA 24 21353 CFTR-Intron10-2470 +CUUAGGGUGGGAUAUGGAGAA 21 21354 CFTR-Intron10-2471 +UCUUAGGGUGGGAUAUGGAGAA 22 21355 CFTR-Intron10-2472 +UUCUUAGGGUGGGAUAUGGAGAA 23 21356 CFTR-Intron10-1110 +AGGAAGAAAAGUAUCAAUAA 20 19995 CFTR-Intron10-2473 + CAGGAAGAAAAGUAUCAAUAA21 21357 CFTR-Intron10-2474 + UCAGGAAGAAAAGUAUCAAUAA 22 21358CFTR-Intron10-2475 + AUCAGGAAGAAAAGUAUCAAUAA 23 21359CFTR-Intron10-2476 + AAUCAGGAAGAAAAGUAUCAAUAA 24 21360CFTR-Intron10-2477 + AGUUUUUACCAUUAUCUACACA 22 21361CFTR-Intron10-2478 + AAGUUUUUACCAUUAUCUACACA 23 21362CFTR-Intron10-2479 + CAAGUUUUUACCAUUAUCUACACA 24 21363CFTR-Intron10-2480 + AUAUGGAGAAGAGGAUGACCA 21 21364 CFTR-Intron10-2481 +AAAAGAGACACACCUAAAGCA 21 21365 CFTR-Intron10-2482 +UAAAAGAGACACACCUAAAGCA 22 21366 CFTR-Intron10-2483 +CUAAAAGAGACACACCUAAAGCA 23 21367 CFTR-Intron10-2484 +ACUAAAAGAGACACACCUAAAGCA 24 21368 CFTR-Intron10-2485 +CAAUAGUGAUUCAUUAUAUCA 21 21369 CFTR-Intron10-2486 +UCAAUAGUGAUUCAUUAUAUCA 22 21370 CFTR-Intron10-2487 +AUCAAUAGUGAUUCAUUAUAUCA 23 21371 CFTR-Intron10-2488 +AAUCAAUAGUGAUUCAUUAUAUCA 24 21372 CFTR-Intron10-2489 +UUGUAUUUUUAGUAGAGA 18 21373 CFTR-Intron10-2490 + UUUGUAUUUUUAGUAGAGA 1921374 CFTR-Intron10-1141 + UUUUGUAUUUUUAGUAGAGA 20 20026CFTR-Intron10-2491 + UUUUUGUAUUUUUAGUAGAGA 21 21375 CFTR-Intron10-2492 +UUUUUUGUAUUUUUAGUAGAGA 22 21376 CFTR-Intron10-2493 +AUUUUUUGUAUUUUUAGUAGAGA 23 21377 CFTR-Intron10-2494 +AAUUUUUUGUAUUUUUAGUAGAGA 24 21378 CFTR-Intron10-2495 +UAUUUAUUUAUUUAGAGA 18 21379 CFTR-Intron10-2496 + UUAUUUAUUUAUUUAGAGA 1921380 CFTR-Intron10-2497 + UUUAUUUAUUUAUUUAGAGA 20 21381CFTR-Intron10-2498 + AUUUAUUUAUUUAUUUAGAGA 21 21382 CFTR-Intron10-2499 +UAUUUAUUUAUUUAUUUAGAGA 22 21383 CFTR-Intron10-2500 +UUAUUUAUUUAUUUAUUUAGAGA 23 21384 CFTR-Intron10-2501 +UUUAUUUAUUUAUUUAUUUAGAGA 24 21385 CFTR-Intron10-2502 +ACUAAAAGGCAGCCUCCUAGA 21 21386 CFTR-Intron10-2503 +UACUAAAAGGCAGCCUCCUAGA 22 21387 CFTR-Intron10-2504 +CUACUAAAAGGCAGCCUCCUAGA 23 21388 CFTR-Intron10-2505 +ACUACUAAAAGGCAGCCUCCUAGA 24 21389 CFTR-Intron10-2506 +UGAAGUUCAGCCUGGGUGA 19 21390 CFTR-Intron10-2507 + CUGAAGUUCAGCCUGGGUGA20 21391 CFTR-Intron10-2508 + ACUGAAGUUCAGCCUGGGUGA 21 21392CFTR-Intron10-2509 + CACUGAAGUUCAGCCUGGGUGA 22 21393CFTR-Intron10-2510 + CCACUGAAGUUCAGCCUGGGUGA 23 21394CFTR-Intron10-2511 + ACCACUGAAGUUCAGCCUGGGUGA 24 21395CFTR-Intron10-2512 + CAAAUUACCAAAUUGUAUUGA 21 21396 CFTR-Intron10-2513 +ACAAAUUACCAAAUUGUAUUGA 22 21397 CFTR-Intron10-2514 +UACAAAUUACCAAAUUGUAUUGA 23 21398 CFTR-Intron10-2515 +AUACAAAUUACCAAAUUGUAUUGA 24 21399 CFTR-Intron10-2516 +AGCAAAAAUUACAGAACCUAUA 22 21400 CFTR-Intron10-2517 +AAGCAAAAAUUACAGAACCUAUA 23 21401 CFTR-Intron10-2518 +UUUGUUACAACAGUCUUUAUA 21 21402 CFTR-Intron10-2519 +UUUUGUUACAACAGUCUUUAUA 22 21403 CFTR-Intron10-2520 +CUUUUGUUACAACAGUCUUUAUA 23 21404 CFTR-Intron10-2521 +UCUUUUGUUACAACAGUCUUUAUA 24 21405 CFTR-Intron10-2522 +UGCUUCCUCCCUUGUCUCCCUA 22 21406 CFTR-Intron10-2523 +UUGCUUCCUCCCUUGUCUCCCUA 23 21407 CFTR-Intron10-2524 +CUUGCUUCCUCCCUUGUCUCCCUA 24 21408 CFTR-Intron10-2525 +CCUUUGUACAUUUUCCUA 18 21409 CFTR-Intron10-2526 + UCCUUUGUACAUUUUCCUA 1921410 CFTR-Intron10-2527 + AUCCUUUGUACAUUUUCCUA 20 21411CFTR-Intron10-2528 + AAUCCUUUGUACAUUUUCCUA 21 21412 CFTR-Intron10-2529 +CAAUCCUUUGUACAUUUUCCUA 22 21413 CFTR-Intron10-2530 +UCAAUCCUUUGUACAUUUUCCUA 23 21414 CFTR-Intron10-2531 +UUCAAUCCUUUGUACAUUUUCCUA 24 21415 CFTR-Intron10-2532 +AGAUAAAAUUAUAAAUUA 18 21416 CFTR-Intron10-2533 + AAGAUAAAAUUAUAAAUUA 1921417 CFTR-Intron10-2534 + AAAGAUAAAAUUAUAAAUUA 20 21418CFTR-Intron10-2535 + UAAAGAUAAAAUUAUAAAUUA 21 21419 CFTR-Intron10-2536 +AUAAAGAUAAAAUUAUAAAUUA 22 21420 CFTR-Intron10-2537 +AAUAAAGAUAAAAUUAUAAAUUA 23 21421 CFTR-Intron10-2538 +UAAUAAAGAUAAAAUUAUAAAUUA 24 21422 CFTR-Intron10-2539 +UCUCAGACUUUUAUUUUA 18 21423 CFTR-Intron10-2540 + UUCUCAGACUUUUAUUUUA 1921424 CFTR-Intron10-2541 + CUUCUCAGACUUUUAUUUUA 20 21425CFTR-Intron10-2542 + UCUUCUCAGACUUUUAUUUUA 21 21426 CFTR-Intron10-2543 +UGUCUUCUCAGACUUUUAUUUUA 23 21427 CFTR-Intron10-2544 +UUGUCUUCUCAGACUUUUAUUUUA 24 21428 CFTR-Intron10-2545 +AGUUUCCAAAUUUUUUUUA 19 21429 CFTR-Intron10-2546 + AAGUUUCCAAAUUUUUUUUA20 21430 CFTR-Intron10-2547 + CAAGUUUCCAAAUUUUUUUUA 21 21431CFTR-Intron10-2548 + ACAAGUUUCCAAAUUUUUUUUA 22 21432CFTR-Intron10-2549 + AGACAAGUUUCCAAAUUUUUUUUA 24 21433CFTR-Intron10-2550 + UGUGUGGCUUAUAAACAAC 19 21434 CFTR-Intron10-1180 +CUGUGUGGCUUAUAAACAAC 20 20065 CFTR-Intron10-2551 + ACUGUGUGGCUUAUAAACAAC21 21435 CFTR-Intron10-2552 + AACUGUGUGGCUUAUAAACAAC 22 21436CFTR-Intron10-2553 + UGAACUGUGUGGCUUAUAAACAAC 24 21437CFTR-Intron10-2554 + UGGGAAGAUACUAAAAAAAGUUAC 24 21438CFTR-Intron10-1194 + CGGAAAGGUCAAUUGAGCCC 20 20079 CFTR-Intron10-2555 +AGCGGAAAGGUCAAUUGAGCCC 22 21439 CFTR-Intron10-2556 +AAGCGGAAAGGUCAAUUGAGCCC 23 21440 CFTR-Intron10-2557 + UACUUGGAAGACUCUUCC18 21441 CFTR-Intron10-2558 + CUACUUGGAAGACUCUUCC 19 21442CFTR-Intron10-2559 + UGCUACUUGGAAGACUCUUCC 21 21443 CFTR-Intron10-2560 +CUGCUACUUGGAAGACUCUUCC 22 21444 CFTR-Intron10-2561 +CCUGCUACUUGGAAGACUCUUCC 23 21445 CFTR-Intron10-2562 +ACCUGCUACUUGGAAGACUCUUCC 24 21446 CFTR-Intron10-2563 +ACACCACUGAAGUUCAGC 18 21447 CFTR-Intron10-2564 + CACACCACUGAAGUUCAGC 1921448 CFTR-Intron10-2565 + UCACACCACUGAAGUUCAGC 20 21449CFTR-Intron10-2566 + AUCACACCACUGAAGUUCAGC 21 21450 CFTR-Intron10-2567 +UGAUCACACCACUGAAGUUCAGC 23 21451 CFTR-Intron10-2568 +AUGAUCACACCACUGAAGUUCAGC 24 21452 CFTR-Intron10-2569 +CGGAGUUUCACUGUGUUAGC 20 21453 CFTR-Intron10-2570 + ACGGAGUUUCACUGUGUUAGC21 21454 CFTR-Intron10-2571 + AGACGGAGUUUCACUGUGUUAGC 23 21455CFTR-Intron10-2572 + UCACUCUGUCACCCAGGC 18 21456 CFTR-Intron10-2573 +CUCACUCUGUCACCCAGGC 19 21457 CFTR-Intron10-2574 + UCUCACUCUGUCACCCAGGC20 21458 CFTR-Intron10-2575 + AGUCUCACUCUGUCACCCAGGC 22 21459CFTR-Intron10-2576 + AGAGUCUCACUCUGUCACCCAGGC 24 21460CFTR-Intron10-2577 + UUUUGAGCCUAUCACCUAGGC 21 21461 CFTR-Intron10-2578 +UUUUUGAGCCUAUCACCUAGGC 22 21462 CFTR-Intron10-2579 +UUUUUUGAGCCUAUCACCUAGGC 23 21463 CFTR-Intron10-2580 +UUUUUUUGAGCCUAUCACCUAGGC 24 21464 CFTR-Intron10-2581 +CUCUGCCUCCAAAAGUGC 18 21465 CFTR-Intron10-2582 + CCUCUGCCUCCAAAAGUGC 1921466 CFTR-Intron10-2583 + UGCCUCUGCCUCCAAAAGUGC 21 21467CFTR-Intron10-2584 + CUGCCUCUGCCUCCAAAAGUGC 22 21468CFTR-Intron10-2585 + CCUGCCUCUGCCUCCAAAAGUGC 23 21469CFTR-Intron10-2586 + ACCUGCCUCUGCCUCCAAAAGUGC 24 21470CFTR-Intron10-2587 + UUCUCCUGCCUCAGCCUC 18 16501 CFTR-Intron10-2588 +AUUCUCCUGCCUCAGCCUC 19 16502 CFTR-Intron10-2589 + CAUUCUCCUGCCUCAGCCUC20 21471 CFTR-Intron10-2590 + CCAUUCUCCUGCCUCAGCCUC 21 21472CFTR-Intron10-2591 + CGCCAUUCUCCUGCCUCAGCCUC 23 21473CFTR-Intron10-2592 + ACGCCAUUCUCCUGCCUCAGCCUC 24 21474CFTR-Intron10-2593 + CACUGCAAGUUCUGCCUC 18 21475 CFTR-Intron10-2594 +UCACUGCAAGUUCUGCCUC 19 21476 CFTR-Intron10-2595 + CUCACUGCAAGUUCUGCCUC20 21477 CFTR-Intron10-2596 + CGGCUCACUGCAAGUUCUGCCUC 23 21478CFTR-Intron10-2597 + UCGGCUCACUGCAAGUUCUGCCUC 24 21479CFTR-Intron10-2598 + UAUUGCUUUCAUUAAGUC 18 21480 CFTR-Intron10-2599 +CUAUUGCUUUCAUUAAGUC 19 21481 CFTR-Intron10-2600 + ACUAUUGCUUUCAUUAAGUC20 21482 CFTR-Intron10-2601 + CUUCCUUCAAAGCAUGUC 18 21483CFTR-Intron10-2602 + UCUUCCUUCAAAGCAUGUC 19 21484 CFTR-Intron10-2603 +AUCUUCCUUCAAAGCAUGUC 20 21485 CFTR-Intron10-2604 +UGGAUCUUCCUUCAAAGCAUGUC 23 21486 CFTR-Intron10-2605 +UUGGAUCUUCCUUCAAAGCAUGUC 24 21487 CFTR-Intron10-2606 +UGAUAUUUUUCAUUAUGAUUC 21 21488 CFTR-Intron10-2607 +UGGUGAUAUUUUUCAUUAUGAUUC 24 21489 CFTR-Intron10-2608 +CUUGGGAGGCUGAGGCAG 18 21490 CFTR-Intron10-2609 + ACUUGGGAGGCUGAGGCAG 1921491 CFTR-Intron10-2610 + UACUUGGGAGGCUGAGGCAG 20 21492CFTR-Intron10-2611 + CUACUUGGGAGGCUGAGGCAG 21 21493 CFTR-Intron10-2612 +AGCUACUUGGGAGGCUGAGGCAG 23 21494 CFTR-Intron10-2613 +CAGCUACUUGGGAGGCUGAGGCAG 24 21495 CFTR-Intron10-2614 +CUUGGGAGGGUGAGGCAG 18 21496 CFTR-Intron10-2615 + ACUUGGGAGGGUGAGGCAG 1921497 CFTR-Intron10-2616 + UACUUGGGAGGGUGAGGCAG 20 21498CFTR-Intron10-2617 + CUACUUGGGAGGGUGAGGCAG 21 21499 CFTR-Intron10-2618 +AGCUACUUGGGAGGGUGAGGCAG 23 21500 CFTR-Intron10-2619 +CAGCUACUUGGGAGGGUGAGGCAG 24 21501 CFTR-Intron10-2620 +UAAAAAUACAAAAAUUAG 18 21502 CFTR-Intron10-2621 + CUAAAAAUACAAAAAUUAG 1921503 CFTR-Intron10-2622 + ACUAAAAAUACAAAAAUUAG 20 21504CFTR-Intron10-2623 + UACUAAAAAUACAAAAAUUAG 21 21505 CFTR-Intron10-2624 +CUACUAAAAAUACAAAAAUUAG 22 21506 CFTR-Intron10-2625 +UCUACUAAAAAUACAAAAAUUAG 23 21507 CFTR-Intron10-2626 +CUCUACUAAAAAUACAAAAAUUAG 24 21508 CFTR-Intron10-2627 +UGAUCUUGAAGACAUACG 18 21509 CFTR-Intron10-2628 + UUGAUCUUGAAGACAUACG 1921510 CFTR-Intron10-2629 + AUUGAUCUUGAAGACAUACG 20 21511CFTR-Intron10-2630 + UUGUGUUUUUUGUAGAGG 18 21512 CFTR-Intron10-2631 +UUUGUGUUUUUUGUAGAGG 19 21513 CFTR-Intron10-2632 + UGUUUGUGUUUUUUGUAGAGG21 21514 CFTR-Intron10-2633 + UUGUUUGUGUUUUUUGUAGAGG 22 21515CFTR-Intron10-2634 + UUUGUUUGUGUUUUUUGUAGAGG 23 21516CFTR-Intron10-2635 + UUUUGUUUGUGUUUUUUGUAGAGG 24 21517CFTR-Intron10-2636 + UUUGGGAGGCCGAGGCGG 18 21518 CFTR-Intron10-2637 +CUUUGGGAGGCCGAGGCGG 19 21519 CFTR-Intron10-2638 + ACUUUGGGAGGCCGAGGCGG20 21520 CFTR-Intron10-2639 + CACUUUGGGAGGCCGAGGCGG 21 21521CFTR-Intron10-2640 + AGCACUUUGGGAGGCCGAGGCGG 23 21522CFTR-Intron10-2641 + CAGCACUUUGGGAGGCCGAGGCGG 24 21523CFTR-Intron10-2642 + AAAAAUUAAAACUAAUGG 18 21524 CFTR-Intron10-2643 +CAAAAAUUAAAACUAAUGG 19 21525 CFTR-Intron10-2644 + ACAAAAAUUAAAACUAAUGG20 21526 CFTR-Intron10-2645 + AACAAAAAUUAAAACUAAUGG 21 21527CFTR-Intron10-2646 + UGAACAAAAAUUAAAACUAAUGG 23 21528CFTR-Intron10-2647 + CUUUAACAAACCUUUUAUUGG 21 21529 CFTR-Intron10-2648 +UCUUUAACAAACCUUUUAUUGG 22 21530 CFTR-Intron10-2649 +UUCUUUAACAAACCUUUUAUUGG 23 21531 CFTR-Intron10-2650 +AUUCUUUAACAAACCUUUUAUUGG 24 21532 CFTR-Intron10-2651 +UGUAGUCCCAGCUACUUGG 19 21533 CFTR-Intron10-2652 + CUGUAGUCCCAGCUACUUGG20 21534 CFTR-Intron10-2653 + CCUGUAGUCCCAGCUACUUGG 21 21535CFTR-Intron10-2654 + UGCCUGUAGUCCCAGCUACUUGG 23 21536CFTR-Intron10-2655 + AAAGGAAAUGGGGUAUAAGUG 21 21537 CFTR-Intron10-2656 +CAAAGGAAAUGGGGUAUAAGUG 22 21538 CFTR-Intron10-2657 +ACAAAGGAAAUGGGGUAUAAGUG 23 21539 CFTR-Intron10-2658 +AACAAAGGAAAUGGGGUAUAAGUG 24 21540 CFTR-Intron10-2659 +ACUACUAAUAGCCUAUUG 18 21541 CFTR-Intron10-2660 + AACUACUAAUAGCCUAUUG 1921542 CFTR-Intron10-2661 + UAACUACUAAUAGCCUAUUG 20 21543CFTR-Intron10-2662 + UUAACUACUAAUAGCCUAUUG 21 21544 CFTR-Intron10-2663 +CUUAACUACUAAUAGCCUAUUG 22 21545 CFTR-Intron10-2664 +ACUUAACUACUAAUAGCCUAUUG 23 21546 CFTR-Intron10-2665 +AACUUAACUACUAAUAGCCUAUUG 24 21547 CFTR-Intron10-2666 +UAAAACUAAUGGCAGAAU 18 21548 CFTR-Intron10-2667 + UUAAAACUAAUGGCAGAAU 1921549 CFTR-Intron10-2668 + AUUAAAACUAAUGGCAGAAU 20 21550CFTR-Intron10-2669 + AAUUAAAACUAAUGGCAGAAU 21 21551 CFTR-Intron10-2670 +AAAUUAAAACUAAUGGCAGAAU 22 21552 CFTR-Intron10-2671 +AAAAUUAAAACUAAUGGCAGAAU 23 21553 CFTR-Intron10-2672 +AAAAAUUAAAACUAAUGGCAGAAU 24 21554 CFTR-Intron10-2673 +UACCAUCACCUUGGGAAU 18 21555 CFTR-Intron10-2674 + AUACCAUCACCUUGGGAAU 1921556 CFTR-Intron10-2675 + AAUACCAUCACCUUGGGAAU 20 21557CFTR-Intron10-2676 + CAAUACCAUCACCUUGGGAAU 21 21558 CFTR-Intron10-2677 +UGCAAUACCAUCACCUUGGGAAU 23 21559 CFTR-Intron10-2678 +CUGCAAUACCAUCACCUUGGGAAU 24 21560 CFTR-Intron10-2679 +UGGGAAUUAGGAUUUCAACAU 21 21561 CFTR-Intron10-2680 +UUGGGAAUUAGGAUUUCAACAU 22 21562 CFTR-Intron10-2681 +CUUGGGAAUUAGGAUUUCAACAU 23 21563 CFTR-Intron10-2682 +CCUUGGGAAUUAGGAUUUCAACAU 24 21564 CFTR-Intron10-2683 +AUCAAGGUGCCAGCAGAU 18 21565 CFTR-Intron10-2684 + AGAUCAAGGUGCCAGCAGAU 2021566 CFTR-Intron10-2685 + AAGAUCAAGGUGCCAGCAGAU 21 21567CFTR-Intron10-2686 + CAAGAUCAAGGUGCCAGCAGAU 22 21568CFTR-Intron10-2687 + CCAAGAUCAAGGUGCCAGCAGAU 23 21569CFTR-Intron10-2688 + UCCAAGAUCAAGGUGCCAGCAGAU 24 21570CFTR-Intron10-2689 + UGAUAGUUGCACAACUAU 18 21571 CFTR-Intron10-2690 +AGGUGAUAGUUGCACAACUAU 21 21572 CFTR-Intron10-2691 +AGGAGGUGAUAGUUGCACAACUAU 24 21573 CFTR-Intron10-2692 +UUUACAUUUCUCUUUACU 18 21574 CFTR-Intron10-2693 + AUUUACAUUUCUCUUUACU 1921575 CFTR-Intron10-2694 + UAUUUACAUUUCUCUUUACU 20 21576CFTR-Intron10-2695 + UUAUUUACAUUUCUCUUUACU 21 21577 CFTR-Intron10-2696 +UUUAUUUACAUUUCUCUUUACU 22 21578 CFTR-Intron10-2697 +UGUUUAUUUACAUUUCUCUUUACU 24 21579 CFTR-Intron10-2698 +AAAUGUUAAAUUUUCCCU 18 21580 CFTR-Intron10-2699 + AAAAUGUUAAAUUUUCCCU 1921581 CFTR-Intron10-2700 + AGUUACUCAGUCCAGAAAGCU 21 21582CFTR-Intron10-2701 + CAGUUACUCAGUCCAGAAAGCU 22 21583CFTR-Intron10-2702 + CCAGUUACUCAGUCCAGAAAGCU 23 21584CFTR-Intron10-2703 + UCCAGUUACUCAGUCCAGAAAGCU 24 21585CFTR-Intron10-2704 + AAUUUAAUUGCCAGUAAGUCU 21 21586 CFTR-Intron10-2705 +AAAUUUAAUUGCCAGUAAGUCU 22 21587 CFTR-Intron10-2706 +UGAAAUUUAAUUGCCAGUAAGUCU 24 21588 CFTR-Intron10-2707 +UAUGCCAGGUUAAGUUGUUCU 21 21589 CFTR-Intron10-2708 +AUAUGCCAGGUUAAGUUGUUCU 22 21590 CFTR-Intron10-2709 +AAUAUGCCAGGUUAAGUUGUUCU 23 21591 CFTR-Intron10-2710 +AAAUAUGCCAGGUUAAGUUGUUCU 24 21592 CFTR-Intron10-2711 +CACAUGGCAGAAAGGGGU 18 21593 CFTR-Intron10-2712 + UCACAUGGCAGAAAGGGGU 1921594 CFTR-Intron10-2713 + CUCACAUGGCAGAAAGGGGU 20 21595CFTR-Intron10-2714 + UCUCACAUGGCAGAAAGGGGU 21 21596 CFTR-Intron10-2715 +UUCUCACAUGGCAGAAAGGGGU 22 21597 CFTR-Intron10-2716 +UGUUCUCACAUGGCAGAAAGGGGU 24 21598 CFTR-Intron10-2717 +UCACUAGUGGCACUUUGU 18 21599 CFTR-Intron10-2718 + AUCACUAGUGGCACUUUGU 1921600 CFTR-Intron10-2719 + CAUCACUAGUGGCACUUUGU 20 21601CFTR-Intron10-2720 + UGCAUCACUAGUGGCACUUUGU 22 21602CFTR-Intron10-2721 + CGUGCAUCACUAGUGGCACUUUGU 24 21603CFTR-Intron10-2722 + CUGCAAUACCAUCACCUU 18 21604 CFTR-Intron10-2723 +CCUGCAAUACCAUCACCUU 19 21605 CFTR-Intron10-1395 + CCCUGCAAUACCAUCACCUU20 20279 CFTR-Intron10-2724 + ACCCUGCAAUACCAUCACCUU 21 21606CFTR-Intron10-2725 + CACCCUGCAAUACCAUCACCUU 22 21607CFTR-Intron10-2726 + CCACCCUGCAAUACCAUCACCUU 23 21608CFTR-Intron10-2727 + CCCACCCUGCAAUACCAUCACCUU 24 21609CFTR-Intron10-2728 + AUAAAAGAAAUGCAAGUU 18 21610 CFTR-Intron10-2729 +AAUAAAAGAAAUGCAAGUU 19 21611 CFTR-Intron10-2730 + UAAUAAAAGAAAUGCAAGUU20 21612 CFTR-Intron10-2731 + AUAAUAAAAGAAAUGCAAGUU 21 21613CFTR-Intron10-2732 + UAUAAUAAAAGAAAUGCAAGUU 22 21614CFTR-Intron10-2733 + UUAUAAUAAAAGAAAUGCAAGUU 23 21615CFTR-Intron10-2734 + CUUAUAAUAAAAGAAAUGCAAGUU 24 21616CFTR-Intron10-2735 + CCCUUUAUCAACAUGAAGGUU 21 21617 CFTR-Intron10-2736 +ACCCUUUAUCAACAUGAAGGUU 22 21618 CFTR-Intron10-2737 +UGACCCUUUAUCAACAUGAAGGUU 24 21619 CFTR-Intron10-2738 +AUAGAUUUAAUCUUAUUU 18 21620 CFTR-Intron10-2739 + UAUAGAUUUAAUCUUAUUU 1921621 CFTR-Intron10-2740 + AUAUAGAUUUAAUCUUAUUU 20 21622CFTR-Intron10-2741 + AAUAUAGAUUUAAUCUUAUUU 21 21623 CFTR-Intron10-2742 +AAAUAUAGAUUUAAUCUUAUUU 22 21624 CFTR-Intron10-2743 + UUCUAGGCUAGACAGUUU18 21625 CFTR-Intron10-2744 + UUUCUAGGCUAGACAGUUU 19 21626CFTR-Intron10-2745 + AUUUCUAGGCUAGACAGUUU 20 21627 CFTR-Intron10-2746 +UAUUUCUAGGCUAGACAGUUU 21 21628 CFTR-Intron10-2747 +CGGUAUUUCUAGGCUAGACAGUUU 24 21629 CFTR-Intron10-2748 +UUCAAGCCUGUAUUGUUU 18 21630 CFTR-Intron10-2749 + AGUUCAAGCCUGUAUUGUUU 2021631 CFTR-Intron10-2750 + CAGUUCAAGCCUGUAUUGUUU 21 21632CFTR-Intron10-2751 + UGCAGUUCAAGCCUGUAUUGUUU 23 21633CFTR-Intron10-2752 + AUGCAGUUCAAGCCUGUAUUGUUU 24 21634CFTR-Intron10-2753 − UAUUUAAACACUUCUGAGAAA 21 21635 CFTR-Intron10-2754 −AUAUUUAAACACUUCUGAGAAA 22 21636 CFTR-Intron10-2755 −AAUAUUUAAACACUUCUGAGAAA 23 21637 CFTR-Intron10-2756 −AUGCUUUGAAGGAAGAUCCAA 21 21638 CFTR-Intron10-2757 −CAUGCUUUGAAGGAAGAUCCAA 22 21639 CFTR-Intron10-2758 −ACAUGCUUUGAAGGAAGAUCCAA 23 21640 CFTR-Intron10-2759 −AGAACCAUAUUUUGAAGAA 19 21641 CFTR-Intron10-2760 − UAUAUUAUAGAAAUUUAA 1821642 CFTR-Intron10-2761 − AGGUAUAUUAUAGAAAUUUAA 21 21643CFTR-Intron10-2762 − CAGGUAUAUUAUAGAAAUUUAA 22 21644 CFTR-Intron10-2763− ACAGGUAUAUUAUAGAAAUUUAA 23 21645 CFTR-Intron10-2764 −UGGAUUUUUGACUAUACA 18 21646 CFTR-Intron10-2765 − CGUGGAUUUUUGACUAUACA 2021647 CFTR-Intron10-2766 − ACGUGGAUUUUUGACUAUACA 21 21648CFTR-Intron10-2767 − UACGUGGAUUUUUGACUAUACA 22 21649 CFTR-Intron10-2768− AUACGUGGAUUUUUGACUAUACA 23 21650 CFTR-Intron10-2769 −UAUACGUGGAUUUUUGACUAUACA 24 21651 CFTR-Intron10-2770 −UCAUUAGGAAAAUGUACA 18 21652 CFTR-Intron10-2771 − CUCAUUAGGAAAAUGUACA 1921653 CFTR-Intron10-2772 − ACUCAUUAGGAAAAUGUACA 20 21654CFTR-Intron10-2773 − AGGUCACUGAGGCUGGCA 18 21655 CFTR-Intron10-2774 −AGGAGGUCACUGAGGCUGGCA 21 21656 CFTR-Intron10-2775 −AAGGAGGUCACUGAGGCUGGCA 22 21657 CFTR-Intron10-2776 −UAAGGAGGUCACUGAGGCUGGCA 23 21658 CFTR-Intron10-2777 −AGAUAUGAAGUUAAAAACAUCA 22 21659 CFTR-Intron10-2778 −UUAGUAUAGAAUUUUGCAUCA 21 21660 CFTR-Intron10-2779 −AUUAGUAUAGAAUUUUGCAUCA 22 21661 CFTR-Intron10-2780 −UAUUAGUAUAGAAUUUUGCAUCA 23 21662 CFTR-Intron10-2781 −AUAUUAGUAUAGAAUUUUGCAUCA 24 21663 CFTR-Intron10-2782 −UAAAGAGCCUUUUCUUUUUCA 21 21664 CFTR-Intron10-2783 −AUAAAGAGCCUUUUCUUUUUCA 22 21665 CFTR-Intron10-2784 −UAUAAAGAGCCUUUUCUUUUUCA 23 21666 CFTR-Intron10-2785 −UUAUAAAGAGCCUUUUCUUUUUCA 24 21667 CFTR-Intron10-2786 −AGAUCUAGCUAAAAUAUAAGA 21 21668 CFTR-Intron10-2787 −AAGAUCUAGCUAAAAUAUAAGA 22 21669 CFTR-Intron10-2788 −AAAGAUCUAGCUAAAAUAUAAGA 23 21670 CFTR-Intron10-2789 −AAAAGAUCUAGCUAAAAUAUAAGA 24 21671 CFTR-Intron10-2790 −AUUUUUGUAUUUUUAGUAGAGA 22 21672 CFTR-Intron10-2791 −AAUUUUUGUAUUUUUAGUAGAGA 23 21673 CFTR-Intron10-2792 −UAAUUUUUGUAUUUUUAGUAGAGA 24 21674 CFTR-Intron10-2793 −UUACUAUUAUUUUUGAGA 18 21675 CFTR-Intron10-2794 − AUUACUAUUAUUUUUGAGA 1921676 CFTR-Intron10-2795 − UAUUACUAUUAUUUUUGAGA 20 21677CFTR-Intron10-2796 − AUAUUACUAUUAUUUUUGAGA 21 21678 CFTR-Intron10-2797 −AAUAUUACUAUUAUUUUUGAGA 22 21679 CFTR-Intron10-2798 −UAAUAUUACUAUUAUUUUUGAGA 23 21680 CFTR-Intron10-2799 −UUAAUAUUACUAUUAUUUUUGAGA 24 21681 CFTR-Intron10-2800 −UUUUUUUUUUUUUUGAGA 18 21682 CFTR-Intron10-2801 − UUUUUUUUUUUUUUUGAGA 1921683 CFTR-Intron10-1142 − UUUUUUUUUUUUUUUUGAGA 20 20027CFTR-Intron10-2802 − UUUUUUUUUUUUUUUUUGAGA 21 21684 CFTR-Intron10-2803 −UUUUUUUUUUUUUUUUUUGAGA 22 21685 CFTR-Intron10-2804 −UUUUUUUUUUUUUUUUUUUGAGA 23 21686 CFTR-Intron10-2805 −UUUUUUUUUUUUUUUUUUUUGAGA 24 21687 CFTR-Intron10-2806 −UGACCAGAAUGAAAUUAGA 19 21688 CFTR-Intron10-2807 − UUGACCAGAAUGAAAUUAGA20 21689 CFTR-Intron10-2808 − AUUAGGAAAAUGUACAAAGGA 21 21690CFTR-Intron10-2809 − CAUUAGGAAAAUGUACAAAGGA 22 21691 CFTR-Intron10-2810− UCAUUAGGAAAAUGUACAAAGGA 23 21692 CFTR-Intron10-2811 −CUCAUUAGGAAAAUGUACAAAGGA 24 21693 CFTR-Intron10-2812 −AGAUGAUUCCAAGCUUUCUGGA 22 21694 CFTR-Intron10-2813 −AAGAUGAUUCCAAGCUUUCUGGA 23 21695 CFTR-Intron10-2814 −AAAGAUGAUUCCAAGCUUUCUGGA 24 21696 CFTR-Intron10-2815 −AUAAAUUUAAAGACAUGA 18 21697 CFTR-Intron10-2816 − AAUAAAUUUAAAGACAUGA 1921698 CFTR-Intron10-2817 − AAAUAAAUUUAAAGACAUGA 20 21699CFTR-Intron10-2818 − AGGAAAUAAAUUUAAAGACAUGA 23 21700 CFTR-Intron10-2819− AGAAGACAAAGCUAGUGA 18 21701 CFTR-Intron10-2820 − UGAGAAGACAAAGCUAGUGA20 21702 CFTR-Intron10-2821 − CUGAGAAGACAAAGCUAGUGA 21 21703CFTR-Intron10-2822 − UCUGAGAAGACAAAGCUAGUGA 22 21704 CFTR-Intron10-2823− AGUCUGAGAAGACAAAGCUAGUGA 24 21705 CFTR-Intron10-2824 −UGCACUCUAGCCUGGGUGA 19 21706 CFTR-Intron10-2825 − CUGCACUCUAGCCUGGGUGA20 21707 CFTR-Intron10-2826 − ACUGCACUCUAGCCUGGGUGA 21 21708CFTR-Intron10-2827 − CACUGCACUCUAGCCUGGGUGA 22 21709 CFTR-Intron10-2828− CCACUGCACUCUAGCCUGGGUGA 23 21710 CFTR-Intron10-2829 −CCCCUAACCUUCAUGUUGAUA 21 21711 CFTR-Intron10-2830 −ACCCCUAACCUUCAUGUUGAUA 22 21712 CFTR-Intron10-2831 −CACCCCUAACCUUCAUGUUGAUA 23 21713 CFTR-Intron10-2832 −AAAAUACUUUCUAGAAUUAUA 21 21714 CFTR-Intron10-2833 −CAAAAUACUUUCUAGAAUUAUA 22 21715 CFTR-Intron10-2834 −UCAAAAUACUUUCUAGAAUUAUA 23 21716 CFTR-Intron10-2835 −UUCAAAAUACUUUCUAGAAUUAUA 24 21717 CFTR-Intron10-2836 −CGUUUUUGCUUGCUUUUUAUA 21 21718 CFTR-Intron10-2837 −ACGUUUUUGCUUGCUUUUUAUA 22 21719 CFTR-Intron10-2838 −CACGUUUUUGCUUGCUUUUUAUA 23 21720 CFTR-Intron10-2839 −UCACGUUUUUGCUUGCUUUUUAUA 24 21721 CFTR-Intron10-2840 −CUUGCAGGAGGUGAGGGAUUA 21 21722 CFTR-Intron10-2841 −ACUUGCAGGAGGUGAGGGAUUA 22 21723 CFTR-Intron10-2842 −AGACUUGCAGGAGGUGAGGGAUUA 24 21724 CFTR-Intron10-2843 −CCAAUAAAAGGUUUGUUA 18 21725 CFTR-Intron10-2844 − AGCCAAUAAAAGGUUUGUUA 2021726 CFTR-Intron10-2845 − UAAGUUAGCAAUGGUCUAAAC 21 21727CFTR-Intron10-2846 − AUAAGUUAGCAAUGGUCUAAAC 22 21728 CFTR-Intron10-2847− AAUAAGUUAGCAAUGGUCUAAAC 23 21729 CFTR-Intron10-2848 −AAAUAAGUUAGCAAUGGUCUAAAC 24 21730 CFTR-Intron10-2849 −UAAACUUUGUUUUUCAAC 18 21731 CFTR-Intron10-2850 − UUAAACUUUGUUUUUCAAC 1921732 CFTR-Intron10-2851 − UUUAAACUUUGUUUUUCAAC 20 21733CFTR-Intron10-2852 − AUUUAAACUUUGUUUUUCAAC 21 21734 CFTR-Intron10-2853 −UAUUUAAACUUUGUUUUUCAAC 22 21735 CFTR-Intron10-2854 −AUAUUUAAACUUUGUUUUUCAAC 23 21736 CFTR-Intron10-2855 −CAUAUUUAAACUUUGUUUUUCAAC 24 21737 CFTR-Intron10-2856 −CAUAUAUAUAUUUUUAAC 18 21738 CFTR-Intron10-2857 − UGCAUAUAUAUAUUUUUAAC 2021739 CFTR-Intron10-2858 − AUGCAUAUAUAUAUUUUUAAC 21 21740CFTR-Intron10-2859 − UAUGCAUAUAUAUAUUUUUAAC 22 21741 CFTR-Intron10-2860− AUAUGCAUAUAUAUAUUUUUAAC 23 21742 CFTR-Intron10-2861 −AAUAUGCAUAUAUAUAUUUUUAAC 24 21743 CFTR-Intron10-2862 −UGGAGUCAAAAAUUAUAC 18 21744 CFTR-Intron10-2863 − UGUGGAGUCAAAAAUUAUAC 2021745 CFTR-Intron10-2864 − UUGUGGAGUCAAAAAUUAUAC 21 21746CFTR-Intron10-2865 − UUUGUGGAGUCAAAAAUUAUAC 22 21747 CFTR-Intron10-2866− UUUUGUGGAGUCAAAAAUUAUAC 23 21748 CFTR-Intron10-2867 −UUUUUGUGGAGUCAAAAAUUAUAC 24 21749 CFTR-Intron10-2868 −AGUGCAAUGCCAUAAACC 18 21750 CFTR-Intron10-2869 − UAGUGCAAUGCCAUAAACC 1921751 CFTR-Intron10-2870 − UUAGUGCAAUGCCAUAAACC 20 21752CFTR-Intron10-2871 − UUUAGUGCAAUGCCAUAAACC 21 21753 CFTR-Intron10-2872 −UGUUUAGUGCAAUGCCAUAAACC 23 21754 CFTR-Intron10-2873 −AUGUUUAGUGCAAUGCCAUAAACC 24 21755 CFTR-Intron10-2874 −AGAAAAAGUAAGAUAUGCC 19 21756 CFTR-Intron10-2875 − AAGAAAAAGUAAGAUAUGCC20 21757 CFTR-Intron10-2876 − UAAGAAAAAGUAAGAUAUGCC 21 21758CFTR-Intron10-2877 − UUAAGAAAAAGUAAGAUAUGCC 22 21759 CFTR-Intron10-2878− AUUAAGAAAAAGUAAGAUAUGCC 23 21760 CFTR-Intron10-2879 −AAUUAAGAAAAAGUAAGAUAUGCC 24 21761 CFTR-Intron10-2880 −AGGUGAAUUGCUUGAGUCC 19 21762 CFTR-Intron10-1217 − CAGGUGAAUUGCUUGAGUCC20 20102 CFTR-Intron10-2881 − AGGCAGGUGAAUUGCUUGAGUCC 23 21763CFTR-Intron10-2882 − CUAAAACCAAACAAGCUUUCC 21 21764 CFTR-Intron10-2883 −ACUAAAACCAAACAAGCUUUCC 22 21765 CFTR-Intron10-2884 −UACUAAAACCAAACAAGCUUUCC 23 21766 CFTR-Intron10-2885 −CUACUAAAACCAAACAAGCUUUCC 24 21767 CFTR-Intron10-2886 −AAAUUUUCUUUGUUUUCC 18 21768 CFTR-Intron10-2887 − CAAAUUUUCUUUGUUUUCC 1921769 CFTR-Intron10-2888 − ACAAAUUUUCUUUGUUUUCC 20 21770CFTR-Intron10-2889 − AACAAAUUUUCUUUGUUUUCC 21 21771 CFTR-Intron10-2890 −AAACAAAUUUUCUUUGUUUUCC 22 21772 CFTR-Intron10-2891 −AAAACAAAUUUUCUUUGUUUUCC 23 21773 CFTR-Intron10-2892 −CAGCUUUUAAAACAAAAUAGC 21 21774 CFTR-Intron10-2893 −ACAGCUUUUAAAACAAAAUAGC 22 21775 CFTR-Intron10-2894 −AACAGCUUUUAAAACAAAAUAGC 23 21776 CFTR-Intron10-2895 −AAACAGCUUUUAAAACAAAAUAGC 24 21777 CFTR-Intron10-2896 −CGCGCCACUGCACUCUAGC 19 21778 CFTR-Intron10-2897 − UCGCGCCACUGCACUCUAGC20 21779 CFTR-Intron10-2898 − AUCGCGCCACUGCACUCUAGC 21 21780CFTR-Intron10-2899 − AGAUCGCGCCACUGCACUCUAGC 23 21781 CFTR-Intron10-1224− CGGGGUUUCACCGUUUUAGC 20 20109 CFTR-Intron10-2900 −ACGGGGUUUCACCGUUUUAGC 21 21782 CFTR-Intron10-2901 −AGACGGGGUUUCACCGUUUUAGC 23 21783 CFTR-Intron10-2902 − UCGCUCUGUCGCCCAGGC18 21784 CFTR-Intron10-2903 − CUCGCUCUGUCGCCCAGGC 19 21785CFTR-Intron10-1226 − UCUCGCUCUGUCGCCCAGGC 20 20111 CFTR-Intron10-2904 −AGUCUCGCUCUGUCGCCCAGGC 22 21786 CFTR-Intron10-2905 −CGGGGUUUCACCAUGUUGGC 20 21787 CFTR-Intron10-2906 − ACGGGGUUUCACCAUGUUGGC21 21788 CFTR-Intron10-2907 − AGACGGGGUUUCACCAUGUUGGC 23 21789CFTR-Intron10-2908 − AAUACAGGCUUGAACUGC 18 21790 CFTR-Intron10-2909 −CAAUACAGGCUUGAACUGC 19 21791 CFTR-Intron10-2910 − ACAAUACAGGCUUGAACUGC20 21792 CFTR-Intron10-2911 − AACAAUACAGGCUUGAACUGC 21 21793CFTR-Intron10-2912 − AAACAAUACAGGCUUGAACUGC 22 21794 CFTR-Intron10-2913− UAAACAAUACAGGCUUGAACUGC 23 21795 CFTR-Intron10-2914 −UUAAACAAUACAGGCUUGAACUGC 24 21796 CFTR-Intron10-2915 −CUCGGCCUCCCAAAGUGC 18 21797 CFTR-Intron10-2916 − CCUCGGCCUCCCAAAGUGC 1921798 CFTR-Intron10-2917 − CGCCUCGGCCUCCCAAAGUGC 21 21799CFTR-Intron10-2918 − CCGCCUCGGCCUCCCAAAGUGC 22 21800 CFTR-Intron10-2919− CCCGCCUCGGCCUCCCAAAGUGC 23 21801 CFTR-Intron10-2920 −CAGAGGCAGGUGAAUUGC 18 21802 CFTR-Intron10-2921 − AGGCAGAGGCAGGUGAAUUGC21 21803 CFTR-Intron10-2922 − UGGAGGCAGAGGCAGGUGAAUUGC 24 21804CFTR-Intron10-2923 − CACUGCAAGCUCCGCCUC 18 21805 CFTR-Intron10-2924 −UCACUGCAAGCUCCGCCUC 19 21806 CFTR-Intron10-2925 − CUCACUGCAAGCUCCGCCUC20 21807 CFTR-Intron10-2926 − CGGCUCACUGCAAGCUCCGCCUC 23 21808CFTR-Intron10-2927 − UCGGCUCACUGCAAGCUCCGCCUC 24 21809CFTR-Intron10-2928 − AGGUUCUGUAAUUUUUGCUUC 21 21810 CFTR-Intron10-2929 −UAGGUUCUGUAAUUUUUGCUUC 22 21811 CFTR-Intron10-2930 −AUAGGUUCUGUAAUUUUUGCUUC 23 21812 CFTR-Intron10-2931 −UAUAGGUUCUGUAAUUUUUGCUUC 24 21813 CFTR-Intron10-2932 −UGUAACAGUACAAGAAAAAAG 21 21814 CFTR-Intron10-2933 −UUGUAACAGUACAAGAAAAAAG 22 21815 CFTR-Intron10-2934 −AGUUGUAACAGUACAAGAAAAAAG 24 21816 CFTR-Intron10-2935 −CUUUGCCAUUAACAGAUAAAG 21 21817 CFTR-Intron10-2936 −UGCUUUGCCAUUAACAGAUAAAG 23 21818 CFTR-Intron10-2937 −UUGCUUUGCCAUUAACAGAUAAAG 24 21819 CFTR-Intron10-2938 −UUUUGGAGGCAGAGGCAG 18 21820 CFTR-Intron10-2939 − CUUUUGGAGGCAGAGGCAG 1921821 CFTR-Intron10-2940 − ACUUUUGGAGGCAGAGGCAG 20 21822CFTR-Intron10-2941 − CACUUUUGGAGGCAGAGGCAG 21 21823 CFTR-Intron10-2942 −AGCACUUUUGGAGGCAGAGGCAG 23 21824 CFTR-Intron10-2943 −UAGCACUUUUGGAGGCAGAGGCAG 24 21825 CFTR-Intron10-2944 −CUCGGGAGGCUGAGGCAG 18 21826 CFTR-Intron10-2945 − ACUCGGGAGGCUGAGGCAG 1921827 CFTR-Intron10-2946 − UACUCGGGAGGCUGAGGCAG 20 21828CFTR-Intron10-2947 − CUACUCGGGAGGCUGAGGCAG 21 21829 CFTR-Intron10-2948 −AGCUACUCGGGAGGCUGAGGCAG 23 21830 CFTR-Intron10-2949 −CAGCUACUCGGGAGGCUGAGGCAG 24 21831 CFTR-Intron10-2950 −AAGGGAGGAAGCAAGGAG 18 21832 CFTR-Intron10-2951 − CAAGGGAGGAAGCAAGGAG 1921833 CFTR-Intron10-2952 − ACAAGGGAGGAAGCAAGGAG 20 21834CFTR-Intron10-2953 − AGACAAGGGAGGAAGCAAGGAG 22 21835 CFTR-Intron10-2954− ACAAACAAAAGAAAAUAG 18 21836 CFTR-Intron10-2955 − CACAAACAAAAGAAAAUAG19 21837 CFTR-Intron10-2956 − ACACAAACAAAAGAAAAUAG 20 21838CFTR-Intron10-2957 − AACACAAACAAAAGAAAAUAG 21 21839 CFTR-Intron10-2958 −AAACACAAACAAAAGAAAAUAG 22 21840 CFTR-Intron10-2959 −AAAACACAAACAAAAGAAAAUAG 23 21841 CFTR-Intron10-2960 −AAAAACACAAACAAAAGAAAAUAG 24 21842 CFTR-Intron10-2961 −UCCAAAUAGAGAUGUUAG 18 21843 CFTR-Intron10-2962 − AUCCAAAUAGAGAUGUUAG 1921844 CFTR-Intron10-2963 − CAUCCAAAUAGAGAUGUUAG 20 21845CFTR-Intron10-2964 − ACAUCCAAAUAGAGAUGUUAG 21 21846 CFTR-Intron10-2965 −UGACAUCCAAAUAGAGAUGUUAG 23 21847 CFTR-Intron10-2966 −UUGACAUCCAAAUAGAGAUGUUAG 24 21848 CFTR-Intron10-2967 −AGAGUAAGACAGGGAGGG 18 21849 CFTR-Intron10-2968 − UAGAGUAAGACAGGGAGGG 1921850 CFTR-Intron10-2969 − AUAGAGUAAGACAGGGAGGG 20 21851CFTR-Intron10-2970 − CAUAGAGUAAGACAGGGAGGG 21 21852 CFTR-Intron10-2971 −UGGCAUAGAGUAAGACAGGGAGGG 24 21853 CFTR-Intron10-2972 −UAGUAUUCUAUCAUAUGG 18 21854 CFTR-Intron10-2973 − AUAGUAUUCUAUCAUAUGG 1921855 CFTR-Intron10-2974 − CAUAGUAUUCUAUCAUAUGG 20 21856CFTR-Intron10-2975 − UGCAUAGUAUUCUAUCAUAUGG 22 21857 CFTR-Intron10-2976− AUGCAUAGUAUUCUAUCAUAUGG 23 21858 CFTR-Intron10-2977 −UCUGGACUGAGUAACUGG 18 21859 CFTR-Intron10-2978 − UUCUGGACUGAGUAACUGG 1921860 CFTR-Intron10-2979 − UUUCUGGACUGAGUAACUGG 20 21861CFTR-Intron10-2980 − CUUUCUGGACUGAGUAACUGG 21 21862 CFTR-Intron10-2981 −AGCUUUCUGGACUGAGUAACUGG 23 21863 CFTR-Intron10-2982 −AAGCUUUCUGGACUGAGUAACUGG 24 21864 CFTR-Intron10-2983 −UGUAUAUAUGUGUGUCUGG 19 21865 CFTR-Intron10-2984 − AUGUAUAUAUGUGUGUCUGG20 21866 CFTR-Intron10-2985 − UAUGUAUAUAUGUGUGUCUGG 21 21867CFTR-Intron10-2986 − UGUAUGUAUAUAUGUGUGUCUGG 23 21868 CFTR-Intron10-2987− AUGUAUGUAUAUAUGUGUGUCUGG 24 21869 CFTR-Intron10-2988 −CAGGCUGGAGUGCAGUGG 18 21870 CFTR-Intron10-2989 − CCAGGCUGGAGUGCAGUGG 1921871 CFTR-Intron10-1304 − CCCAGGCUGGAGUGCAGUGG 20 20189CFTR-Intron10-2990 − CGCCCAGGCUGGAGUGCAGUGG 22 21872 CFTR-Intron10-2991− UCGCCCAGGCUGGAGUGCAGUGG 23 21873 CFTR-Intron10-2992 −CUUGGGAGGCUGAGGUGG 18 21874 CFTR-Intron10-2993 − ACUUGGGAGGCUGAGGUGG 1921875 CFTR-Intron10-2994 − UACUUGGGAGGCUGAGGUGG 20 21876CFTR-Intron10-2995 − CUACUUGGGAGGCUGAGGUGG 21 21877 CFTR-Intron10-2996 −AGCUACUUGGGAGGCUGAGGUGG 23 21878 CFTR-Intron10-2997 −CAGCUACUUGGGAGGCUGAGGUGG 24 21879 CFTR-Intron10-2998 −UGGGUGGGGGAGCCCCAUAAAUG 23 21880 CFTR-Intron10-2999 −UUGGGUGGGGGAGCCCCAUAAAUG 24 21881 CFTR-Intron10-3000 −AAUUAGCCAGACGUGAUG 18 21882 CFTR-Intron10-3001 − AAAUUAGCCAGACGUGAUG 1921883 CFTR-Intron10-3002 − AAAAUUAGCCAGACGUGAUG 20 21884CFTR-Intron10-3003 − AAAAAUUAGCCAGACGUGAUG 21 21885 CFTR-Intron10-3004 −AAAAAAUUAGCCAGACGUGAUG 22 21886 CFTR-Intron10-3005 −CAAAAAAUUAGCCAGACGUGAUG 23 21887 CFTR-Intron10-3006 −ACAAAAAAUUAGCCAGACGUGAUG 24 21888 CFTR-Intron10-3007 −UGGGUGAGAUUAGAGGCCACUG 22 21889 CFTR-Intron10-3008 −CUGGGUGAGAUUAGAGGCCACUG 23 21890 CFTR-Intron10-3009 −UCUGGGUGAGAUUAGAGGCCACUG 24 21891 CFTR-Intron10-3010 −CUUCAGCCUCCCAAAGUG 18 21892 CFTR-Intron10-3011 − CGCUUCAGCCUCCCAAAGUG 2021893 CFTR-Intron10-3012 − CCGCUUCAGCCUCCCAAAGUG 21 21894CFTR-Intron10-3013 − UCCGCUUCAGCCUCCCAAAGUG 22 21895 CFTR-Intron10-3014− UUCCGCUUCAGCCUCCCAAAGUG 23 21896 CFTR-Intron10-3015 −UUUCCGCUUCAGCCUCCCAAAGUG 24 21897 CFTR-Intron10-3016 −AAAGACUUGCAGGAGGUG 18 21898 CFTR-Intron10-3017 − CAAAGACUUGCAGGAGGUG 1921899 CFTR-Intron10-1317 − ACAAAGACUUGCAGGAGGUG 20 20202CFTR-Intron10-3018 − AACAAAGACUUGCAGGAGGUG 21 21900 CFTR-Intron10-3019 −UGAACAAAGACUUGCAGGAGGUG 23 21901 CFTR-Intron10-3020 −UUGAACAAAGACUUGCAGGAGGUG 24 21902 CFTR-Intron10-3021 −AGGUUUGUUAAAGAAUGACUGUG 23 21903 CFTR-Intron10-3022 −AAGGUUUGUUAAAGAAUGACUGUG 24 21904 CFTR-Intron10-3023 −CCCAAGGUGAUGGUAUUG 18 21905 CFTR-Intron10-3024 − UCCCAAGGUGAUGGUAUUG 1921906 CFTR-Intron10-3025 − UUCCCAAGGUGAUGGUAUUG 20 21907CFTR-Intron10-3026 − AUUCCCAAGGUGAUGGUAUUG 21 21908 CFTR-Intron10-3027 −AAUUCCCAAGGUGAUGGUAUUG 22 21909 CFTR-Intron10-3028 −UAAUUCCCAAGGUGAUGGUAUUG 23 21910 CFTR-Intron10-3029 −CUAAUUCCCAAGGUGAUGGUAUUG 24 21911 CFTR-Intron10-3030 −UUAGUAGUUAAGUUUUUG 18 21912 CFTR-Intron10-3031 − AUUAGUAGUUAAGUUUUUG 1921913 CFTR-Intron10-1325 − UAUUAGUAGUUAAGUUUUUG 20 20210CFTR-Intron10-3032 − CUAUUAGUAGUUAAGUUUUUG 21 21914 CFTR-Intron10-3033 −AGGCUAUUAGUAGUUAAGUUUUUG 24 21915 CFTR-Intron10-3034 −UCAGAUUUUUUCCCAUGUAAU 21 21916 CFTR-Intron10-3035 −UUCAGAUUUUUUCCCAUGUAAU 22 21917 CFTR-Intron10-3036 −AUUCAGAUUUUUUCCCAUGUAAU 23 21918 CFTR-Intron10-3037 −AAUUCAGAUUUUUUCCCAUGUAAU 24 21919 CFTR-Intron10-3038 −UGGGAGGUGAUUAGUCCAU 19 21920 CFTR-Intron10-3039 − UUGGGAGGUGAUUAGUCCAU20 21921 CFTR-Intron10-3040 − UUUGGGAGGUGAUUAGUCCAU 21 21922CFTR-Intron10-3041 − CUUUGGGAGGUGAUUAGUCCAU 22 21923 CFTR-Intron10-3042− CCUUUGGGAGGUGAUUAGUCCAU 23 21924 CFTR-Intron10-3043 −UGCAUAGUAUUCUAUCAU 18 21925 CFTR-Intron10-3044 − AUGCAUAGUAUUCUAUCAU 1921926 CFTR-Intron10-3045 − AGAUGCAUAGUAUUCUAUCAU 21 21927CFTR-Intron10-3046 − UAGAUGCAUAGUAUUCUAUCAU 22 21928 CFTR-Intron10-3047− AUAGAUGCAUAGUAUUCUAUCAU 23 21929 CFTR-Intron10-3048 −AAUAGAUGCAUAGUAUUCUAUCAU 24 21930 CFTR-Intron10-3049 −UGAGAAAGAGCUUUCUAGUAU 21 21931 CFTR-Intron10-3050 −AUGAGAAAGAGCUUUCUAGUAU 22 21932 CFTR-Intron10-3051 −AGAUGAGAAAGAGCUUUCUAGUAU 24 21933 CFTR-Intron10-3052 −UAAAAAGCUGUGCAUUUUCCU 21 21934 CFTR-Intron10-3053 −UUAAAAAGCUGUGCAUUUUCCU 22 21935 CFTR-Intron10-3054 −UUUAAAAAGCUGUGCAUUUUCCU 23 21936 CFTR-Intron10-3055 −UUUUAAAAAGCUGUGCAUUUUCCU 24 21937 CFTR-Intron10-3056 −CAAAUUAUUUCUACUGCU 18 21938 CFTR-Intron10-3057 − UCAAAUUAUUUCUACUGCU 1921939 CFTR-Intron10-521 − UUCAAAUUAUUUCUACUGCU 20 19407CFTR-Intron10-3058 − UGUCUGUAGGCUAUAUGUAUCU 22 21940 CFTR-Intron10-3059− UUGUCUGUAGGCUAUAUGUAUCU 23 21941 CFTR-Intron10-3060 −AUUGUCUGUAGGCUAUAUGUAUCU 24 21942 CFTR-Intron10-3061 −CUCGGCCUCCCAAAGUGU 18 21943 CFTR-Intron10-3062 − CCUCGGCCUCCCAAAGUGU 1921944 CFTR-Intron10-3063 − UGCCUCGGCCUCCCAAAGUGU 21 21945CFTR-Intron10-3064 − CUGCCUCGGCCUCCCAAAGUGU 22 21946 CFTR-Intron10-3065− CCUGCCUCGGCCUCCCAAAGUGU 23 21947 CFTR-Intron10-3066 −AGGAAGGCAGUGGUCCCUU 19 21948 CFTR-Intron10-1399 − AGGAAGCAAGGAGAUGAGUU20 20283 CFTR-Intron10-3067 − AGGGAGGAAGCAAGGAGAUGAGUU 24 21949CFTR-Intron10-3068 − AGAUAAUGGGAGAAACAGGUU 21 21950 CFTR-Intron10-3069 −AAGAUAAUGGGAGAAACAGGUU 22 21951 CFTR-Intron10-3070 −AAAGAUAAUGGGAGAAACAGGUU 23 21952 CFTR-Intron10-3071 − AUAGUUUUAUCAAUAUUU18 21953 CFTR-Intron10-3072 − AAUAGUUUUAUCAAUAUUU 19 21954CFTR-Intron10-1405 − AAAUAGUUUUAUCAAUAUUU 20 20289 CFTR-Intron10-3073 −UGCAUGGGUCCACUUAUUU 19 21955 CFTR-Intron10-3074 − CUGCAUGGGUCCACUUAUUU20 21956 CFTR-Intron10-3075 − ACUGCAUGGGUCCACUUAUUU 21 21957CFTR-Intron10-3076 − AACUGCAUGGGUCCACUUAUUU 22 21958 CFTR-Intron10-3077− UGAACUGCAUGGGUCCACUUAUUU 24 21959 CFTR-Intron10-3078 −UUGUUGUUUUUCUAGUUU 18 21960 CFTR-Intron10-3079 − UUUGUUGUUUUUCUAGUUU 1921961 CFTR-Intron10-3080 − UUUUGUUGUUUUUCUAGUUU 20 21962CFTR-Intron10-3081 − UUUUUGUUGUUUUUCUAGUUU 21 21963 CFTR-Intron10-3082 −UUUUUUGUUGUUUUUCUAGUUU 22 21964 CFTR-Intron10-3083 −CUUUUUUGUUGUUUUUCUAGUUU 23 21965 CFTR-Intron10-3084 − AAUACAUUGGAAAAUUUU18 21966 CFTR-Intron10-3085 − UAAUACAUUGGAAAAUUUU 19 21967CFTR-Intron10-1411 − UUAAUACAUUGGAAAAUUUU 20 20295 CFTR-Intron10-3086 −AGUUAAUACAUUGGAAAAUUUU 22 21968 CFTR-Intron10-3087 −CAGUUAAUACAUUGGAAAAUUUU 23 21969 CFTR-Intron10-3088 −UCAGUUAAUACAUUGGAAAAUUUU 24 21970 CFTR-Intron10-3089 −UAUGUCCUCCACAAAUAUUUU 21 21971 CFTR-Intron10-3090 −AGUAUGUCCUCCACAAAUAUUUU 23 21972 CFTR-Intron10-3091 −AAGUAUGUCCUCCACAAAUAUUUU 24 21973

Table 41E provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fifth tierparameters. The targeting domains bind within intron 10, and PAM isNNGRRV. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a S.aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 41E 5th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-3092 + AAAAAAAAAAAAAAAAAA 18 21974CFTR-Intron10-3093 + AAAAAAAAAAAAAAAAAAA 19 21975 CFTR-Intron10-3094 +AAAAAAAAAAAAAAAAAAAA 20 21976 CFTR-Intron10-3095 + AAAAAAAAAAAAAAAAAAAAA21 21977 CFTR-Intron10-3096 + AAAAAAAAAAAAAAAAAAAAAA 22 21978CFTR-Intron10-3097 + AAAAAAAAAAAAAAAAAAAAAAA 23 21979CFTR-Intron10-3098 + CAAAAAAAAAAAAAAAAAAAAAAA 24 21980CFTR-Intron10-3099 + UAGAAAAACAACAAAAAA 18 21981 CFTR-Intron10-3100 +CUAGAAAAACAACAAAAAA 19 21982 CFTR-Intron10-3101 + ACUAGAAAAACAACAAAAAA20 21983 CFTR-Intron10-3102 + AACUAGAAAAACAACAAAAAA 21 21984CFTR-Intron10-3103 + AAACUAGAAAAACAACAAAAAA 22 21985CFTR-Intron10-3104 + AAAACUAGAAAAACAACAAAAAA 23 21986CFTR-Intron10-3105 + AAAAACUAGAAAAACAACAAAAAA 24 21987CFTR-Intron10-3106 + CAAACAAAGAAACAAAAA 18 21988 CFTR-Intron10-3107 +ACAAACAAAGAAACAAAAA 19 21989 CFTR-Intron10-3108 + UACAAACAAAGAAACAAAAA20 21990 CFTR-Intron10-3109 + AUACAAACAAAGAAACAAAAA 21 21991CFTR-Intron10-3110 + AAUACAAACAAAGAAACAAAAA 22 21992CFTR-Intron10-3111 + AAAUACAAACAAAGAAACAAAAA 23 21993CFTR-Intron10-3112 + UAAAUACAAACAAAGAAACAAAAA 24 21994CFTR-Intron10-3113 + CAUAUUGUUACAUAAAAA 18 21995 CFTR-Intron10-3114 +GCAUAUUGUUACAUAAAAA 19 21996 CFTR-Intron10-3115 + UGCAUAUUGUUACAUAAAAA20 21997 CFTR-Intron10-3116 + CUGCAUAUUGUUACAUAAAAA 21 21998CFTR-Intron10-3117 + UCUGCAUAUUGUUACAUAAAAA 22 21999CFTR-Intron10-3118 + CUCUGCAUAUUGUUACAUAAAAA 23 22000CFTR-Intron10-3119 + ACUCUGCAUAUUGUUACAUAAAAA 24 22001CFTR-Intron10-3120 + GUGCAUAAAGGUUGAAAA 18 22002 CFTR-Intron10-3121 +AGUGCAUAAAGGUUGAAAA 19 22003 CFTR-Intron10-65 + GAGUGCAUAAAGGUUGAAAA 2018951 CFTR-Intron10-3122 + AGAGUGCAUAAAGGUUGAAAA 21 22004CFTR-Intron10-3123 + AAGAGUGCAUAAAGGUUGAAAA 22 22005CFTR-Intron10-3124 + AAAGAGUGCAUAAAGGUUGAAAA 23 22006CFTR-Intron10-3125 + CAAAGAGUGCAUAAAGGUUGAAAA 24 22007CFTR-Intron10-3126 + UUUCCUCAAUAGUUAAAA 18 22008 CFTR-Intron10-3127 +AUUUCCUCAAUAGUUAAAA 19 22009 CFTR-Intron10-3128 + UAUUUCCUCAAUAGUUAAAA20 22010 CFTR-Intron10-3129 + UUAUUUCCUCAAUAGUUAAAA 21 22011CFTR-Intron10-3130 + UUUAUUUCCUCAAUAGUUAAAA 22 22012CFTR-Intron10-3131 + AUUUAUUUCCUCAAUAGUUAAAA 23 22013CFTR-Intron10-3132 + AAUUUAUUUCCUCAAUAGUUAAAA 24 22014CFTR-Intron10-3133 + UAGUAAAAAAAAAUCAAA 18 22015 CFTR-Intron10-3134 +UUAGUAAAAAAAAAUCAAA 19 22016 CFTR-Intron10-1092 + AUUAGUAAAAAAAAAUCAAA20 19977 CFTR-Intron10-3135 + AAUUAGUAAAAAAAAAUCAAA 21 22017CFTR-Intron10-3136 + AAAUUAGUAAAAAAAAAUCAAA 22 22018CFTR-Intron10-3137 + AAAAUUAGUAAAAAAAAAUCAAA 23 22019CFTR-Intron10-3138 + CAAAAUUAGUAAAAAAAAAUCAAA 24 22020CFTR-Intron10-3139 + GCUAAAAUGACAAUCAAA 18 22021 CFTR-Intron10-3140 +AGCUAAAAUGACAAUCAAA 19 22022 CFTR-Intron10-335 + CAGCUAAAAUGACAAUCAAA 2019221 CFTR-Intron10-3141 + ACAGCUAAAAUGACAAUCAAA 21 22023CFTR-Intron10-3142 + CACAGCUAAAAUGACAAUCAAA 22 22024CFTR-Intron10-3143 + CCACAGCUAAAAUGACAAUCAAA 23 22025CFTR-Intron10-3144 + ACCACAGCUAAAAUGACAAUCAAA 24 22026CFTR-Intron10-3145 + AGGAUAUCUUAGGUCAAA 18 22027 CFTR-Intron10-3146 +UAGGAUAUCUUAGGUCAAA 19 22028 CFTR-Intron10-3147 + UUAGGAUAUCUUAGGUCAAA20 22029 CFTR-Intron10-3148 + CUUAGGAUAUCUUAGGUCAAA 21 22030CFTR-Intron10-3149 + CCUUAGGAUAUCUUAGGUCAAA 22 22031CFTR-Intron10-3150 + CCCUUAGGAUAUCUUAGGUCAAA 23 22032CFTR-Intron10-3151 + UCCCUUAGGAUAUCUUAGGUCAAA 24 22033CFTR-Intron10-3152 + AAUGCAGGAGAAUGGAAA 18 22034 CFTR-Intron10-3153 +GAAUGCAGGAGAAUGGAAA 19 22035 CFTR-Intron10-3154 + GGAAUGCAGGAGAAUGGAAA20 22036 CFTR-Intron10-3155 + GGGAAUGCAGGAGAAUGGAAA 21 22037CFTR-Intron10-3156 + AGGGAAUGCAGGAGAAUGGAAA 22 22038CFTR-Intron10-3157 + GAGGGAAUGCAGGAGAAUGGAAA 23 22039CFTR-Intron10-3158 + UGAGGGAAUGCAGGAGAAUGGAAA 24 22040CFTR-Intron10-3159 + CAAAUACAUUCAAUGAAA 18 22041 CFTR-Intron10-3160 +CCAAAUACAUUCAAUGAAA 19 22042 CFTR-Intron10-3161 + CCCAAAUACAUUCAAUGAAA20 22043 CFTR-Intron10-3162 + GCCCAAAUACAUUCAAUGAAA 21 22044CFTR-Intron10-3163 + GGCCCAAAUACAUUCAAUGAAA 22 22045CFTR-Intron10-3164 + AGGCCCAAAUACAUUCAAUGAAA 23 22046CFTR-Intron10-3165 + CAGGCCCAAAUACAUUCAAUGAAA 24 22047CFTR-Intron10-3166 + AGUGCAUAAAGGUUGAAA 18 22048 CFTR-Intron10-3167 +GAGUGCAUAAAGGUUGAAA 19 22049 CFTR-Intron10-3168 + AGAGUGCAUAAAGGUUGAAA20 22050 CFTR-Intron10-3169 + AAGAGUGCAUAAAGGUUGAAA 21 22051CFTR-Intron10-3170 + AAAGAGUGCAUAAAGGUUGAAA 22 22052CFTR-Intron10-3171 + CAAAGAGUGCAUAAAGGUUGAAA 23 22053CFTR-Intron10-3172 + GCAAAGAGUGCAUAAAGGUUGAAA 24 22054CFTR-Intron10-3173 + UGCAUAUUGUUACAUAAA 18 22055 CFTR-Intron10-3174 +CUGCAUAUUGUUACAUAAA 19 22056 CFTR-Intron10-3175 + UCUGCAUAUUGUUACAUAAA20 22057 CFTR-Intron10-3176 + CUCUGCAUAUUGUUACAUAAA 21 22058CFTR-Intron10-3177 + ACUCUGCAUAUUGUUACAUAAA 22 22059CFTR-Intron10-3178 + AACUCUGCAUAUUGUUACAUAAA 23 22060CFTR-Intron10-3179 + AAACUCUGCAUAUUGUUACAUAAA 24 22061CFTR-Intron10-3180 + UCGUAUGUAGGAAAACAA 18 22062 CFTR-Intron10-3181 +UUCGUAUGUAGGAAAACAA 19 22063 CFTR-Intron10-3182 + UUUCGUAUGUAGGAAAACAA20 22064 CFTR-Intron10-3183 + GUUUCGUAUGUAGGAAAACAA 21 22065CFTR-Intron10-3184 + UGUUUCGUAUGUAGGAAAACAA 22 22066CFTR-Intron10-3185 + CUGUUUCGUAUGUAGGAAAACAA 23 22067CFTR-Intron10-3186 + GCUGUUUCGUAUGUAGGAAAACAA 24 22068CFTR-Intron10-3187 + AACCAAAUAAACAAACAA 18 22069 CFTR-Intron10-3188 +AAACCAAAUAAACAAACAA 19 22070 CFTR-Intron10-1099 + AAAACCAAAUAAACAAACAA20 19984 CFTR-Intron10-3189 + AAAAACCAAAUAAACAAACAA 21 22071CFTR-Intron10-3190 + UAAAAACCAAAUAAACAAACAA 22 22072CFTR-Intron10-3191 + GUAAAAACCAAAUAAACAAACAA 23 22073CFTR-Intron10-3192 + AGUAAAAACCAAAUAAACAAACAA 24 22074CFTR-Intron10-3193 + UGUGUGGCUUAUAAACAA 18 22075 CFTR-Intron10-3194 +CUGUGUGGCUUAUAAACAA 19 22076 CFTR-Intron10-3195 + ACUGUGUGGCUUAUAAACAA20 22077 CFTR-Intron10-3196 + AACUGUGUGGCUUAUAAACAA 21 22078CFTR-Intron10-3197 + GAACUGUGUGGCUUAUAAACAA 22 22079CFTR-Intron10-3198 + UGAACUGUGUGGCUUAUAAACAA 23 22080CFTR-Intron10-3199 + AUGAACUGUGUGGCUUAUAAACAA 24 22081CFTR-Intron10-3200 + CAGCUGUGAUGCAGACAA 18 22082 CFTR-Intron10-3201 +UCAGCUGUGAUGCAGACAA 19 22083 CFTR-Intron10-3202 + UUCAGCUGUGAUGCAGACAA20 22084 CFTR-Intron10-3203 + CUUCAGCUGUGAUGCAGACAA 21 22085CFTR-Intron10-3204 + GCUUCAGCUGUGAUGCAGACAA 22 22086CFTR-Intron10-3205 + UGCUUCAGCUGUGAUGCAGACAA 23 22087CFTR-Intron10-3206 + CUGCUUCAGCUGUGAUGCAGACAA 24 22088CFTR-Intron10-3207 + UAAUGAGUUACAAUACAA 18 22089 CFTR-Intron10-3208 +UUAAUGAGUUACAAUACAA 19 22090 CFTR-Intron10-3209 + AUUAAUGAGUUACAAUACAA20 22091 CFTR-Intron10-3210 + AAUUAAUGAGUUACAAUACAA 21 22092CFTR-Intron10-3211 + AAAUUAAUGAGUUACAAUACAA 22 22093CFTR-Intron10-3212 + UAAAUUAAUGAGUUACAAUACAA 23 22094CFTR-Intron10-3213 + AUAAAUUAAUGAGUUACAAUACAA 24 22095CFTR-Intron10-3214 + AGCUUACCGUAAUAGCAA 18 22096 CFTR-Intron10-3215 +GAGCUUACCGUAAUAGCAA 19 22097 CFTR-Intron10-3216 + UGAGCUUACCGUAAUAGCAA20 22098 CFTR-Intron10-3217 + UUGAGCUUACCGUAAUAGCAA 21 22099CFTR-Intron10-3218 + CUUGAGCUUACCGUAAUAGCAA 22 22100CFTR-Intron10-3219 + GCUUGAGCUUACCGUAAUAGCAA 23 22101CFTR-Intron10-3220 + UGCUUGAGCUUACCGUAAUAGCAA 24 22102CFTR-Intron10-3221 + GGUCAAUUGUAUUAGCAA 18 22103 CFTR-Intron10-3222 +GGGUCAAUUGUAUUAGCAA 19 22104 CFTR-Intron10-3223 + AGGGUCAAUUGUAUUAGCAA20 22105 CFTR-Intron10-3224 + AAGGGUCAAUUGUAUUAGCAA 21 22106CFTR-Intron10-3225 + UAAGGGUCAAUUGUAUUAGCAA 22 22107CFTR-Intron10-3226 + UUAAGGGUCAAUUGUAUUAGCAA 23 22108CFTR-Intron10-3227 + UUUAAGGGUCAAUUGUAUUAGCAA 24 22109CFTR-Intron10-3228 + UUAGUAAAAAAAAAUCAA 18 22110 CFTR-Intron10-3229 +AUUAGUAAAAAAAAAUCAA 19 22111 CFTR-Intron10-3230 + AAUUAGUAAAAAAAAAUCAA20 22112 CFTR-Intron10-3231 + AAAUUAGUAAAAAAAAAUCAA 21 22113CFTR-Intron10-3232 + AAAAUUAGUAAAAAAAAAUCAA 22 22114CFTR-Intron10-3233 + CAAAAUUAGUAAAAAAAAAUCAA 23 22115CFTR-Intron10-3234 + ACAAAAUUAGUAAAAAAAAAUCAA 24 22116CFTR-Intron10-3235 + AGCUAAAAUGACAAUCAA 18 22117 CFTR-Intron10-3236 +CAGCUAAAAUGACAAUCAA 19 22118 CFTR-Intron10-3237 + ACAGCUAAAAUGACAAUCAA20 22119 CFTR-Intron10-3238 + CACAGCUAAAAUGACAAUCAA 21 22120CFTR-Intron10-3239 + CCACAGCUAAAAUGACAAUCAA 22 22121CFTR-Intron10-3240 + ACCACAGCUAAAAUGACAAUCAA 23 22122CFTR-Intron10-3241 + UACCACAGCUAAAAUGACAAUCAA 24 22123CFTR-Intron10-3242 + CUGAAGCGGAAAGGUCAA 18 22124 CFTR-Intron10-3243 +GCUGAAGCGGAAAGGUCAA 19 22125 CFTR-Intron10-3244 + GGCUGAAGCGGAAAGGUCAA20 22126 CFTR-Intron10-3245 + AGGCUGAAGCGGAAAGGUCAA 21 22127CFTR-Intron10-3246 + GAGGCUGAAGCGGAAAGGUCAA 22 22128CFTR-Intron10-3247 + GGAGGCUGAAGCGGAAAGGUCAA 23 22129CFTR-Intron10-3248 + GGGAGGCUGAAGCGGAAAGGUCAA 24 22130CFTR-Intron10-3249 + CACCUGAAAUAUAUUCAA 18 22131 CFTR-Intron10-3250 +UCACCUGAAAUAUAUUCAA 19 22132 CFTR-Intron10-3251 + AUCACCUGAAAUAUAUUCAA20 22133 CFTR-Intron10-3252 + UAUCACCUGAAAUAUAUUCAA 21 22134CFTR-Intron10-3253 + AUAUCACCUGAAAUAUAUUCAA 22 22135CFTR-Intron10-3254 + AAUAUCACCUGAAAUAUAUUCAA 23 22136CFTR-Intron10-3255 + UAAUAUCACCUGAAAUAUAUUCAA 24 22137CFTR-Intron10-3256 + AAAAAAAAAAAAAAAGAA 18 22138 CFTR-Intron10-3257 +AAAAAAAAAAAAAAAAGAA 19 22139 CFTR-Intron10-3258 + AAAAAAAAAAAAAAAAAGAA20 22140 CFTR-Intron10-3259 + AAAAAAAAAAAAAAAAAAGAA 21 22141CFTR-Intron10-3260 + AAAAAAAAAAAAAAAAAAAGAA 22 22142CFTR-Intron10-3261 + AAAAAAAAAAAAAAAAAAAAGAA 23 22143CFTR-Intron10-3262 + AAAAAAAAAAAAAAAAAAAAAGAA 24 22144CFTR-Intron10-3263 + GAAAUAUAUUCAAAAGAA 18 22145 CFTR-Intron10-3264 +UGAAAUAUAUUCAAAAGAA 19 22146 CFTR-Intron10-1103 + CUGAAAUAUAUUCAAAAGAA20 19988 CFTR-Intron10-3265 + CCUGAAAUAUAUUCAAAAGAA 21 22147CFTR-Intron10-3266 + ACCUGAAAUAUAUUCAAAAGAA 22 22148CFTR-Intron10-3267 + CACCUGAAAUAUAUUCAAAAGAA 23 22149CFTR-Intron10-3268 + UCACCUGAAAUAUAUUCAAAAGAA 24 22150CFTR-Intron10-3269 + AAAAAUACGAUAUAAGAA 18 22151 CFTR-Intron10-3270 +CAAAAAUACGAUAUAAGAA 19 22152 CFTR-Intron10-3271 + GCAAAAAUACGAUAUAAGAA20 22153 CFTR-Intron10-3272 + UGCAAAAAUACGAUAUAAGAA 21 22154CFTR-Intron10-3273 + UUGCAAAAAUACGAUAUAAGAA 22 22155CFTR-Intron10-3274 + GUUGCAAAAAUACGAUAUAAGAA 23 22156CFTR-Intron10-3275 + AGUUGCAAAAAUACGAUAUAAGAA 24 22157CFTR-Intron10-3276 + UGAGGGAAUGCAGGAGAA 18 22158 CFTR-Intron10-3277 +AUGAGGGAAUGCAGGAGAA 19 22159 CFTR-Intron10-649 + GAUGAGGGAAUGCAGGAGAA 2019535 CFTR-Intron10-3278 + GGAUGAGGGAAUGCAGGAGAA 21 22160CFTR-Intron10-3279 + UGGAUGAGGGAAUGCAGGAGAA 22 22161CFTR-Intron10-3280 + UUGGAUGAGGGAAUGCAGGAGAA 23 22162CFTR-Intron10-3281 + GUUGGAUGAGGGAAUGCAGGAGAA 24 22163CFTR-Intron10-3282 + AAUAAACAAACAAAGGAA 18 22164 CFTR-Intron10-3283 +AAAUAAACAAACAAAGGAA 19 22165 CFTR-Intron10-3284 + CAAAUAAACAAACAAAGGAA20 22166 CFTR-Intron10-3285 + CCAAAUAAACAAACAAAGGAA 21 22167CFTR-Intron10-3286 + ACCAAAUAAACAAACAAAGGAA 22 22168CFTR-Intron10-3287 + AACCAAAUAAACAAACAAAGGAA 23 22169CFTR-Intron10-3288 + AAACCAAAUAAACAAACAAAGGAA 24 22170CFTR-Intron10-3289 + AAAACUGAGUAGAAGGAA 18 22171 CFTR-Intron10-3290 +UAAAACUGAGUAGAAGGAA 19 22172 CFTR-Intron10-349 + CUAAAACUGAGUAGAAGGAA 2019235 CFTR-Intron10-3291 + ACUAAAACUGAGUAGAAGGAA 21 22173CFTR-Intron10-3292 + GACUAAAACUGAGUAGAAGGAA 22 22174CFTR-Intron10-3293 + UGACUAAAACUGAGUAGAAGGAA 23 22175CFTR-Intron10-3294 + CUGACUAAAACUGAGUAGAAGGAA 24 22176CFTR-Intron10-3295 + UAAACAGAAUCAGGGGAA 18 22177 CFTR-Intron10-3296 +UUAAACAGAAUCAGGGGAA 19 22178 CFTR-Intron10-3297 + UUUAAACAGAAUCAGGGGAA20 22179 CFTR-Intron10-3298 + AUUUAAACAGAAUCAGGGGAA 21 22180CFTR-Intron10-3299 + UAUUUAAACAGAAUCAGGGGAA 22 22181CFTR-Intron10-3300 + CUAUUUAAACAGAAUCAGGGGAA 23 22182CFTR-Intron10-3301 + GCUAUUUAAACAGAAUCAGGGGAA 24 22183CFTR-Intron10-3302 + GCACUUUGGGAGGCUGAA 18 22184 CFTR-Intron10-3303 +AGCACUUUGGGAGGCUGAA 19 22185 CFTR-Intron10-3304 + CAGCACUUUGGGAGGCUGAA20 22186 CFTR-Intron10-3305 + CCAGCACUUUGGGAGGCUGAA 21 22187CFTR-Intron10-3306 + CCCAGCACUUUGGGAGGCUGAA 22 22188CFTR-Intron10-3307 + ACCCAGCACUUUGGGAGGCUGAA 23 22189CFTR-Intron10-3308 + AACCCAGCACUUUGGGAGGCUGAA 24 22190CFTR-Intron10-3309 + GUACAUUUAAUAUCUGAA 18 22191 CFTR-Intron10-3310 +UGUACAUUUAAUAUCUGAA 19 22192 CFTR-Intron10-3311 + AUGUACAUUUAAUAUCUGAA20 22193 CFTR-Intron10-3312 + GAUGUACAUUUAAUAUCUGAA 21 22194CFTR-Intron10-3313 + UGAUGUACAUUUAAUAUCUGAA 22 22195CFTR-Intron10-3314 + AUGAUGUACAUUUAAUAUCUGAA 23 22196CFTR-Intron10-3315 + AAUGAUGUACAUUUAAUAUCUGAA 24 22197CFTR-Intron10-3316 + AAAAAAAUUCACAAAUAA 18 22198 CFTR-Intron10-3317 +AAAAAAAAUUCACAAAUAA 19 22199 CFTR-Intron10-3318 + GAAAAAAAAUUCACAAAUAA20 22200 CFTR-Intron10-3319 + UGAAAAAAAAUUCACAAAUAA 21 22201CFTR-Intron10-3320 + CUGAAAAAAAAUUCACAAAUAA 22 22202CFTR-Intron10-3321 + ACUGAAAAAAAAUUCACAAAUAA 23 22203CFTR-Intron10-3322 + AACUGAAAAAAAAUUCACAAAUAA 24 22204CFTR-Intron10-3323 + UGAGGCAAUGAUCAAUAA 18 22205 CFTR-Intron10-3324 +GUGAGGCAAUGAUCAAUAA 19 22206 CFTR-Intron10-3325 + AGUGAGGCAAUGAUCAAUAA20 22207 CFTR-Intron10-3326 + UAGUGAGGCAAUGAUCAAUAA 21 22208CFTR-Intron10-3327 + AUAGUGAGGCAAUGAUCAAUAA 22 22209CFTR-Intron10-3328 + CAUAGUGAGGCAAUGAUCAAUAA 23 22210CFTR-Intron10-3329 + CCAUAGUGAGGCAAUGAUCAAUAA 24 22211CFTR-Intron10-3330 + AGAACCUAUAAGGAAUAA 18 22212 CFTR-Intron10-3331 +CAGAACCUAUAAGGAAUAA 19 22213 CFTR-Intron10-3332 + ACAGAACCUAUAAGGAAUAA20 22214 CFTR-Intron10-3333 + UACAGAACCUAUAAGGAAUAA 21 22215CFTR-Intron10-3334 + UUACAGAACCUAUAAGGAAUAA 22 22216CFTR-Intron10-3335 + AUUACAGAACCUAUAAGGAAUAA 23 22217CFTR-Intron10-3336 + AAUUACAGAACCUAUAAGGAAUAA 24 22218CFTR-Intron10-3337 + ACAGUGACUUCAUAAUAA 18 22219 CFTR-Intron10-3338 +UACAGUGACUUCAUAAUAA 19 22220 CFTR-Intron10-1111 + AUACAGUGACUUCAUAAUAA20 19996 CFTR-Intron10-3339 + AAUACAGUGACUUCAUAAUAA 21 22221CFTR-Intron10-3340 + CAAUACAGUGACUUCAUAAUAA 22 22222CFTR-Intron10-3341 + ACAAUACAGUGACUUCAUAAUAA 23 22223CFTR-Intron10-3342 + GACAAUACAGUGACUUCAUAAUAA 24 22224CFTR-Intron10-3343 + UUACACUACUUAUAAUAA 18 22225 CFTR-Intron10-3344 +UUUACACUACUUAUAAUAA 19 22226 CFTR-Intron10-3345 + UUUUACACUACUUAUAAUAA20 22227 CFTR-Intron10-3346 + AUUUUACACUACUUAUAAUAA 21 22228CFTR-Intron10-3347 + UAUUUUACACUACUUAUAAUAA 22 22229CFTR-Intron10-3348 + AUAUUUUACACUACUUAUAAUAA 23 22230CFTR-Intron10-3349 + GAUAUUUUACACUACUUAUAAUAA 24 22231CFTR-Intron10-3350 + CAAGUAGAAAAAAGAUAA 18 22232 CFTR-Intron10-3351 +GCAAGUAGAAAAAAGAUAA 19 22233 CFTR-Intron10-3352 + AGCAAGUAGAAAAAAGAUAA20 22234 CFTR-Intron10-3353 + AAGCAAGUAGAAAAAAGAUAA 21 22235CFTR-Intron10-3354 + AAAGCAAGUAGAAAAAAGAUAA 22 22236CFTR-Intron10-3355 + CAAAGCAAGUAGAAAAAAGAUAA 23 22237CFTR-Intron10-3356 + GCAAAGCAAGUAGAAAAAAGAUAA 24 22238CFTR-Intron10-3357 + AUAAUAUACAAGAUAUAA 18 22239 CFTR-Intron10-3358 +AAUAAUAUACAAGAUAUAA 19 22240 CFTR-Intron10-3359 + UAAUAAUAUACAAGAUAUAA20 22241 CFTR-Intron10-3360 + GUAAUAAUAUACAAGAUAUAA 21 22242CFTR-Intron10-3361 + AGUAAUAAUAUACAAGAUAUAA 22 22243CFTR-Intron10-3362 + UAGUAAUAAUAUACAAGAUAUAA 23 22244CFTR-Intron10-3363 + CUAGUAAUAAUAUACAAGAUAUAA 24 22245CFTR-Intron10-3364 + UAACUUUAUGCUAACUAA 18 22246 CFTR-Intron10-3365 +CUAACUUUAUGCUAACUAA 19 22247 CFTR-Intron10-3366 + CCUAACUUUAUGCUAACUAA20 22248 CFTR-Intron10-3367 + ACCUAACUUUAUGCUAACUAA 21 22249CFTR-Intron10-3368 + AACCUAACUUUAUGCUAACUAA 22 22250CFTR-Intron10-3369 + AAACCUAACUUUAUGCUAACUAA 23 22251CFTR-Intron10-3370 + CAAACCUAACUUUAUGCUAACUAA 24 22252CFTR-Intron10-3371 + AGUAAAGUAACAAAGUAA 18 22253 CFTR-Intron10-3372 +CAGUAAAGUAACAAAGUAA 19 22254 CFTR-Intron10-3373 + UCAGUAAAGUAACAAAGUAA20 22255 CFTR-Intron10-3374 + AUCAGUAAAGUAACAAAGUAA 21 22256CFTR-Intron10-3375 + UAUCAGUAAAGUAACAAAGUAA 22 22257CFTR-Intron10-3376 + UUAUCAGUAAAGUAACAAAGUAA 23 22258CFTR-Intron10-3377 + UUUAUCAGUAAAGUAACAAAGUAA 24 22259CFTR-Intron10-3378 + AGCUAAUAAAUAAAGUAA 18 22260 CFTR-Intron10-3379 +AAGCUAAUAAAUAAAGUAA 19 22261 CFTR-Intron10-3380 + AAAGCUAAUAAAUAAAGUAA20 22262 CFTR-Intron10-3381 + UAAAGCUAAUAAAUAAAGUAA 21 22263CFTR-Intron10-3382 + UUAAAGCUAAUAAAUAAAGUAA 22 22264CFTR-Intron10-3383 + UUUAAAGCUAAUAAAUAAAGUAA 23 22265CFTR-Intron10-3384 + AUUUAAAGCUAAUAAAUAAAGUAA 24 22266CFTR-Intron10-3385 + UUCUAGAAAACAAUGUAA 18 22267 CFTR-Intron10-3386 +UUUCUAGAAAACAAUGUAA 19 22268 CFTR-Intron10-1114 + UUUUCUAGAAAACAAUGUAA20 19999 CFTR-Intron10-3387 + AUUUUCUAGAAAACAAUGUAA 21 22269CFTR-Intron10-3388 + GAUUUUCUAGAAAACAAUGUAA 22 22270CFTR-Intron10-3389 + AGAUUUUCUAGAAAACAAUGUAA 23 22271CFTR-Intron10-3390 + CAGAUUUUCUAGAAAACAAUGUAA 24 22272CFTR-Intron10-3391 + UAUAAGUGUGGAGUGUAA 18 22273 CFTR-Intron10-3392 +GUAUAAGUGUGGAGUGUAA 19 22274 CFTR-Intron10-72 + GGUAUAAGUGUGGAGUGUAA 2018958 CFTR-Intron10-3393 + GGGUAUAAGUGUGGAGUGUAA 21 22275CFTR-Intron10-3394 + GGGGUAUAAGUGUGGAGUGUAA 22 22276CFTR-Intron10-3395 + UGGGGUAUAAGUGUGGAGUGUAA 23 22277CFTR-Intron10-3396 + AUGGGGUAUAAGUGUGGAGUGUAA 24 22278CFTR-Intron10-3397 + UGAACUCUAAUCUAUUAA 18 22279 CFTR-Intron10-3398 +UUGAACUCUAAUCUAUUAA 19 22280 CFTR-Intron10-3399 + AUUGAACUCUAAUCUAUUAA20 22281 CFTR-Intron10-3400 + AAUUGAACUCUAAUCUAUUAA 21 22282CFTR-Intron10-3401 + GAAUUGAACUCUAAUCUAUUAA 22 22283CFTR-Intron10-3402 + UGAAUUGAACUCUAAUCUAUUAA 23 22284CFTR-Intron10-3403 + CUGAAUUGAACUCUAAUCUAUUAA 24 22285CFTR-Intron10-3404 + GCUUAACCCAUCUAUUAA 18 22286 CFTR-Intron10-3405 +GGCUUAACCCAUCUAUUAA 19 22287 CFTR-Intron10-3406 + UGGCUUAACCCAUCUAUUAA20 22288 CFTR-Intron10-3407 + UUGGCUUAACCCAUCUAUUAA 21 22289CFTR-Intron10-3408 + GUUGGCUUAACCCAUCUAUUAA 22 22290CFTR-Intron10-3409 + AGUUGGCUUAACCCAUCUAUUAA 23 22291CFTR-Intron10-3410 + CAGUUGGCUUAACCCAUCUAUUAA 24 22292CFTR-Intron10-3411 + AAUUUUCCAAUGUAUUAA 18 22293 CFTR-Intron10-3412 +AAAUUUUCCAAUGUAUUAA 19 22294 CFTR-Intron10-3413 + AAAAUUUUCCAAUGUAUUAA20 22295 CFTR-Intron10-3414 + AAAAAUUUUCCAAUGUAUUAA 21 22296CFTR-Intron10-3415 + CAAAAAUUUUCCAAUGUAUUAA 22 22297CFTR-Intron10-3416 + CCAAAAAUUUUCCAAUGUAUUAA 23 22298CFTR-Intron10-3417 + CCCAAAAAUUUUCCAAUGUAUUAA 24 22299CFTR-Intron10-3418 + AGCCUAGAUGAUUAUUAA 18 22300 CFTR-Intron10-3419 +CAGCCUAGAUGAUUAUUAA 19 22301 CFTR-Intron10-3420 + GCAGCCUAGAUGAUUAUUAA20 22302 CFTR-Intron10-3421 + UGCAGCCUAGAUGAUUAUUAA 21 22303CFTR-Intron10-3422 + UUGCAGCCUAGAUGAUUAUUAA 22 22304CFTR-Intron10-3423 + UUUGCAGCCUAGAUGAUUAUUAA 23 22305CFTR-Intron10-3424 + UUUUGCAGCCUAGAUGAUUAUUAA 24 22306CFTR-Intron10-3425 + UAUUUCCUCAAUAGUUAA 18 22307 CFTR-Intron10-3426 +UUAUUUCCUCAAUAGUUAA 19 22308 CFTR-Intron10-3427 + UUUAUUUCCUCAAUAGUUAA20 22309 CFTR-Intron10-3428 + AUUUAUUUCCUCAAUAGUUAA 21 22310CFTR-Intron10-3429 + AAUUUAUUUCCUCAAUAGUUAA 22 22311CFTR-Intron10-3430 + AAAUUUAUUUCCUCAAUAGUUAA 23 22312CFTR-Intron10-3431 + UAAAUUUAUUUCCUCAAUAGUUAA 24 22313CFTR-Intron10-3432 + CAACAUUCUUGGAAAACA 18 22314 CFTR-Intron10-3433 +ACAACAUUCUUGGAAAACA 19 22315 CFTR-Intron10-3434 + AACAACAUUCUUGGAAAACA20 22316 CFTR-Intron10-3435 + GAACAACAUUCUUGGAAAACA 21 22317CFTR-Intron10-3436 + UGAACAACAUUCUUGGAAAACA 22 22318CFTR-Intron10-3437 + UUGAACAACAUUCUUGGAAAACA 23 22319CFTR-Intron10-3438 + UUUGAACAACAUUCUUGGAAAACA 24 22320CFTR-Intron10-3439 + AAUGAAACAAAUAAAACA 18 22321 CFTR-Intron10-3440 +AAAUGAAACAAAUAAAACA 19 22322 CFTR-Intron10-3441 + GAAAUGAAACAAAUAAAACA20 22323 CFTR-Intron10-3442 + AGAAAUGAAACAAAUAAAACA 21 22324CFTR-Intron10-3443 + AAGAAAUGAAACAAAUAAAACA 22 22325CFTR-Intron10-3444 + AAAGAAAUGAAACAAAUAAAACA 23 22326CFTR-Intron10-3445 + AAAAGAAAUGAAACAAAUAAAACA 24 22327CFTR-Intron10-3446 + AAACCAAAUAAACAAACA 18 22328 CFTR-Intron10-3447 +AAAACCAAAUAAACAAACA 19 22329 CFTR-Intron10-3448 + AAAAACCAAAUAAACAAACA20 22330 CFTR-Intron10-3449 + UAAAAACCAAAUAAACAAACA 21 22331CFTR-Intron10-3450 + GUAAAAACCAAAUAAACAAACA 22 22332CFTR-Intron10-3451 + AGUAAAAACCAAAUAAACAAACA 23 22333CFTR-Intron10-3452 + AAGUAAAAACCAAAUAAACAAACA 24 22334CFTR-Intron10-3453 + AAACUGUAAAUACAAACA 18 22335 CFTR-Intron10-3454 +AAAACUGUAAAUACAAACA 19 22336 CFTR-Intron10-3455 + UAAAACUGUAAAUACAAACA20 22337 CFTR-Intron10-3456 + UUAAAACUGUAAAUACAAACA 21 22338CFTR-Intron10-3457 + CUUAAAACUGUAAAUACAAACA 22 22339CFTR-Intron10-3458 + ACUUAAAACUGUAAAUACAAACA 23 22340CFTR-Intron10-3459 + AACUUAAAACUGUAAAUACAAACA 24 22341CFTR-Intron10-3460 + GACAAUCAAAUGGGAACA 18 22342 CFTR-Intron10-3461 +UGACAAUCAAAUGGGAACA 19 22343 CFTR-Intron10-363 + AUGACAAUCAAAUGGGAACA 2019249 CFTR-Intron10-3462 + AAUGACAAUCAAAUGGGAACA 21 22344CFTR-Intron10-3463 + AAAUGACAAUCAAAUGGGAACA 22 22345CFTR-Intron10-3464 + AAAAUGACAAUCAAAUGGGAACA 23 22346CFTR-Intron10-3465 + UAAAAUGACAAUCAAAUGGGAACA 24 22347CFTR-Intron10-3466 + AACCUAUAAGGAAUAACA 18 22348 CFTR-Intron10-3467 +GAACCUAUAAGGAAUAACA 19 22349 CFTR-Intron10-364 + AGAACCUAUAAGGAAUAACA 2019250 CFTR-Intron10-3468 + CAGAACCUAUAAGGAAUAACA 21 22350CFTR-Intron10-3469 + ACAGAACCUAUAAGGAAUAACA 22 22351CFTR-Intron10-3470 + UACAGAACCUAUAAGGAAUAACA 23 22352CFTR-Intron10-3471 + UUACAGAACCUAUAAGGAAUAACA 24 22353CFTR-Intron10-3472 + GAGAGAGAACUGCUCACA 18 22354 CFTR-Intron10-3473 +GGAGAGAGAACUGCUCACA 19 22355 CFTR-Intron10-1122 + UGGAGAGAGAACUGCUCACA20 20007 CFTR-Intron10-3474 + CUGGAGAGAGAACUGCUCACA 21 22356CFTR-Intron10-3475 + ACUGGAGAGAGAACUGCUCACA 22 22357CFTR-Intron10-3476 + UACUGGAGAGAGAACUGCUCACA 23 22358CFTR-Intron10-3477 + UUACUGGAGAGAGAACUGCUCACA 24 22359CFTR-Intron10-3478 + UUUACAAUUCUUAUUACA 18 22360 CFTR-Intron10-3479 +UUUUACAAUUCUUAUUACA 19 22361 CFTR-Intron10-1125 + AUUUUACAAUUCUUAUUACA20 20010 CFTR-Intron10-3480 + AAUUUUACAAUUCUUAUUACA 21 22362CFTR-Intron10-3481 + AAAUUUUACAAUUCUUAUUACA 22 22363CFTR-Intron10-3482 + UAAAUUUUACAAUUCUUAUUACA 23 22364CFTR-Intron10-3483 + GUAAAUUUUACAAUUCUUAUUACA 24 22365CFTR-Intron10-3484 + CAGGAGUUCAAGGUUACA 18 22366 CFTR-Intron10-3485 +CCAGGAGUUCAAGGUUACA 19 22367 CFTR-Intron10-3486 + CCCAGGAGUUCAAGGUUACA20 22368 CFTR-Intron10-3487 + GCCCAGGAGUUCAAGGUUACA 21 22369CFTR-Intron10-3488 + AGCCCAGGAGUUCAAGGUUACA 22 22370CFTR-Intron10-3489 + GAGCCCAGGAGUUCAAGGUUACA 23 22371CFTR-Intron10-3490 + UGAGCCCAGGAGUUCAAGGUUACA 24 22372CFTR-Intron10-3491 + UGAGCUAUGAUCACACCA 18 22373 CFTR-Intron10-3492 +GUGAGCUAUGAUCACACCA 19 22374 CFTR-Intron10-3493 + AGUGAGCUAUGAUCACACCA20 22375 CFTR-Intron10-3494 + CAGUGAGCUAUGAUCACACCA 21 22376CFTR-Intron10-3495 + ACAGUGAGCUAUGAUCACACCA 22 22377CFTR-Intron10-3496 + UACAGUGAGCUAUGAUCACACCA 23 22378CFTR-Intron10-3497 + UUACAGUGAGCUAUGAUCACACCA 24 22379CFTR-Intron10-3498 + GGCCUCUAAUCUCACCCA 18 22380 CFTR-Intron10-3499 +UGGCCUCUAAUCUCACCCA 19 22381 CFTR-Intron10-3500 + GUGGCCUCUAAUCUCACCCA20 22382 CFTR-Intron10-3501 + AGUGGCCUCUAAUCUCACCCA 21 22383CFTR-Intron10-3502 + CAGUGGCCUCUAAUCUCACCCA 22 22384CFTR-Intron10-3503 + CCAGUGGCCUCUAAUCUCACCCA 23 22385CFTR-Intron10-3504 + UCCAGUGGCCUCUAAUCUCACCCA 24 22386CFTR-Intron10-3505 + CAGCUAAAGUAUUACCCA 18 22387 CFTR-Intron10-3506 +ACAGCUAAAGUAUUACCCA 19 22388 CFTR-Intron10-3507 + UACAGCUAAAGUAUUACCCA20 22389 CFTR-Intron10-3508 + AUACAGCUAAAGUAUUACCCA 21 22390CFTR-Intron10-3509 + UAUACAGCUAAAGUAUUACCCA 22 22391CFTR-Intron10-3510 + AUAUACAGCUAAAGUAUUACCCA 23 22392CFTR-Intron10-3511 + AAUAUACAGCUAAAGUAUUACCCA 24 22393CFTR-Intron10-3512 + AGUGUUUAAAUAUUCCCA 18 22394 CFTR-Intron10-3513 +AAGUGUUUAAAUAUUCCCA 19 22395 CFTR-Intron10-76 + GAAGUGUUUAAAUAUUCCCA 2018962 CFTR-Intron10-3514 + AGAAGUGUUUAAAUAUUCCCA 21 22396CFTR-Intron10-3515 + CAGAAGUGUUUAAAUAUUCCCA 22 22397CFTR-Intron10-3516 + UCAGAAGUGUUUAAAUAUUCCCA 23 22398CFTR-Intron10-3517 + CUCAGAAGUGUUUAAAUAUUCCCA 24 22399CFTR-Intron10-3518 + UAGUAUUAAGUAUAGCCA 18 22400 CFTR-Intron10-3519 +UUAGUAUUAAGUAUAGCCA 19 22401 CFTR-Intron10-3520 + AUUAGUAUUAAGUAUAGCCA20 22402 CFTR-Intron10-3521 + UAUUAGUAUUAAGUAUAGCCA 21 22403CFTR-Intron10-3522 + UUAUUAGUAUUAAGUAUAGCCA 22 22404CFTR-Intron10-3523 + GUUAUUAGUAUUAAGUAUAGCCA 23 22405CFTR-Intron10-3524 + AGUUAUUAGUAUUAAGUAUAGCCA 24 22406CFTR-Intron10-3525 + UGAGUAUACUUUAUGCCA 18 22407 CFTR-Intron10-3526 +GUGAGUAUACUUUAUGCCA 19 22408 CFTR-Intron10-3527 + UGUGAGUAUACUUUAUGCCA20 22409 CFTR-Intron10-3528 + AUGUGAGUAUACUUUAUGCCA 21 22410CFTR-Intron10-3529 + UAUGUGAGUAUACUUUAUGCCA 22 22411CFTR-Intron10-3530 + CUAUGUGAGUAUACUUUAUGCCA 23 22412CFTR-Intron10-3531 + ACUAUGUGAGUAUACUUUAUGCCA 24 22413CFTR-Intron10-3532 + GAAGGAAAGGAGGUAGCA 18 22414 CFTR-Intron10-3533 +AGAAGGAAAGGAGGUAGCA 19 22415 CFTR-Intron10-3534 + UAGAAGGAAAGGAGGUAGCA20 22416 CFTR-Intron10-3535 + GUAGAAGGAAAGGAGGUAGCA 21 22417CFTR-Intron10-3536 + AGUAGAAGGAAAGGAGGUAGCA 22 22418CFTR-Intron10-3537 + GAGUAGAAGGAAAGGAGGUAGCA 23 22419CFTR-Intron10-3538 + UGAGUAGAAGGAAAGGAGGUAGCA 24 22420CFTR-Intron10-3539 + UUCAACAUAUGAAUGGCA 18 22421 CFTR-Intron10-3540 +UUUCAACAUAUGAAUGGCA 19 22422 CFTR-Intron10-1128 + AUUUCAACAUAUGAAUGGCA20 20013 CFTR-Intron10-3541 + GAUUUCAACAUAUGAAUGGCA 21 22423CFTR-Intron10-3542 + GGAUUUCAACAUAUGAAUGGCA 22 22424CFTR-Intron10-3543 + AGGAUUUCAACAUAUGAAUGGCA 23 22425CFTR-Intron10-3544 + UAGGAUUUCAACAUAUGAAUGGCA 24 22426CFTR-Intron10-3545 + CGGGAGGCGGAGCUUGCA 18 22427 CFTR-Intron10-3546 +CCGGGAGGCGGAGCUUGCA 19 22428 CFTR-Intron10-3547 + CCCGGGAGGCGGAGCUUGCA20 22429 CFTR-Intron10-3548 + ACCCGGGAGGCGGAGCUUGCA 21 22430CFTR-Intron10-3549 + AACCCGGGAGGCGGAGCUUGCA 22 22431CFTR-Intron10-3550 + GAACCCGGGAGGCGGAGCUUGCA 23 22432CFTR-Intron10-3551 + UGAACCCGGGAGGCGGAGCUUGCA 24 22433CFTR-Intron10-3552 + CGGGAGGCAGAGGUUGCA 18 22434 CFTR-Intron10-3553 +CCGGGAGGCAGAGGUUGCA 19 22435 CFTR-Intron10-3554 + CCCGGGAGGCAGAGGUUGCA20 22436 CFTR-Intron10-3555 + GCCCGGGAGGCAGAGGUUGCA 21 22437CFTR-Intron10-3556 + AGCCCGGGAGGCAGAGGUUGCA 22 22438CFTR-Intron10-3557 + GAGCCCGGGAGGCAGAGGUUGCA 23 22439CFTR-Intron10-3558 + UGAGCCCGGGAGGCAGAGGUUGCA 24 22440CFTR-Intron10-3559 + GCUAUUUAAACAGAAUCA 18 22441 CFTR-Intron10-3560 +UGCUAUUUAAACAGAAUCA 19 22442 CFTR-Intron10-77 + GUGCUAUUUAAACAGAAUCA 2018963 CFTR-Intron10-3561 + AGUGCUAUUUAAACAGAAUCA 21 22443CFTR-Intron10-3562 + CAGUGCUAUUUAAACAGAAUCA 22 22444CFTR-Intron10-3563 + CCAGUGCUAUUUAAACAGAAUCA 23 22445CFTR-Intron10-3564 + UCCAGUGCUAUUUAAACAGAAUCA 24 22446CFTR-Intron10-3565 + AGUACAAAAGGACUAUCA 18 22447 CFTR-Intron10-3566 +UAGUACAAAAGGACUAUCA 19 22448 CFTR-Intron10-3567 + AUAGUACAAAAGGACUAUCA20 22449 CFTR-Intron10-3568 + GAUAGUACAAAAGGACUAUCA 21 22450CFTR-Intron10-3569 + UGAUAGUACAAAAGGACUAUCA 22 22451CFTR-Intron10-3570 + AUGAUAGUACAAAAGGACUAUCA 23 22452CFTR-Intron10-3571 + GAUGAUAGUACAAAAGGACUAUCA 24 22453CFTR-Intron10-3572 + UUAGGAUAUCUUAGGUCA 18 22454 CFTR-Intron10-3573 +CUUAGGAUAUCUUAGGUCA 19 22455 CFTR-Intron10-3574 + CCUUAGGAUAUCUUAGGUCA20 22456 CFTR-Intron10-3575 + CCCUUAGGAUAUCUUAGGUCA 21 22457CFTR-Intron10-3576 + UCCCUUAGGAUAUCUUAGGUCA 22 22458CFTR-Intron10-3577 + UUCCCUUAGGAUAUCUUAGGUCA 23 22459CFTR-Intron10-3578 + UUUCCCUUAGGAUAUCUUAGGUCA 24 22460CFTR-Intron10-3579 + UAUUCUUUUAUGUGGUCA 18 22461 CFTR-Intron10-3580 +AUAUUCUUUUAUGUGGUCA 19 22462 CFTR-Intron10-3581 + UAUAUUCUUUUAUGUGGUCA20 22463 CFTR-Intron10-3582 + AUAUAUUCUUUUAUGUGGUCA 21 22464CFTR-Intron10-3583 + AAUAUAUUCUUUUAUGUGGUCA 22 22465CFTR-Intron10-3584 + GAAUAUAUUCUUUUAUGUGGUCA 23 22466CFTR-Intron10-3585 + CGAAUAUAUUCUUUUAUGUGGUCA 24 22467CFTR-Intron10-3586 + CUUCACUAAAAUAAUUCA 18 22468 CFTR-Intron10-3587 +GCUUCACUAAAAUAAUUCA 19 22469 CFTR-Intron10-1133 + UGCUUCACUAAAAUAAUUCA20 20018 CFTR-Intron10-3588 + UUGCUUCACUAAAAUAAUUCA 21 22470CFTR-Intron10-3589 + AUUGCUUCACUAAAAUAAUUCA 22 22471CFTR-Intron10-3590 + UAUUGCUUCACUAAAAUAAUUCA 23 22472CFTR-Intron10-3591 + AUAUUGCUUCACUAAAAUAAUUCA 24 22473CFTR-Intron10-3592 + AAUCUAAAAGCUAAUUCA 18 22474 CFTR-Intron10-3593 +AAAUCUAAAAGCUAAUUCA 19 22475 CFTR-Intron10-369 + UAAAUCUAAAAGCUAAUUCA 2019255 CFTR-Intron10-3594 + GUAAAUCUAAAAGCUAAUUCA 21 22476CFTR-Intron10-3595 + AGUAAAUCUAAAAGCUAAUUCA 22 22477CFTR-Intron10-3596 + AAGUAAAUCUAAAAGCUAAUUCA 23 22478CFTR-Intron10-3597 + UAAGUAAAUCUAAAAGCUAAUUCA 24 22479CFTR-Intron10-3598 + CAGGCCCAAAUACAUUCA 18 22480 CFTR-Intron10-3599 +GCAGGCCCAAAUACAUUCA 19 22481 CFTR-Intron10-3600 + UGCAGGCCCAAAUACAUUCA20 22482 CFTR-Intron10-3601 + AUGCAGGCCCAAAUACAUUCA 21 22483CFTR-Intron10-3602 + UAUGCAGGCCCAAAUACAUUCA 22 22484CFTR-Intron10-3603 + AUAUGCAGGCCCAAAUACAUUCA 23 22485CFTR-Intron10-3604 + CAUAUGCAGGCCCAAAUACAUUCA 24 22486CFTR-Intron10-3605 + GAAUUGGUACAAAUUUCA 18 22487 CFTR-Intron10-3606 +CGAAUUGGUACAAAUUUCA 19 22488 CFTR-Intron10-370 + ACGAAUUGGUACAAAUUUCA 2019256 CFTR-Intron10-3607 + UACGAAUUGGUACAAAUUUCA 21 22489CFTR-Intron10-3608 + GUACGAAUUGGUACAAAUUUCA 22 22490CFTR-Intron10-3609 + AGUACGAAUUGGUACAAAUUUCA 23 22491CFTR-Intron10-3610 + GAGUACGAAUUGGUACAAAUUUCA 24 22492CFTR-Intron10-3611 + UGAAAUAUAUUCAAAAGA 18 22493 CFTR-Intron10-3612 +CUGAAAUAUAUUCAAAAGA 19 22494 CFTR-Intron10-3613 + CCUGAAAUAUAUUCAAAAGA20 22495 CFTR-Intron10-3614 + ACCUGAAAUAUAUUCAAAAGA 21 22496CFTR-Intron10-3615 + CACCUGAAAUAUAUUCAAAAGA 22 22497CFTR-Intron10-3616 + UCACCUGAAAUAUAUUCAAAAGA 23 22498CFTR-Intron10-3617 + AUCACCUGAAAUAUAUUCAAAAGA 24 22499CFTR-Intron10-3618 + GAUGAGAGACAGUAAAGA 18 22500 CFTR-Intron10-3619 +AGAUGAGAGACAGUAAAGA 19 22501 CFTR-Intron10-3620 + CAGAUGAGAGACAGUAAAGA20 22502 CFTR-Intron10-3621 + ACAGAUGAGAGACAGUAAAGA 21 22503CFTR-Intron10-3622 + GACAGAUGAGAGACAGUAAAGA 22 22504CFTR-Intron10-3623 + GGACAGAUGAGAGACAGUAAAGA 23 22505CFTR-Intron10-3624 + UGGACAGAUGAGAGACAGUAAAGA 24 22506CFTR-Intron10-3625 + AAUAAUAACAUUUUAAGA 18 22507 CFTR-Intron10-3626 +AAAUAAUAACAUUUUAAGA 19 22508 CFTR-Intron10-3627 + AAAAUAAUAACAUUUUAAGA20 22509 CFTR-Intron10-3628 + AAAAAUAAUAACAUUUUAAGA 21 22510CFTR-Intron10-3629 + GAAAAAUAAUAACAUUUUAAGA 22 22511CFTR-Intron10-3630 + AGAAAAAUAAUAACAUUUUAAGA 23 22512CFTR-Intron10-3631 + AAGAAAAAUAAUAACAUUUUAAGA 24 22513CFTR-Intron10-3632 + UCCAGCCUGGGCGACAGA 18 22514 CFTR-Intron10-3633 +CUCCAGCCUGGGCGACAGA 19 22515 CFTR-Intron10-3634 + ACUCCAGCCUGGGCGACAGA20 22516 CFTR-Intron10-3635 + CACUCCAGCCUGGGCGACAGA 21 22517CFTR-Intron10-3636 + GCACUCCAGCCUGGGCGACAGA 22 22518CFTR-Intron10-3637 + UGCACUCCAGCCUGGGCGACAGA 23 22519CFTR-Intron10-3638 + CUGCACUCCAGCCUGGGCGACAGA 24 22520CFTR-Intron10-3639 + GUGUUCUCACAUGGCAGA 18 22521 CFTR-Intron10-3640 +UGUGUUCUCACAUGGCAGA 19 22522 CFTR-Intron10-3641 + CUGUGUUCUCACAUGGCAGA20 22523 CFTR-Intron10-3642 + GCUGUGUUCUCACAUGGCAGA 21 22524CFTR-Intron10-3643 + UGCUGUGUUCUCACAUGGCAGA 22 22525CFTR-Intron10-3644 + CUGCUGUGUUCUCACAUGGCAGA 23 22526CFTR-Intron10-3645 + CCUGCUGUGUUCUCACAUGGCAGA 24 22527CFTR-Intron10-3646 + UGAAUGGCAGGGGAGAGA 18 22528 CFTR-Intron10-3647 +AUGAAUGGCAGGGGAGAGA 19 22529 CFTR-Intron10-3648 + UAUGAAUGGCAGGGGAGAGA20 22530 CFTR-Intron10-3649 + AUAUGAAUGGCAGGGGAGAGA 21 22531CFTR-Intron10-3650 + CAUAUGAAUGGCAGGGGAGAGA 22 22532CFTR-Intron10-3651 + ACAUAUGAAUGGCAGGGGAGAGA 23 22533CFTR-Intron10-3652 + AACAUAUGAAUGGCAGGGGAGAGA 24 22534CFTR-Intron10-3653 + AUGAGGGAAUGCAGGAGA 18 22535 CFTR-Intron10-3654 +GAUGAGGGAAUGCAGGAGA 19 22536 CFTR-Intron10-3655 + GGAUGAGGGAAUGCAGGAGA20 22537 CFTR-Intron10-3656 + UGGAUGAGGGAAUGCAGGAGA 21 22538CFTR-Intron10-3657 + UUGGAUGAGGGAAUGCAGGAGA 22 22539CFTR-Intron10-3658 + GUUGGAUGAGGGAAUGCAGGAGA 23 22540CFTR-Intron10-3659 + GGUUGGAUGAGGGAAUGCAGGAGA 24 22541CFTR-Intron10-3660 + GAUCACGAGGUCAGGAGA 18 22542 CFTR-Intron10-3661 +GGAUCACGAGGUCAGGAGA 19 22543 CFTR-Intron10-3662 + CGGAUCACGAGGUCAGGAGA20 22544 CFTR-Intron10-3663 + GCGGAUCACGAGGUCAGGAGA 21 22545CFTR-Intron10-3664 + GGCGGAUCACGAGGUCAGGAGA 22 22546CFTR-Intron10-3665 + GGGCGGAUCACGAGGUCAGGAGA 23 22547CFTR-Intron10-3666 + CGGGCGGAUCACGAGGUCAGGAGA 24 22548CFTR-Intron10-3667 + UAGGAAAACAACUGGAGA 18 22549 CFTR-Intron10-3668 +GUAGGAAAACAACUGGAGA 19 22550 CFTR-Intron10-3669 + UGUAGGAAAACAACUGGAGA20 22551 CFTR-Intron10-3670 + AUGUAGGAAAACAACUGGAGA 21 22552CFTR-Intron10-3671 + UAUGUAGGAAAACAACUGGAGA 22 22553CFTR-Intron10-3672 + GUAUGUAGGAAAACAACUGGAGA 23 22554CFTR-Intron10-3673 + CGUAUGUAGGAAAACAACUGGAGA 24 22555CFTR-Intron10-3674 + UAUGCAAUUUACUGGAGA 18 22556 CFTR-Intron10-3675 +AUAUGCAAUUUACUGGAGA 19 22557 CFTR-Intron10-3676 + AAUAUGCAAUUUACUGGAGA20 22558 CFTR-Intron10-3677 + CAAUAUGCAAUUUACUGGAGA 21 22559CFTR-Intron10-3678 + GCAAUAUGCAAUUUACUGGAGA 22 22560CFTR-Intron10-3679 + UGCAAUAUGCAAUUUACUGGAGA 23 22561CFTR-Intron10-3680 + CUGCAAUAUGCAAUUUACUGGAGA 24 22562CFTR-Intron10-3681 + GAACUAGAGUCACAUAGA 18 22563 CFTR-Intron10-3682 +UGAACUAGAGUCACAUAGA 19 22564 CFTR-Intron10-3683 + GUGAACUAGAGUCACAUAGA20 22565 CFTR-Intron10-3684 + AGUGAACUAGAGUCACAUAGA 21 22566CFTR-Intron10-3685 + UAGUGAACUAGAGUCACAUAGA 22 22567CFTR-Intron10-3686 + UUAGUGAACUAGAGUCACAUAGA 23 22568CFTR-Intron10-3687 + AUUAGUGAACUAGAGUCACAUAGA 24 22569CFTR-Intron10-3688 + AUUGAUUAUAUAUAUAGA 18 22570 CFTR-Intron10-3689 +UAUUGAUUAUAUAUAUAGA 19 22571 CFTR-Intron10-3690 + AUAUUGAUUAUAUAUAUAGA20 22572 CFTR-Intron10-3691 + UAUAUUGAUUAUAUAUAUAGA 21 22573CFTR-Intron10-3692 + GUAUAUUGAUUAUAUAUAUAGA 22 22574CFTR-Intron10-3693 + UGUAUAUUGAUUAUAUAUAUAGA 23 22575CFTR-Intron10-3694 + AUGUAUAUUGAUUAUAUAUAUAGA 24 22576CFTR-Intron10-3695 + AGGAUCACUUUAUAUAGA 18 22577 CFTR-Intron10-3696 +UAGGAUCACUUUAUAUAGA 19 22578 CFTR-Intron10-3697 + CUAGGAUCACUUUAUAUAGA20 22579 CFTR-Intron10-3698 + UCUAGGAUCACUUUAUAUAGA 21 22580CFTR-Intron10-3699 + UUCUAGGAUCACUUUAUAUAGA 22 22581CFTR-Intron10-3700 + AUUCUAGGAUCACUUUAUAUAGA 23 22582CFTR-Intron10-3701 + GAUUCUAGGAUCACUUUAUAUAGA 24 22583CFTR-Intron10-3702 + UGACUAAAACUGAGUAGA 18 22584 CFTR-Intron10-3703 +CUGACUAAAACUGAGUAGA 19 22585 CFTR-Intron10-374 + ACUGACUAAAACUGAGUAGA 2019260 CFTR-Intron10-3704 + UACUGACUAAAACUGAGUAGA 21 22586CFTR-Intron10-3705 + CUACUGACUAAAACUGAGUAGA 22 22587CFTR-Intron10-3706 + ACUACUGACUAAAACUGAGUAGA 23 22588CFTR-Intron10-3707 + UACUACUGACUAAAACUGAGUAGA 24 22589CFTR-Intron10-3708 + GCACUCCAGCCUGGGCGA 18 22590 CFTR-Intron10-3709 +UGCACUCCAGCCUGGGCGA 19 22591 CFTR-Intron10-3710 + CUGCACUCCAGCCUGGGCGA20 22592 CFTR-Intron10-3711 + ACUGCACUCCAGCCUGGGCGA 21 22593CFTR-Intron10-3712 + CACUGCACUCCAGCCUGGGCGA 22 22594CFTR-Intron10-3713 + CCACUGCACUCCAGCCUGGGCGA 23 22595CFTR-Intron10-3714 + GCCACUGCACUCCAGCCUGGGCGA 24 22596CFTR-Intron10-3715 + UGACUUCAUAAUAAAGGA 18 22597 CFTR-Intron10-3716 +GUGACUUCAUAAUAAAGGA 19 22598 CFTR-Intron10-3717 + AGUGACUUCAUAAUAAAGGA20 22599 CFTR-Intron10-3718 + CAGUGACUUCAUAAUAAAGGA 21 22600CFTR-Intron10-3719 + ACAGUGACUUCAUAAUAAAGGA 22 22601CFTR-Intron10-3720 + UACAGUGACUUCAUAAUAAAGGA 23 22602CFTR-Intron10-3721 + AUACAGUGACUUCAUAAUAAAGGA 24 22603CFTR-Intron10-3722 + AUGCAGACAACAGAAGGA 18 22604 CFTR-Intron10-3723 +GAUGCAGACAACAGAAGGA 19 22605 CFTR-Intron10-3724 + UGAUGCAGACAACAGAAGGA20 22606 CFTR-Intron10-3725 + GUGAUGCAGACAACAGAAGGA 21 22607CFTR-Intron10-3726 + UGUGAUGCAGACAACAGAAGGA 22 22608CFTR-Intron10-3727 + CUGUGAUGCAGACAACAGAAGGA 23 22609CFTR-Intron10-3728 + GCUGUGAUGCAGACAACAGAAGGA 24 22610CFTR-Intron10-3729 + UAAAACUGAGUAGAAGGA 18 22611 CFTR-Intron10-3730 +CUAAAACUGAGUAGAAGGA 19 22612 CFTR-Intron10-3731 + ACUAAAACUGAGUAGAAGGA20 22613 CFTR-Intron10-3732 + GACUAAAACUGAGUAGAAGGA 21 22614CFTR-Intron10-3733 + UGACUAAAACUGAGUAGAAGGA 22 22615CFTR-Intron10-3734 + CUGACUAAAACUGAGUAGAAGGA 23 22616CFTR-Intron10-3735 + ACUGACUAAAACUGAGUAGAAGGA 24 22617CFTR-Intron10-3736 + UGUAGGAAAACAACUGGA 18 22618 CFTR-Intron10-3737 +AUGUAGGAAAACAACUGGA 19 22619 CFTR-Intron10-3738 + UAUGUAGGAAAACAACUGGA20 22620 CFTR-Intron10-3739 + GUAUGUAGGAAAACAACUGGA 21 22621CFTR-Intron10-3740 + CGUAUGUAGGAAAACAACUGGA 22 22622CFTR-Intron10-3741 + UCGUAUGUAGGAAAACAACUGGA 23 22623CFTR-Intron10-3742 + UUCGUAUGUAGGAAAACAACUGGA 24 22624CFTR-Intron10-3743 + AAUAUGCAAUUUACUGGA 18 22625 CFTR-Intron10-3744 +CAAUAUGCAAUUUACUGGA 19 22626 CFTR-Intron10-3745 + GCAAUAUGCAAUUUACUGGA20 22627 CFTR-Intron10-3746 + UGCAAUAUGCAAUUUACUGGA 21 22628CFTR-Intron10-3747 + CUGCAAUAUGCAAUUUACUGGA 22 22629CFTR-Intron10-3748 + ACUGCAAUAUGCAAUUUACUGGA 23 22630CFTR-Intron10-3749 + UACUGCAAUAUGCAAUUUACUGGA 24 22631CFTR-Intron10-3750 + UUUCAUCUUACUUGAUGA 18 22632 CFTR-Intron10-3751 +GUUUCAUCUUACUUGAUGA 19 22633 CFTR-Intron10-3752 + AGUUUCAUCUUACUUGAUGA20 22634 CFTR-Intron10-3753 + CAGUUUCAUCUUACUUGAUGA 21 22635CFTR-Intron10-3754 + ACAGUUUCAUCUUACUUGAUGA 22 22636CFTR-Intron10-3755 + AACAGUUUCAUCUUACUUGAUGA 23 22637CFTR-Intron10-3756 + UAACAGUUUCAUCUUACUUGAUGA 24 22638CFTR-Intron10-3757 + UGACACCAAAUUUAUUGA 18 22639 CFTR-Intron10-3758 +CUGACACCAAAUUUAUUGA 19 22640 CFTR-Intron10-3759 + CCUGACACCAAAUUUAUUGA20 22641 CFTR-Intron10-3760 + GCCUGACACCAAAUUUAUUGA 21 22642CFTR-Intron10-3761 + AGCCUGACACCAAAUUUAUUGA 22 22643CFTR-Intron10-3762 + CAGCCUGACACCAAAUUUAUUGA 23 22644CFTR-Intron10-3763 + CCAGCCUGACACCAAAUUUAUUGA 24 22645CFTR-Intron10-3764 + CUAAUAGCCUAUUGUUGA 18 22646 CFTR-Intron10-3765 +ACUAAUAGCCUAUUGUUGA 19 22647 CFTR-Intron10-3766 + UACUAAUAGCCUAUUGUUGA20 22648 CFTR-Intron10-3767 + CUACUAAUAGCCUAUUGUUGA 21 22649CFTR-Intron10-3768 + ACUACUAAUAGCCUAUUGUUGA 22 22650CFTR-Intron10-3769 + AACUACUAAUAGCCUAUUGUUGA 23 22651CFTR-Intron10-3770 + UAACUACUAAUAGCCUAUUGUUGA 24 22652CFTR-Intron10-3771 + CCUUGGAAUAUAAAAAUA 18 22653 CFTR-Intron10-3772 +UCCUUGGAAUAUAAAAAUA 19 22654 CFTR-Intron10-3773 + GUCCUUGGAAUAUAAAAAUA20 22655 CFTR-Intron10-3774 + AGUCCUUGGAAUAUAAAAAUA 21 22656CFTR-Intron10-3775 + CAGUCCUUGGAAUAUAAAAAUA 22 22657CFTR-Intron10-3776 + ACAGUCCUUGGAAUAUAAAAAUA 23 22658CFTR-Intron10-3777 + GACAGUCCUUGGAAUAUAAAAAUA 24 22659CFTR-Intron10-3778 + CUUUGUGUUAACAAAAUA 18 22660 CFTR-Intron10-3779 +UCUUUGUGUUAACAAAAUA 19 22661 CFTR-Intron10-3780 + UUCUUUGUGUUAACAAAAUA20 22662 CFTR-Intron10-3781 + GUUCUUUGUGUUAACAAAAUA 21 22663CFTR-Intron10-3782 + UGUUCUUUGUGUUAACAAAAUA 22 22664CFTR-Intron10-3783 + UUGUUCUUUGUGUUAACAAAAUA 23 22665CFTR-Intron10-3784 + GUUGUUCUUUGUGUUAACAAAAUA 24 22666CFTR-Intron10-3785 + GGAAGAAAAGUAUCAAUA 18 22667 CFTR-Intron10-3786 +AGGAAGAAAAGUAUCAAUA 19 22668 CFTR-Intron10-3787 + CAGGAAGAAAAGUAUCAAUA20 22669 CFTR-Intron10-3788 + UCAGGAAGAAAAGUAUCAAUA 21 22670CFTR-Intron10-3789 + AUCAGGAAGAAAAGUAUCAAUA 22 22671CFTR-Intron10-3790 + AAUCAGGAAGAAAAGUAUCAAUA 23 22672CFTR-Intron10-3791 + UAAUCAGGAAGAAAAGUAUCAAUA 24 22673CFTR-Intron10-3792 + UCCUCUGUGCUUUGAAUA 18 22674 CFTR-Intron10-3793 +GUCCUCUGUGCUUUGAAUA 19 22675 CFTR-Intron10-382 + AGUCCUCUGUGCUUUGAAUA 2019268 CFTR-Intron10-3794 + AAGUCCUCUGUGCUUUGAAUA 21 22676CFTR-Intron10-3795 + CAAGUCCUCUGUGCUUUGAAUA 22 22677CFTR-Intron10-3796 + GCAAGUCCUCUGUGCUUUGAAUA 23 22678CFTR-Intron10-3797 + UGCAAGUCCUCUGUGCUUUGAAUA 24 22679CFTR-Intron10-3798 + UACAGUGACUUCAUAAUA 18 22680 CFTR-Intron10-3799 +AUACAGUGACUUCAUAAUA 19 22681 CFTR-Intron10-3800 + AAUACAGUGACUUCAUAAUA20 22682 CFTR-Intron10-3801 + CAAUACAGUGACUUCAUAAUA 21 22683CFTR-Intron10-3802 + ACAAUACAGUGACUUCAUAAUA 22 22684CFTR-Intron10-3803 + GACAAUACAGUGACUUCAUAAUA 23 22685CFTR-Intron10-3804 + AGACAAUACAGUGACUUCAUAAUA 24 22686CFTR-Intron10-3805 + CCUAGAUGAUUAUUAAUA 18 22687 CFTR-Intron10-3806 +GCCUAGAUGAUUAUUAAUA 19 22688 CFTR-Intron10-384 + AGCCUAGAUGAUUAUUAAUA 2019270 CFTR-Intron10-3807 + CAGCCUAGAUGAUUAUUAAUA 21 22689CFTR-Intron10-3808 + GCAGCCUAGAUGAUUAUUAAUA 22 22690CFTR-Intron10-3809 + UGCAGCCUAGAUGAUUAUUAAUA 23 22691CFTR-Intron10-3810 + UUGCAGCCUAGAUGAUUAUUAAUA 24 22692CFTR-Intron10-3811 + UAGUAUAAUUUUUUAAUA 18 22693 CFTR-Intron10-3812 +AUAGUAUAAUUUUUUAAUA 19 22694 CFTR-Intron10-3813 + UAUAGUAUAAUUUUUUAAUA20 22695 CFTR-Intron10-3814 + CUAUAGUAUAAUUUUUUAAUA 21 22696CFTR-Intron10-3815 + CCUAUAGUAUAAUUUUUUAAUA 22 22697CFTR-Intron10-3816 + UCCUAUAGUAUAAUUUUUUAAUA 23 22698CFTR-Intron10-3817 + CUCCUAUAGUAUAAUUUUUUAAUA 24 22699CFTR-Intron10-3818 + UGAAACAAAUAAAACAUA 18 22700 CFTR-Intron10-3819 +AUGAAACAAAUAAAACAUA 19 22701 CFTR-Intron10-3820 + AAUGAAACAAAUAAAACAUA20 22702 CFTR-Intron10-3821 + AAAUGAAACAAAUAAAACAUA 21 22703CFTR-Intron10-3822 + GAAAUGAAACAAAUAAAACAUA 22 22704CFTR-Intron10-3823 + AGAAAUGAAACAAAUAAAACAUA 23 22705CFTR-Intron10-3824 + AAGAAAUGAAACAAAUAAAACAUA 24 22706CFTR-Intron10-3825 + CUAAAACUCAGUACCAUA 18 22707 CFTR-Intron10-3826 +GCUAAAACUCAGUACCAUA 19 22708 CFTR-Intron10-3827 + AGCUAAAACUCAGUACCAUA20 22709 CFTR-Intron10-3828 + AAGCUAAAACUCAGUACCAUA 21 22710CFTR-Intron10-3829 + UAAGCUAAAACUCAGUACCAUA 22 22711CFTR-Intron10-3830 + AUAAGCUAAAACUCAGUACCAUA 23 22712CFTR-Intron10-3831 + AAUAAGCUAAAACUCAGUACCAUA 24 22713CFTR-Intron10-3832 + AAAAUAUAUAUAUGCAUA 18 22714 CFTR-Intron10-3833 +AAAAAUAUAUAUAUGCAUA 19 22715 CFTR-Intron10-3834 + UAAAAAUAUAUAUAUGCAUA20 22716 CFTR-Intron10-3835 + UUAAAAAUAUAUAUAUGCAUA 21 22717CFTR-Intron10-3836 + GUUAAAAAUAUAUAUAUGCAUA 22 22718CFTR-Intron10-3837 + GGUUAAAAAUAUAUAUAUGCAUA 23 22719CFTR-Intron10-3838 + AGGUUAAAAAUAUAUAUAUGCAUA 24 22720CFTR-Intron10-3839 + ACAUAGAGAAAACUCAUA 18 22721 CFTR-Intron10-3840 +AACAUAGAGAAAACUCAUA 19 22722 CFTR-Intron10-1168 + AAACAUAGAGAAAACUCAUA20 20053 CFTR-Intron10-3841 + AAAACAUAGAGAAAACUCAUA 21 22723CFTR-Intron10-3842 + UAAAACAUAGAGAAAACUCAUA 22 22724CFTR-Intron10-3843 + AUAAAACAUAGAGAAAACUCAUA 23 22725CFTR-Intron10-3844 + AAUAAAACAUAGAGAAAACUCAUA 24 22726CFTR-Intron10-3845 + GGAAAGUUGUCCAAGAUA 18 22727 CFTR-Intron10-3846 +UGGAAAGUUGUCCAAGAUA 19 22728 CFTR-Intron10-3847 + AUGGAAAGUUGUCCAAGAUA20 22729 CFTR-Intron10-3848 + UAUGGAAAGUUGUCCAAGAUA 21 22730CFTR-Intron10-3849 + AUAUGGAAAGUUGUCCAAGAUA 22 22731CFTR-Intron10-3850 + AAUAUGGAAAGUUGUCCAAGAUA 23 22732CFTR-Intron10-3851 + GAAUAUGGAAAGUUGUCCAAGAUA 24 22733CFTR-Intron10-3852 + UGUUCUUAGGGUGGGAUA 18 22734 CFTR-Intron10-3853 +UUGUUCUUAGGGUGGGAUA 19 22735 CFTR-Intron10-84 + GUUGUUCUUAGGGUGGGAUA 2018970 CFTR-Intron10-3854 + AGUUGUUCUUAGGGUGGGAUA 21 22736CFTR-Intron10-3855 + AAGUUGUUCUUAGGGUGGGAUA 22 22737CFTR-Intron10-3856 + UAAGUUGUUCUUAGGGUGGGAUA 23 22738CFTR-Intron10-3857 + UUAAGUUGUUCUUAGGGUGGGAUA 24 22739CFTR-Intron10-3858 + AUAUUGAUUAUAUAUAUA 18 22740 CFTR-Intron10-3859 +UAUAUUGAUUAUAUAUAUA 19 22741 CFTR-Intron10-3860 + GUAUAUUGAUUAUAUAUAUA20 22742 CFTR-Intron10-3861 + UGUAUAUUGAUUAUAUAUAUA 21 22743CFTR-Intron10-3862 + AUGUAUAUUGAUUAUAUAUAUA 22 22744CFTR-Intron10-3863 + AAUGUAUAUUGAUUAUAUAUAUA 23 22745CFTR-Intron10-3864 + AAAUGUAUAUUGAUUAUAUAUAUA 24 22746CFTR-Intron10-3865 + GUAUAUUGAUUAUAUAUA 18 22747 CFTR-Intron10-3866 +UGUAUAUUGAUUAUAUAUA 19 22748 CFTR-Intron10-3867 + AUGUAUAUUGAUUAUAUAUA20 22749 CFTR-Intron10-3868 + AAUGUAUAUUGAUUAUAUAUA 21 22750CFTR-Intron10-3869 + AAAUGUAUAUUGAUUAUAUAUA 22 22751CFTR-Intron10-3870 + AAAAUGUAUAUUGAUUAUAUAUA 23 22752CFTR-Intron10-3871 + AAAAAUGUAUAUUGAUUAUAUAUA 24 22753CFTR-Intron10-3872 + CUAGGAUCACUUUAUAUA 18 22754 CFTR-Intron10-3873 +UCUAGGAUCACUUUAUAUA 19 22755 CFTR-Intron10-3874 + UUCUAGGAUCACUUUAUAUA20 22756 CFTR-Intron10-3875 + AUUCUAGGAUCACUUUAUAUA 21 22757CFTR-Intron10-3876 + GAUUCUAGGAUCACUUUAUAUA 22 22758CFTR-Intron10-3877 + UGAUUCUAGGAUCACUUUAUAUA 23 22759CFTR-Intron10-3878 + AUGAUUCUAGGAUCACUUUAUAUA 24 22760CFTR-Intron10-3879 + CCUGAAAGCAGUGUUAUA 18 22761 CFTR-Intron10-3880 +UCCUGAAAGCAGUGUUAUA 19 22762 CFTR-Intron10-3881 + CUCCUGAAAGCAGUGUUAUA20 22763 CFTR-Intron10-3882 + GCUCCUGAAAGCAGUGUUAUA 21 22764CFTR-Intron10-3883 + GGCUCCUGAAAGCAGUGUUAUA 22 22765CFTR-Intron10-3884 + UGGCUCCUGAAAGCAGUGUUAUA 23 22766CFTR-Intron10-3885 + UUGGCUCCUGAAAGCAGUGUUAUA 24 22767CFTR-Intron10-3886 + UUCUAGGAUCACUUUAUA 18 22768 CFTR-Intron10-3887 +AUUCUAGGAUCACUUUAUA 19 22769 CFTR-Intron10-3888 + GAUUCUAGGAUCACUUUAUA20 22770 CFTR-Intron10-3889 + UGAUUCUAGGAUCACUUUAUA 21 22771CFTR-Intron10-3890 + AUGAUUCUAGGAUCACUUUAUA 22 22772CFTR-Intron10-3891 + UAUGAUUCUAGGAUCACUUUAUA 23 22773CFTR-Intron10-3892 + UUAUGAUUCUAGGAUCACUUUAUA 24 22774CFTR-Intron10-3893 + GACAGAUGAGAGACAGUA 18 22775 CFTR-Intron10-3894 +GGACAGAUGAGAGACAGUA 19 22776 CFTR-Intron10-3895 + UGGACAGAUGAGAGACAGUA20 22777 CFTR-Intron10-3896 + AUGGACAGAUGAGAGACAGUA 21 22778CFTR-Intron10-3897 + AAUGGACAGAUGAGAGACAGUA 22 22779CFTR-Intron10-3898 + AAAUGGACAGAUGAGAGACAGUA 23 22780CFTR-Intron10-3899 + AAAAUGGACAGAUGAGAGACAGUA 24 22781CFTR-Intron10-3900 + UUUCUAGAAAACAAUGUA 18 22782 CFTR-Intron10-3901 +UUUUCUAGAAAACAAUGUA 19 22783 CFTR-Intron10-3902 + AUUUUCUAGAAAACAAUGUA20 22784 CFTR-Intron10-3903 + GAUUUUCUAGAAAACAAUGUA 21 22785CFTR-Intron10-3904 + AGAUUUUCUAGAAAACAAUGUA 22 22786CFTR-Intron10-3905 + CAGAUUUUCUAGAAAACAAUGUA 23 22787CFTR-Intron10-3906 + ACAGAUUUUCUAGAAAACAAUGUA 24 22788CFTR-Intron10-3907 + GUAUAAGUGUGGAGUGUA 18 22789 CFTR-Intron10-3908 +GGUAUAAGUGUGGAGUGUA 19 22790 CFTR-Intron10-3909 + GGGUAUAAGUGUGGAGUGUA20 22791 CFTR-Intron10-3910 + GGGGUAUAAGUGUGGAGUGUA 21 22792CFTR-Intron10-3911 + UGGGGUAUAAGUGUGGAGUGUA 22 22793CFTR-Intron10-3912 + AUGGGGUAUAAGUGUGGAGUGUA 23 22794CFTR-Intron10-3913 + AAUGGGGUAUAAGUGUGGAGUGUA 24 22795CFTR-Intron10-3914 + UUCUUGAAGCAAAAAUUA 18 22796 CFTR-Intron10-3915 +AUUCUUGAAGCAAAAAUUA 19 22797 CFTR-Intron10-3916 + UAUUCUUGAAGCAAAAAUUA20 22798 CFTR-Intron10-3917 + AUAUUCUUGAAGCAAAAAUUA 21 22799CFTR-Intron10-3918 + AAUAUUCUUGAAGCAAAAAUUA 22 22800CFTR-Intron10-3919 + CAAUAUUCUUGAAGCAAAAAUUA 23 22801CFTR-Intron10-3920 + GCAAUAUUCUUGAAGCAAAAAUUA 24 22802CFTR-Intron10-3921 + CUGAAUAACACGCCAUUA 18 22803 CFTR-Intron10-3922 +GCUGAAUAACACGCCAUUA 19 22804 CFTR-Intron10-3923 + GGCUGAAUAACACGCCAUUA20 22805 CFTR-Intron10-3924 + UGGCUGAAUAACACGCCAUUA 21 22806CFTR-Intron10-3925 + UUGGCUGAAUAACACGCCAUUA 22 22807CFTR-Intron10-3926 + AUUGGCUGAAUAACACGCCAUUA 23 22808CFTR-Intron10-3927 + UAUUGGCUGAAUAACACGCCAUUA 24 22809CFTR-Intron10-3928 + UUAUCAGAGCUCAUAUUA 18 22810 CFTR-Intron10-3929 +UUUAUCAGAGCUCAUAUUA 19 22811 CFTR-Intron10-3930 + UUUUAUCAGAGCUCAUAUUA20 22812 CFTR-Intron10-3931 + AUUUUAUCAGAGCUCAUAUUA 21 22813CFTR-Intron10-3932 + GAUUUUAUCAGAGCUCAUAUUA 22 22814CFTR-Intron10-3933 + UGAUUUUAUCAGAGCUCAUAUUA 23 22815CFTR-Intron10-3934 + CUGAUUUUAUCAGAGCUCAUAUUA 24 22816CFTR-Intron10-3935 + CAAAUGCUUGACCACUUA 18 22817 CFTR-Intron10-3936 +ACAAAUGCUUGACCACUUA 19 22818 CFTR-Intron10-3937 + CACAAAUGCUUGACCACUUA20 22819 CFTR-Intron10-3938 + ACACAAAUGCUUGACCACUUA 21 22820CFTR-Intron10-3939 + UACACAAAUGCUUGACCACUUA 22 22821CFTR-Intron10-3940 + GUACACAAAUGCUUGACCACUUA 23 22822CFTR-Intron10-3941 + AGUACACAAAUGCUUGACCACUUA 24 22823CFTR-Intron10-3942 + AUUAAUAACAAAAUCUUA 18 22824 CFTR-Intron10-3943 +UAUUAAUAACAAAAUCUUA 19 22825 CFTR-Intron10-3944 + AUAUUAAUAACAAAAUCUUA20 22826 CFTR-Intron10-3945 + AAUAUUAAUAACAAAAUCUUA 21 22827CFTR-Intron10-3946 + UAAUAUUAAUAACAAAAUCUUA 22 22828CFTR-Intron10-3947 + GUAAUAUUAAUAACAAAAUCUUA 23 22829CFTR-Intron10-3948 + AGUAAUAUUAAUAACAAAAUCUUA 24 22830CFTR-Intron10-3949 + ACAUAUUUGGGUAAGUUA 18 22831 CFTR-Intron10-3950 +AACAUAUUUGGGUAAGUUA 19 22832 CFTR-Intron10-3951 + AAACAUAUUUGGGUAAGUUA20 22833 CFTR-Intron10-3952 + CAAACAUAUUUGGGUAAGUUA 21 22834CFTR-Intron10-3953 + GCAAACAUAUUUGGGUAAGUUA 22 22835CFTR-Intron10-3954 + UGCAAACAUAUUUGGGUAAGUUA 23 22836CFTR-Intron10-3955 + CUGCAAACAUAUUUGGGUAAGUUA 24 22837CFTR-Intron10-3956 + ACUGCAAUAUGCAAUUUA 18 22838 CFTR-Intron10-3957 +UACUGCAAUAUGCAAUUUA 19 22839 CFTR-Intron10-3958 + UUACUGCAAUAUGCAAUUUA20 22840 CFTR-Intron10-3959 + UUUACUGCAAUAUGCAAUUUA 21 22841CFTR-Intron10-3960 + UUUUACUGCAAUAUGCAAUUUA 22 22842CFTR-Intron10-3961 + UUUUUACUGCAAUAUGCAAUUUA 23 22843CFTR-Intron10-3962 + CUUUUUACUGCAAUAUGCAAUUUA 24 22844CFTR-Intron10-3963 + CCUAUUAUUCAACAUUUA 18 22845 CFTR-Intron10-3964 +CCCUAUUAUUCAACAUUUA 19 22846 CFTR-Intron10-398 + CCCCUAUUAUUCAACAUUUA 2019284 CFTR-Intron10-3965 + ACCCCUAUUAUUCAACAUUUA 21 22847CFTR-Intron10-3966 + AACCCCUAUUAUUCAACAUUUA 22 22848CFTR-Intron10-3967 + AAACCCCUAUUAUUCAACAUUUA 23 22849CFTR-Intron10-3968 + CAAACCCCUAUUAUUCAACAUUUA 24 22850CFTR-Intron10-3969 + UAAAAAGCAAGCAAAAAC 18 22851 CFTR-Intron10-3970 +AUAAAAAGCAAGCAAAAAC 19 22852 CFTR-Intron10-3971 + UAUAAAAAGCAAGCAAAAAC20 22853 CFTR-Intron10-3972 + GUAUAAAAAGCAAGCAAAAAC 21 22854CFTR-Intron10-3973 + UGUAUAAAAAGCAAGCAAAAAC 22 22855CFTR-Intron10-3974 + CUGUAUAAAAAGCAAGCAAAAAC 23 22856CFTR-Intron10-3975 + UCUGUAUAAAAAGCAAGCAAAAAC 24 22857CFTR-Intron10-3976 + AACAUCUAACUCAAAAAC 18 22858 CFTR-Intron10-3977 +AAACAUCUAACUCAAAAAC 19 22859 CFTR-Intron10-3978 + CAAACAUCUAACUCAAAAAC20 22860 CFTR-Intron10-3979 + UCAAACAUCUAACUCAAAAAC 21 22861CFTR-Intron10-3980 + GUCAAACAUCUAACUCAAAAAC 22 22862CFTR-Intron10-3981 + CGUCAAACAUCUAACUCAAAAAC 23 22863CFTR-Intron10-3982 + GCGUCAAACAUCUAACUCAAAAAC 24 22864CFTR-Intron10-3983 + CGUAUGUAGGAAAACAAC 18 22865 CFTR-Intron10-3984 +UCGUAUGUAGGAAAACAAC 19 22866 CFTR-Intron10-402 + UUCGUAUGUAGGAAAACAAC 2019288 CFTR-Intron10-3985 + UUUCGUAUGUAGGAAAACAAC 21 22867CFTR-Intron10-3986 + GUUUCGUAUGUAGGAAAACAAC 22 22868CFTR-Intron10-3987 + UGUUUCGUAUGUAGGAAAACAAC 23 22869CFTR-Intron10-3988 + CUGUUUCGUAUGUAGGAAAACAAC 24 22870CFTR-Intron10-3989 + GCUUACCGUAAUAGCAAC 18 22871 CFTR-Intron10-3990 +AGCUUACCGUAAUAGCAAC 19 22872 CFTR-Intron10-660 + GAGCUUACCGUAAUAGCAAC 2019546 CFTR-Intron10-3991 + UGAGCUUACCGUAAUAGCAAC 21 22873CFTR-Intron10-3992 + UUGAGCUUACCGUAAUAGCAAC 22 22874CFTR-Intron10-3993 + CUUGAGCUUACCGUAAUAGCAAC 23 22875CFTR-Intron10-3994 + GCUUGAGCUUACCGUAAUAGCAAC 24 22876CFTR-Intron10-3995 + CAUUGACCCUUUAUCAAC 18 22877 CFTR-Intron10-3996 +CCAUUGACCCUUUAUCAAC 19 22878 CFTR-Intron10-3997 + ACCAUUGACCCUUUAUCAAC20 22879 CFTR-Intron10-3998 + UACCAUUGACCCUUUAUCAAC 21 22880CFTR-Intron10-3999 + AUACCAUUGACCCUUUAUCAAC 22 22881CFTR-Intron10-4000 + UAUACCAUUGACCCUUUAUCAAC 23 22882CFTR-Intron10-4001 + AUAUACCAUUGACCCUUUAUCAAC 24 22883CFTR-Intron10-4002 + UGACAAUCAAAUGGGAAC 18 22884 CFTR-Intron10-4003 +AUGACAAUCAAAUGGGAAC 19 22885 CFTR-Intron10-4004 + AAUGACAAUCAAAUGGGAAC20 22886 CFTR-Intron10-4005 + AAAUGACAAUCAAAUGGGAAC 21 22887CFTR-Intron10-4006 + AAAAUGACAAUCAAAUGGGAAC 22 22888CFTR-Intron10-4007 + UAAAAUGACAAUCAAAUGGGAAC 23 22889CFTR-Intron10-4008 + CUAAAAUGACAAUCAAAUGGGAAC 24 22890CFTR-Intron10-4009 + CAGGAGAAUGGCGUGAAC 18 22891 CFTR-Intron10-4010 +GCAGGAGAAUGGCGUGAAC 19 22892 CFTR-Intron10-4011 + GGCAGGAGAAUGGCGUGAAC20 22893 CFTR-Intron10-4012 + AGGCAGGAGAAUGGCGUGAAC 21 22894CFTR-Intron10-4013 + GAGGCAGGAGAAUGGCGUGAAC 22 22895CFTR-Intron10-4014 + UGAGGCAGGAGAAUGGCGUGAAC 23 22896CFTR-Intron10-4015 + CUGAGGCAGGAGAAUGGCGUGAAC 24 22897CFTR-Intron10-4016 + GAACCUAUAAGGAAUAAC 18 22898 CFTR-Intron10-4017 +AGAACCUAUAAGGAAUAAC 19 22899 CFTR-Intron10-403 + CAGAACCUAUAAGGAAUAAC 2019289 CFTR-Intron10-4018 + ACAGAACCUAUAAGGAAUAAC 21 22900CFTR-Intron10-4019 + UACAGAACCUAUAAGGAAUAAC 22 22901CFTR-Intron10-4020 + UUACAGAACCUAUAAGGAAUAAC 23 22902CFTR-Intron10-4021 + AUUACAGAACCUAUAAGGAAUAAC 24 22903CFTR-Intron10-4022 + AAAAUAUGCGAGAACCAC 18 22904 CFTR-Intron10-4023 +AAAAAUAUGCGAGAACCAC 19 22905 CFTR-Intron10-4024 + GAAAAAUAUGCGAGAACCAC20 22906 CFTR-Intron10-4025 + UGAAAAAUAUGCGAGAACCAC 21 22907CFTR-Intron10-4026 + AUGAAAAAUAUGCGAGAACCAC 22 22908CFTR-Intron10-4027 + GAUGAAAAAUAUGCGAGAACCAC 23 22909CFTR-Intron10-4028 + UGAUGAAAAAUAUGCGAGAACCAC 24 22910CFTR-Intron10-4029 + AGUAUUAAGUAUAGCCAC 18 22911 CFTR-Intron10-4030 +UAGUAUUAAGUAUAGCCAC 19 22912 CFTR-Intron10-408 + UUAGUAUUAAGUAUAGCCAC 2019294 CFTR-Intron10-4031 + AUUAGUAUUAAGUAUAGCCAC 21 22913CFTR-Intron10-4032 + UAUUAGUAUUAAGUAUAGCCAC 22 22914CFTR-Intron10-4033 + UUAUUAGUAUUAAGUAUAGCCAC 23 22915CFTR-Intron10-4034 + GUUAUUAGUAUUAAGUAUAGCCAC 24 22916CFTR-Intron10-4035 + UUUAAUAAAUAAUAUCAC 18 22917 CFTR-Intron10-4036 +UUUUAAUAAAUAAUAUCAC 19 22918 CFTR-Intron10-4037 + AUUUUAAUAAAUAAUAUCAC20 22919 CFTR-Intron10-4038 + AAUUUUAAUAAAUAAUAUCAC 21 22920CFTR-Intron10-4039 + AAAUUUUAAUAAAUAAUAUCAC 22 22921CFTR-Intron10-4040 + UAAAUUUUAAUAAAUAAUAUCAC 23 22922CFTR-Intron10-4041 + UUAAAUUUUAAUAAAUAAUAUCAC 24 22923CFTR-Intron10-4042 + GGAGAGAGAACUGCUCAC 18 22924 CFTR-Intron10-4043 +UGGAGAGAGAACUGCUCAC 19 22925 CFTR-Intron10-4044 + CUGGAGAGAGAACUGCUCAC20 22926 CFTR-Intron10-4045 + ACUGGAGAGAGAACUGCUCAC 21 22927CFTR-Intron10-4046 + UACUGGAGAGAGAACUGCUCAC 22 22928CFTR-Intron10-4047 + UUACUGGAGAGAGAACUGCUCAC 23 22929CFTR-Intron10-4048 + UUUACUGGAGAGAGAACUGCUCAC 24 22930CFTR-Intron10-4049 + AAGACAUUUAAUGUAGAC 18 22931 CFTR-Intron10-4050 +CAAGACAUUUAAUGUAGAC 19 22932 CFTR-Intron10-4051 + GCAAGACAUUUAAUGUAGAC20 22933 CFTR-Intron10-4052 + CGCAAGACAUUUAAUGUAGAC 21 22934CFTR-Intron10-4053 + GCGCAAGACAUUUAAUGUAGAC 22 22935CFTR-Intron10-4054 + AGCGCAAGACAUUUAAUGUAGAC 23 22936CFTR-Intron10-4055 + AAGCGCAAGACAUUUAAUGUAGAC 24 22937CFTR-Intron10-4056 + UUUAGCCCAUUCUAAUAC 18 22938 CFTR-Intron10-4057 +CUUUAGCCCAUUCUAAUAC 19 22939 CFTR-Intron10-4058 + CCUUUAGCCCAUUCUAAUAC20 22940 CFTR-Intron10-4059 + CCCUUUAGCCCAUUCUAAUAC 21 22941CFTR-Intron10-4060 + GCCCUUUAGCCCAUUCUAAUAC 22 22942CFTR-Intron10-4061 + UGCCCUUUAGCCCAUUCUAAUAC 23 22943CFTR-Intron10-4062 + UUGCCCUUUAGCCCAUUCUAAUAC 24 22944CFTR-Intron10-4063 + UAUUUGUGGAGGACAUAC 18 22945 CFTR-Intron10-4064 +AUAUUUGUGGAGGACAUAC 19 22946 CFTR-Intron10-4065 + AAUAUUUGUGGAGGACAUAC20 22947 CFTR-Intron10-4066 + AAAUAUUUGUGGAGGACAUAC 21 22948CFTR-Intron10-4067 + AAAAUAUUUGUGGAGGACAUAC 22 22949CFTR-Intron10-4068 + AAAAAUAUUUGUGGAGGACAUAC 23 22950CFTR-Intron10-4069 + AAAAAAUAUUUGUGGAGGACAUAC 24 22951CFTR-Intron10-4070 + GCCUGUAGUCCCAGCUAC 18 22952 CFTR-Intron10-4071 +CGCCUGUAGUCCCAGCUAC 19 22953 CFTR-Intron10-4072 + GCGCCUGUAGUCCCAGCUAC20 22954 CFTR-Intron10-4073 + GGCGCCUGUAGUCCCAGCUAC 21 22955CFTR-Intron10-4074 + GGGCGCCUGUAGUCCCAGCUAC 22 22956CFTR-Intron10-4075 + CGGGCGCCUGUAGUCCCAGCUAC 23 22957CFTR-Intron10-4076 + GCGGGCGCCUGUAGUCCCAGCUAC 24 22958CFTR-Intron10-4077 + UGCCUGUAGUCCCAGCUAC 19 22959 CFTR-Intron10-4078 +GUGCCUGUAGUCCCAGCUAC 20 22960 CFTR-Intron10-4079 + CGUGCCUGUAGUCCCAGCUAC21 22961 CFTR-Intron10-4080 + GCGUGCCUGUAGUCCCAGCUAC 22 22962CFTR-Intron10-4081 + UGCGUGCCUGUAGUCCCAGCUAC 23 22963CFTR-Intron10-4082 + GUGCGUGCCUGUAGUCCCAGCUAC 24 22964CFTR-Intron10-4083 + ACUUGCUUCACCUGCUAC 18 22965 CFTR-Intron10-4084 +CACUUGCUUCACCUGCUAC 19 22966 CFTR-Intron10-4085 + GCACUUGCUUCACCUGCUAC20 22967 CFTR-Intron10-4086 + UGCACUUGCUUCACCUGCUAC 21 22968CFTR-Intron10-4087 + UUGCACUUGCUUCACCUGCUAC 22 22969CFTR-Intron10-4088 + UUUGCACUUGCUUCACCUGCUAC 23 22970CFTR-Intron10-4089 + CUUUGCACUUGCUUCACCUGCUAC 24 22971CFTR-Intron10-4090 + AAAUCUUAUAGAGAUUAC 18 22972 CFTR-Intron10-4091 +AAAAUCUUAUAGAGAUUAC 19 22973 CFTR-Intron10-4092 + CAAAAUCUUAUAGAGAUUAC20 22974 CFTR-Intron10-4093 + ACAAAAUCUUAUAGAGAUUAC 21 22975CFTR-Intron10-4094 + AACAAAAUCUUAUAGAGAUUAC 22 22976CFTR-Intron10-4095 + UAACAAAAUCUUAUAGAGAUUAC 23 22977CFTR-Intron10-4096 + AUAACAAAAUCUUAUAGAGAUUAC 24 22978CFTR-Intron10-4097 + UUUUACAAUUCUUAUUAC 18 22979 CFTR-Intron10-4098 +AUUUUACAAUUCUUAUUAC 19 22980 CFTR-Intron10-4099 + AAUUUUACAAUUCUUAUUAC20 22981 CFTR-Intron10-4100 + AAAUUUUACAAUUCUUAUUAC 21 22982CFTR-Intron10-4101 + UAAAUUUUACAAUUCUUAUUAC 22 22983CFTR-Intron10-4102 + GUAAAUUUUACAAUUCUUAUUAC 23 22984CFTR-Intron10-4103 + AGUAAAUUUUACAAUUCUUAUUAC 24 22985CFTR-Intron10-4104 + CUGCAAUAUGCAAUUUAC 18 22986 CFTR-Intron10-4105 +ACUGCAAUAUGCAAUUUAC 19 22987 CFTR-Intron10-1190 + UACUGCAAUAUGCAAUUUAC20 20075 CFTR-Intron10-4106 + UUACUGCAAUAUGCAAUUUAC 21 22988CFTR-Intron10-4107 + UUUACUGCAAUAUGCAAUUUAC 22 22989CFTR-Intron10-4108 + UUUUACUGCAAUAUGCAAUUUAC 23 22990CFTR-Intron10-4109 + UUUUUACUGCAAUAUGCAAUUUAC 24 22991CFTR-Intron10-4110 + UUUGUACAAAAUUAAACC 18 22992 CFTR-Intron10-4111 +CUUUGUACAAAAUUAAACC 19 22993 CFTR-Intron10-4112 + CCUUUGUACAAAAUUAAACC20 22994 CFTR-Intron10-4113 + UCCUUUGUACAAAAUUAAACC 21 22995CFTR-Intron10-4114 + UUCCUUUGUACAAAAUUAAACC 22 22996CFTR-Intron10-4115 + AUUCCUUUGUACAAAAUUAAACC 23 22997CFTR-Intron10-4116 + AAUUCCUUUGUACAAAAUUAAACC 24 22998CFTR-Intron10-4117 + AGGAGAAUGGCGUGAACC 18 22999 CFTR-Intron10-4118 +CAGGAGAAUGGCGUGAACC 19 23000 CFTR-Intron10-661 + GCAGGAGAAUGGCGUGAACC 2019547 CFTR-Intron10-4119 + GGCAGGAGAAUGGCGUGAACC 21 23001CFTR-Intron10-4120 + AGGCAGGAGAAUGGCGUGAACC 22 23002CFTR-Intron10-4121 + GAGGCAGGAGAAUGGCGUGAACC 23 23003CFTR-Intron10-4122 + UGAGGCAGGAGAAUGGCGUGAACC 24 23004CFTR-Intron10-4123 + GGUCUUGAUCUCCUAACC 18 23005 CFTR-Intron10-4124 +UGGUCUUGAUCUCCUAACC 19 23006 CFTR-Intron10-4125 + AUGGUCUUGAUCUCCUAACC20 23007 CFTR-Intron10-4126 + GAUGGUCUUGAUCUCCUAACC 21 23008CFTR-Intron10-4127 + GGAUGGUCUUGAUCUCCUAACC 22 23009CFTR-Intron10-4128 + AGGAUGGUCUUGAUCUCCUAACC 23 23010CFTR-Intron10-4129 + CAGGAUGGUCUUGAUCUCCUAACC 24 23011CFTR-Intron10-4130 + CCCUGCAAUACCAUCACC 18 23012 CFTR-Intron10-4131 +ACCCUGCAAUACCAUCACC 19 23013 CFTR-Intron10-4132 + CACCCUGCAAUACCAUCACC20 23014 CFTR-Intron10-4133 + CCACCCUGCAAUACCAUCACC 21 23015CFTR-Intron10-4134 + CCCACCCUGCAAUACCAUCACC 22 23016CFTR-Intron10-4135 + CCCCACCCUGCAAUACCAUCACC 23 23017CFTR-Intron10-4136 + GCCCCACCCUGCAAUACCAUCACC 24 23018CFTR-Intron10-4137 + GUGGCCUCUAAUCUCACC 18 23019 CFTR-Intron10-4138 +AGUGGCCUCUAAUCUCACC 19 23020 CFTR-Intron10-4139 + CAGUGGCCUCUAAUCUCACC20 23021 CFTR-Intron10-4140 + CCAGUGGCCUCUAAUCUCACC 21 23022CFTR-Intron10-4141 + UCCAGUGGCCUCUAAUCUCACC 22 23023CFTR-Intron10-4142 + CUCCAGUGGCCUCUAAUCUCACC 23 23024CFTR-Intron10-4143 + UCUCCAGUGGCCUCUAAUCUCACC 24 23025CFTR-Intron10-4144 + CUGCUAUAACAAAAUACC 18 23026 CFTR-Intron10-4145 +GCUGCUAUAACAAAAUACC 19 23027 CFTR-Intron10-4146 + GGCUGCUAUAACAAAAUACC20 23028 CFTR-Intron10-4147 + AGGCUGCUAUAACAAAAUACC 21 23029CFTR-Intron10-4148 + CAGGCUGCUAUAACAAAAUACC 22 23030CFTR-Intron10-4149 + UCAGGCUGCUAUAACAAAAUACC 23 23031CFTR-Intron10-4150 + UUCAGGCUGCUAUAACAAAAUACC 24 23032CFTR-Intron10-4151 + UACAGCUAAAGUAUUACC 18 23033 CFTR-Intron10-4152 +AUACAGCUAAAGUAUUACC 19 23034 CFTR-Intron10-4153 + UAUACAGCUAAAGUAUUACC20 23035 CFTR-Intron10-4154 + AUAUACAGCUAAAGUAUUACC 21 23036CFTR-Intron10-4155 + AAUAUACAGCUAAAGUAUUACC 22 23037CFTR-Intron10-4156 + UAAUAUACAGCUAAAGUAUUACC 23 23038CFTR-Intron10-4157 + AUAAUAUACAGCUAAAGUAUUACC 24 23039CFTR-Intron10-4158 + GGAGAAUGGCGUGAACCC 18 23040 CFTR-Intron10-4159 +AGGAGAAUGGCGUGAACCC 19 23041 CFTR-Intron10-1191 + CAGGAGAAUGGCGUGAACCC20 20076 CFTR-Intron10-4160 + GCAGGAGAAUGGCGUGAACCC 21 23042CFTR-Intron10-4161 + GGCAGGAGAAUGGCGUGAACCC 22 23043CFTR-Intron10-4162 + AGGCAGGAGAAUGGCGUGAACCC 23 23044CFTR-Intron10-4163 + GAGGCAGGAGAAUGGCGUGAACCC 24 23045CFTR-Intron10-4164 + GGAGAAUUGCUUGAGCCC 18 23046 CFTR-Intron10-4165 +AGGAGAAUUGCUUGAGCCC 19 23047 CFTR-Intron10-1195 + CAGGAGAAUUGCUUGAGCCC20 20080 CFTR-Intron10-4166 + GCAGGAGAAUUGCUUGAGCCC 21 23048CFTR-Intron10-4167 + GGCAGGAGAAUUGCUUGAGCCC 22 23049CFTR-Intron10-4168 + AGGCAGGAGAAUUGCUUGAGCCC 23 23050CFTR-Intron10-4169 + GAGGCAGGAGAAUUGCUUGAGCCC 24 23051CFTR-Intron10-4170 + AAGUGUUUAAAUAUUCCC 18 23052 CFTR-Intron10-4171 +GAAGUGUUUAAAUAUUCCC 19 23053 CFTR-Intron10-4172 + AGAAGUGUUUAAAUAUUCCC20 23054 CFTR-Intron10-4173 + CAGAAGUGUUUAAAUAUUCCC 21 23055CFTR-Intron10-4174 + UCAGAAGUGUUUAAAUAUUCCC 22 23056CFTR-Intron10-4175 + CUCAGAAGUGUUUAAAUAUUCCC 23 23057CFTR-Intron10-4176 + UCUCAGAAGUGUUUAAAUAUUCCC 24 23058CFTR-Intron10-4177 + GGAAAGGUCAAUUGAGCC 18 23059 CFTR-Intron10-4178 +CGGAAAGGUCAAUUGAGCC 19 23060 CFTR-Intron10-4179 + GCGGAAAGGUCAAUUGAGCC20 23061 CFTR-Intron10-4180 + AGCGGAAAGGUCAAUUGAGCC 21 23062CFTR-Intron10-4181 + AAGCGGAAAGGUCAAUUGAGCC 22 23063CFTR-Intron10-4182 + GAAGCGGAAAGGUCAAUUGAGCC 23 23064CFTR-Intron10-4183 + UGAAGCGGAAAGGUCAAUUGAGCC 24 23065CFTR-Intron10-4184 + AGGAGAAUUGCUUGAGCC 18 23066 CFTR-Intron10-4185 +CAGGAGAAUUGCUUGAGCC 19 23067 CFTR-Intron10-665 + GCAGGAGAAUUGCUUGAGCC 2019551 CFTR-Intron10-4186 + GGCAGGAGAAUUGCUUGAGCC 21 23068CFTR-Intron10-4187 + AGGCAGGAGAAUUGCUUGAGCC 22 23069CFTR-Intron10-4188 + GAGGCAGGAGAAUUGCUUGAGCC 23 23070CFTR-Intron10-4189 + UGAGGCAGGAGAAUUGCUUGAGCC 24 23071CFTR-Intron10-4190 + GGCACUUGUUGACAGUCC 18 23072 CFTR-Intron10-4191 +AGGCACUUGUUGACAGUCC 19 23073 CFTR-Intron10-4192 + UAGGCACUUGUUGACAGUCC20 23074 CFTR-Intron10-4193 + CUAGGCACUUGUUGACAGUCC 21 23075CFTR-Intron10-4194 + GCUAGGCACUUGUUGACAGUCC 22 23076CFTR-Intron10-4195 + UGCUAGGCACUUGUUGACAGUCC 23 23077CFTR-Intron10-4196 + GUGCUAGGCACUUGUUGACAGUCC 24 23078CFTR-Intron10-4197 + CUACCAGCCCCCUCUUCC 18 23079 CFTR-Intron10-4198 +ACUACCAGCCCCCUCUUCC 19 23080 CFTR-Intron10-4199 + CACUACCAGCCCCCUCUUCC20 23081 CFTR-Intron10-4200 + ACACUACCAGCCCCCUCUUCC 21 23082CFTR-Intron10-4201 + CACACUACCAGCCCCCUCUUCC 22 23083CFTR-Intron10-4202 + UCACACUACCAGCCCCCUCUUCC 23 23084CFTR-Intron10-4203 + UUCACACUACCAGCCCCCUCUUCC 24 23085CFTR-Intron10-4204 + CAAGAUAGUGGGAAAAGC 18 23086 CFTR-Intron10-4205 +CCAAGAUAGUGGGAAAAGC 19 23087 CFTR-Intron10-4206 + UCCAAGAUAGUGGGAAAAGC20 23088 CFTR-Intron10-4207 + GUCCAAGAUAGUGGGAAAAGC 21 23089CFTR-Intron10-4208 + UGUCCAAGAUAGUGGGAAAAGC 22 23090CFTR-Intron10-4209 + UUGUCCAAGAUAGUGGGAAAAGC 23 23091CFTR-Intron10-4210 + GUUGUCCAAGAUAGUGGGAAAAGC 24 23092CFTR-Intron10-4211 + UUACUCAGUCCAGAAAGC 18 23093 CFTR-Intron10-4212 +GUUACUCAGUCCAGAAAGC 19 23094 CFTR-Intron10-4213 + AGUUACUCAGUCCAGAAAGC20 23095 CFTR-Intron10-4214 + CAGUUACUCAGUCCAGAAAGC 21 23096CFTR-Intron10-4215 + CCAGUUACUCAGUCCAGAAAGC 22 23097CFTR-Intron10-4216 + UCCAGUUACUCAGUCCAGAAAGC 23 23098CFTR-Intron10-4217 + UUCCAGUUACUCAGUCCAGAAAGC 24 23099CFTR-Intron10-4218 + CCGCCACUGCACUCCAGC 18 23100 CFTR-Intron10-4219 +CCCGCCACUGCACUCCAGC 19 23101 CFTR-Intron10-4220 + UCCCGCCACUGCACUCCAGC20 23102 CFTR-Intron10-4221 + AUCCCGCCACUGCACUCCAGC 21 23103CFTR-Intron10-4222 + GAUCCCGCCACUGCACUCCAGC 22 23104CFTR-Intron10-4223 + AGAUCCCGCCACUGCACUCCAGC 23 23105CFTR-Intron10-4224 + GAGAUCCCGCCACUGCACUCCAGC 24 23106CFTR-Intron10-4225 + CAGGAGAAUUGCUUGAGC 18 23107 CFTR-Intron10-4226 +GCAGGAGAAUUGCUUGAGC 19 23108 CFTR-Intron10-4227 + GGCAGGAGAAUUGCUUGAGC20 23109 CFTR-Intron10-4228 + AGGCAGGAGAAUUGCUUGAGC 21 23110CFTR-Intron10-4229 + GAGGCAGGAGAAUUGCUUGAGC 22 23111CFTR-Intron10-4230 + UGAGGCAGGAGAAUUGCUUGAGC 23 23112CFTR-Intron10-4231 + GUGAGGCAGGAGAAUUGCUUGAGC 24 23113CFTR-Intron10-1222 + ACCUCAGCCUCCCAAGUAGC 20 20107 CFTR-Intron10-4232 +CACCUCAGCCUCCCAAGUAGC 21 23114 CFTR-Intron10-4233 +CCACCUCAGCCUCCCAAGUAGC 22 23115 CFTR-Intron10-4234 +CCCACCUCAGCCUCCCAAGUAGC 23 23116 CFTR-Intron10-4235 +UCCCACCUCAGCCUCCCAAGUAGC 24 23117 CFTR-Intron10-4236 +CUCAGCCUCCCGAGUAGC 18 23118 CFTR-Intron10-4237 + CCUCAGCCUCCCGAGUAGC 1923119 CFTR-Intron10-675 + GCCUCAGCCUCCCGAGUAGC 20 19561CFTR-Intron10-4238 + UGCCUCAGCCUCCCGAGUAGC 21 23120 CFTR-Intron10-4239 +CUGCCUCAGCCUCCCGAGUAGC 22 23121 CFTR-Intron10-4240 +CCUGCCUCAGCCUCCCGAGUAGC 23 23122 CFTR-Intron10-4241 +UCCUGCCUCAGCCUCCCGAGUAGC 24 23123 CFTR-Intron10-4242 +AAACUCAUAAGGGACCGC 18 23124 CFTR-Intron10-4243 + AAAACUCAUAAGGGACCGC 1923125 CFTR-Intron10-4244 + GAAAACUCAUAAGGGACCGC 20 23126CFTR-Intron10-4245 + AGAAAACUCAUAAGGGACCGC 21 23127 CFTR-Intron10-4246 +GAGAAAACUCAUAAGGGACCGC 22 23128 CFTR-Intron10-4247 +AGAGAAAACUCAUAAGGGACCGC 23 23129 CFTR-Intron10-4248 +UAGAGAAAACUCAUAAGGGACCGC 24 23130 CFTR-Intron10-4249 +UCUCACAGUUCUGGAGGC 18 23131 CFTR-Intron10-4250 + UUCUCACAGUUCUGGAGGC 1923132 CFTR-Intron10-1229 + UUUCUCACAGUUCUGGAGGC 20 20114CFTR-Intron10-4251 + AUUUCUCACAGUUCUGGAGGC 21 23133 CFTR-Intron10-4252 +UAUUUCUCACAGUUCUGGAGGC 22 23134 CFTR-Intron10-4253 +UUAUUUCUCACAGUUCUGGAGGC 23 23135 CFTR-Intron10-4254 +UUUAUUUCUCACAGUUCUGGAGGC 24 23136 CFTR-Intron10-4255 +UACUUGGGAGGCUGAGGC 18 23137 CFTR-Intron10-4256 + CUACUUGGGAGGCUGAGGC 1923138 CFTR-Intron10-681 + GCUACUUGGGAGGCUGAGGC 20 19567CFTR-Intron10-4257 + AGCUACUUGGGAGGCUGAGGC 21 23139 CFTR-Intron10-4258 +CAGCUACUUGGGAGGCUGAGGC 22 23140 CFTR-Intron10-4259 +CCAGCUACUUGGGAGGCUGAGGC 23 23141 CFTR-Intron10-4260 +CCCAGCUACUUGGGAGGCUGAGGC 24 23142 CFTR-Intron10-4261 +UACUUGGGAGGGUGAGGC 18 23143 CFTR-Intron10-4262 + CUACUUGGGAGGGUGAGGC 1923144 CFTR-Intron10-682 + GCUACUUGGGAGGGUGAGGC 20 19568CFTR-Intron10-4263 + AGCUACUUGGGAGGGUGAGGC 21 23145 CFTR-Intron10-4264 +CAGCUACUUGGGAGGGUGAGGC 22 23146 CFTR-Intron10-4265 +CCAGCUACUUGGGAGGGUGAGGC 23 23147 CFTR-Intron10-4266 +CCCAGCUACUUGGGAGGGUGAGGC 24 23148 CFTR-Intron10-4267 +CUGAGGCAGGAGAAUGGC 18 23149 CFTR-Intron10-4268 + GCUGAGGCAGGAGAAUGGC 1923150 CFTR-Intron10-4269 + GGCUGAGGCAGGAGAAUGGC 20 23151CFTR-Intron10-4270 + AGGCUGAGGCAGGAGAAUGGC 21 23152 CFTR-Intron10-4271 +GAGGCUGAGGCAGGAGAAUGGC 22 23153 CFTR-Intron10-4272 +GGAGGCUGAGGCAGGAGAAUGGC 23 23154 CFTR-Intron10-4273 +GGGAGGCUGAGGCAGGAGAAUGGC 24 23155 CFTR-Intron10-4274 +UUUCAACAUAUGAAUGGC 18 23156 CFTR-Intron10-4275 + AUUUCAACAUAUGAAUGGC 1923157 CFTR-Intron10-683 + GAUUUCAACAUAUGAAUGGC 20 19569CFTR-Intron10-4276 + GGAUUUCAACAUAUGAAUGGC 21 23158 CFTR-Intron10-4277 +AGGAUUUCAACAUAUGAAUGGC 22 23159 CFTR-Intron10-4278 +UAGGAUUUCAACAUAUGAAUGGC 23 23160 CFTR-Intron10-4279 +UUAGGAUUUCAACAUAUGAAUGGC 24 23161 CFTR-Intron10-4280 +AAUGGCUAUCCACAAUGC 18 23162 CFTR-Intron10-4281 + AAAUGGCUAUCCACAAUGC 1923163 CFTR-Intron10-4282 + UAAAUGGCUAUCCACAAUGC 20 23164CFTR-Intron10-4283 + UUAAAUGGCUAUCCACAAUGC 21 23165 CFTR-Intron10-4284 +UUUAAAUGGCUAUCCACAAUGC 22 23166 CFTR-Intron10-4285 +UUUUAAAUGGCUAUCCACAAUGC 23 23167 CFTR-Intron10-4286 +GUUUUAAAUGGCUAUCCACAAUGC 24 23168 CFTR-Intron10-4287 +GGUUGGAUGAGGGAAUGC 18 23169 CFTR-Intron10-4288 + UGGUUGGAUGAGGGAAUGC 1923170 CFTR-Intron10-431 + UUGGUUGGAUGAGGGAAUGC 20 19317CFTR-Intron10-4289 + CUUGGUUGGAUGAGGGAAUGC 21 23171 CFTR-Intron10-4290 +CCUUGGUUGGAUGAGGGAAUGC 22 23172 CFTR-Intron10-4291 +ACCUUGGUUGGAUGAGGGAAUGC 23 23173 CFTR-Intron10-4292 +UACCUUGGUUGGAUGAGGGAAUGC 24 23174 CFTR-Intron10-4293 +ACAUGAUGAAAAAUAUGC 18 23175 CFTR-Intron10-4294 + AACAUGAUGAAAAAUAUGC 1923176 CFTR-Intron10-4295 + AAACAUGAUGAAAAAUAUGC 20 23177CFTR-Intron10-4296 + UAAACAUGAUGAAAAAUAUGC 21 23178 CFTR-Intron10-4297 +CUAAACAUGAUGAAAAAUAUGC 22 23179 CFTR-Intron10-4298 +ACUAAACAUGAUGAAAAAUAUGC 23 23180 CFTR-Intron10-4299 +CACUAAACAUGAUGAAAAAUAUGC 24 23181 CFTR-Intron10-4300 +CAAUUUUAAUAAAACUGC 18 23182 CFTR-Intron10-4301 + UCAAUUUUAAUAAAACUGC 1923183 CFTR-Intron10-4302 + AUCAAUUUUAAUAAAACUGC 20 23184CFTR-Intron10-4303 + CAUCAAUUUUAAUAAAACUGC 21 23185 CFTR-Intron10-4304 +UCAUCAAUUUUAAUAAAACUGC 22 23186 CFTR-Intron10-4305 +CUCAUCAAUUUUAAUAAAACUGC 23 23187 CFTR-Intron10-4306 +GCUCAUCAAUUUUAAUAAAACUGC 24 23188 CFTR-Intron10-4307 +GUGAGGCAGGAGAAUUGC 18 23189 CFTR-Intron10-4308 + GGUGAGGCAGGAGAAUUGC 1923190 CFTR-Intron10-4309 + GGGUGAGGCAGGAGAAUUGC 20 23191CFTR-Intron10-4310 + AGGGUGAGGCAGGAGAAUUGC 21 23192 CFTR-Intron10-4311 +GAGGGUGAGGCAGGAGAAUUGC 22 23193 CFTR-Intron10-4312 +GGAGGGUGAGGCAGGAGAAUUGC 23 23194 CFTR-Intron10-4313 +GGGAGGGUGAGGCAGGAGAAUUGC 24 23195 CFTR-Intron10-4314 +GCCACCAUCAUCACUUGC 18 23196 CFTR-Intron10-4315 + AGCCACCAUCAUCACUUGC 1923197 CFTR-Intron10-4316 + AAGCCACCAUCAUCACUUGC 20 23198CFTR-Intron10-4317 + CAAGCCACCAUCAUCACUUGC 21 23199 CFTR-Intron10-4318 +UCAAGCCACCAUCAUCACUUGC 22 23200 CFTR-Intron10-4319 +AUCAAGCCACCAUCAUCACUUGC 23 23201 CFTR-Intron10-4320 +GAUCAAGCCACCAUCAUCACUUGC 24 23202 CFTR-Intron10-4321 +ACAAAGUAACAGAAAAUC 18 23203 CFTR-Intron10-4322 + AACAAAGUAACAGAAAAUC 1923204 CFTR-Intron10-4323 + UAACAAAGUAACAGAAAAUC 20 23205CFTR-Intron10-4324 + GUAACAAAGUAACAGAAAAUC 21 23206 CFTR-Intron10-4325 +AGUAACAAAGUAACAGAAAAUC 22 23207 CFTR-Intron10-4326 +AAGUAACAAAGUAACAGAAAAUC 23 23208 CFTR-Intron10-4327 +AAAGUAACAAAGUAACAGAAAAUC 24 23209 CFTR-Intron10-4328 +UGCUAUUUAAACAGAAUC 18 23210 CFTR-Intron10-4329 + GUGCUAUUUAAACAGAAUC 1923211 CFTR-Intron10-433 + AGUGCUAUUUAAACAGAAUC 20 19319CFTR-Intron10-4330 + CAGUGCUAUUUAAACAGAAUC 21 23212 CFTR-Intron10-4331 +CCAGUGCUAUUUAAACAGAAUC 22 23213 CFTR-Intron10-4332 +UCCAGUGCUAUUUAAACAGAAUC 23 23214 CFTR-Intron10-4333 +CUCCAGUGCUAUUUAAACAGAAUC 24 23215 CFTR-Intron10-4334 +UUUAGUAGAAACCUAAUC 18 23216 CFTR-Intron10-4335 + UUUUAGUAGAAACCUAAUC 1923217 CFTR-Intron10-91 + GUUUUAGUAGAAACCUAAUC 20 18977CFTR-Intron10-4336 + GGUUUUAGUAGAAACCUAAUC 21 23218 CFTR-Intron10-4337 +UGGUUUUAGUAGAAACCUAAUC 22 23219 CFTR-Intron10-4338 +UUGGUUUUAGUAGAAACCUAAUC 23 23220 CFTR-Intron10-4339 +UUUGGUUUUAGUAGAAACCUAAUC 24 23221 CFTR-Intron10-4340 +GGCCGAGGCAGGCAGAUC 18 23222 CFTR-Intron10-4341 + AGGCCGAGGCAGGCAGAUC 1923223 CFTR-Intron10-4342 + GAGGCCGAGGCAGGCAGAUC 20 23224CFTR-Intron10-4343 + GGAGGCCGAGGCAGGCAGAUC 21 23225 CFTR-Intron10-4344 +GGGAGGCCGAGGCAGGCAGAUC 22 23226 CFTR-Intron10-4345 +UGGGAGGCCGAGGCAGGCAGAUC 23 23227 CFTR-Intron10-4346 +UUGGGAGGCCGAGGCAGGCAGAUC 24 23228 CFTR-Intron10-4347 +GGCCGAGGCGGGCGGAUC 18 23229 CFTR-Intron10-4348 + AGGCCGAGGCGGGCGGAUC 1923230 CFTR-Intron10-4349 + GAGGCCGAGGCGGGCGGAUC 20 23231CFTR-Intron10-4350 + GGAGGCCGAGGCGGGCGGAUC 21 23232 CFTR-Intron10-4351 +GGGAGGCCGAGGCGGGCGGAUC 22 23233 CFTR-Intron10-4352 +UGGGAGGCCGAGGCGGGCGGAUC 23 23234 CFTR-Intron10-4353 +UUGGGAGGCCGAGGCGGGCGGAUC 24 23235 CFTR-Intron10-4354 +UCUAUCAUAGAAUUGAUC 18 23236 CFTR-Intron10-4355 + AUCUAUCAUAGAAUUGAUC 1923237 CFTR-Intron10-4356 + CAUCUAUCAUAGAAUUGAUC 20 23238CFTR-Intron10-4357 + ACAUCUAUCAUAGAAUUGAUC 21 23239 CFTR-Intron10-4358 +CACAUCUAUCAUAGAAUUGAUC 22 23240 CFTR-Intron10-4359 +GCACAUCUAUCAUAGAAUUGAUC 23 23241 CFTR-Intron10-4360 +UGCACAUCUAUCAUAGAAUUGAUC 24 23242 CFTR-Intron10-4361 +AUACUGGGUUCAUUUAUC 18 23243 CFTR-Intron10-4362 + UAUACUGGGUUCAUUUAUC 1923244 CFTR-Intron10-4363 + UUAUACUGGGUUCAUUUAUC 20 23245CFTR-Intron10-4364 + UUUAUACUGGGUUCAUUUAUC 21 23246 CFTR-Intron10-4365 +CUUUAUACUGGGUUCAUUUAUC 22 23247 CFTR-Intron10-4366 +UCUUUAUACUGGGUUCAUUUAUC 23 23248 CFTR-Intron10-4367 +GUCUUUAUACUGGGUUCAUUUAUC 24 23249 CFTR-Intron10-4368 +CACGCUGGUCUCAAACUC 18 23250 CFTR-Intron10-4369 + CCACGCUGGUCUCAAACUC 1923251 CFTR-Intron10-4370 + CCCACGCUGGUCUCAAACUC 20 23252CFTR-Intron10-4371 + GCCCACGCUGGUCUCAAACUC 21 23253 CFTR-Intron10-4372 +UGCCCACGCUGGUCUCAAACUC 22 23254 CFTR-Intron10-4373 +UUGCCCACGCUGGUCUCAAACUC 23 23255 CFTR-Intron10-4374 +GUUGCCCACGCUGGUCUCAAACUC 24 23256 CFTR-Intron10-4375 +GUAUUAGCAAGUGGACUC 18 23257 CFTR-Intron10-4376 + UGUAUUAGCAAGUGGACUC 1923258 CFTR-Intron10-4377 + UUGUAUUAGCAAGUGGACUC 20 23259CFTR-Intron10-4378 + AUUGUAUUAGCAAGUGGACUC 21 23260 CFTR-Intron10-4379 +AAUUGUAUUAGCAAGUGGACUC 22 23261 CFTR-Intron10-4380 +CAAUUGUAUUAGCAAGUGGACUC 23 23262 CFTR-Intron10-4381 +UCAAUUGUAUUAGCAAGUGGACUC 24 23263 CFTR-Intron10-4382 +ACUAAAGACUUCACCCUC 18 23264 CFTR-Intron10-4383 + UACUAAAGACUUCACCCUC 1923265 CFTR-Intron10-4384 + UUACUAAAGACUUCACCCUC 20 23266CFTR-Intron10-4385 + UUUACUAAAGACUUCACCCUC 21 23267 CFTR-Intron10-4386 +AUUUACUAAAGACUUCACCCUC 22 23268 CFTR-Intron10-4387 +CAUUUACUAAAGACUUCACCCUC 23 23269 CFTR-Intron10-4388 +UCAUUUACUAAAGACUUCACCCUC 24 23270 CFTR-Intron10-4389 +CCACCCAAUUUUUGGCUC 18 23271 CFTR-Intron10-4390 + CCCACCCAAUUUUUGGCUC 1923272 CFTR-Intron10-4391 + CCCCACCCAAUUUUUGGCUC 20 23273CFTR-Intron10-4392 + CCCCCACCCAAUUUUUGGCUC 21 23274 CFTR-Intron10-4393 +UCCCCCACCCAAUUUUUGGCUC 22 23275 CFTR-Intron10-4394 +CUCCCCCACCCAAUUUUUGGCUC 23 23276 CFTR-Intron10-4395 +GCUCCCCCACCCAAUUUUUGGCUC 24 23277 CFTR-Intron10-4396 +UAUAGAGAGAAACAUCUC 18 23278 CFTR-Intron10-4397 + AUAUAGAGAGAAACAUCUC 1923279 CFTR-Intron10-1238 + UAUAUAGAGAGAAACAUCUC 20 20123CFTR-Intron10-4398 + AUAUAUAGAGAGAAACAUCUC 21 23280 CFTR-Intron10-4399 +UAUAUAUAGAGAGAAACAUCUC 22 23281 CFTR-Intron10-4400 +AUAUAUAUAGAGAGAAACAUCUC 23 23282 CFTR-Intron10-4401 +UAUAUAUAUAGAGAGAAACAUCUC 24 23283 CFTR-Intron10-4402 +UUUAAUUGCCAGUAAGUC 18 23284 CFTR-Intron10-4403 + AUUUAAUUGCCAGUAAGUC 1923285 CFTR-Intron10-4404 + AAUUUAAUUGCCAGUAAGUC 20 23286CFTR-Intron10-4405 + AAAUUUAAUUGCCAGUAAGUC 21 23287 CFTR-Intron10-4406 +GAAAUUUAAUUGCCAGUAAGUC 22 23288 CFTR-Intron10-4407 +UGAAAUUUAAUUGCCAGUAAGUC 23 23289 CFTR-Intron10-4408 +CUGAAAUUUAAUUGCCAGUAAGUC 24 23290 CFTR-Intron10-4409 +CCUUCCAGUUACUCAGUC 18 23291 CFTR-Intron10-4410 + UCCUUCCAGUUACUCAGUC 1923292 CFTR-Intron10-4411 + AUCCUUCCAGUUACUCAGUC 20 23293CFTR-Intron10-4412 + UAUCCUUCCAGUUACUCAGUC 21 23294 CFTR-Intron10-4413 +UUAUCCUUCCAGUUACUCAGUC 22 23295 CFTR-Intron10-4414 +UUUAUCCUUCCAGUUACUCAGUC 23 23296 CFTR-Intron10-4415 +AUUUAUCCUUCCAGUUACUCAGUC 24 23297 CFTR-Intron10-4416 +AUAAGCCAGCUUUCAGUC 18 23298 CFTR-Intron10-4417 + CAUAAGCCAGCUUUCAGUC 1923299 CFTR-Intron10-4418 + CCAUAAGCCAGCUUUCAGUC 20 23300CFTR-Intron10-4419 + GCCAUAAGCCAGCUUUCAGUC 21 23301 CFTR-Intron10-4420 +UGCCAUAAGCCAGCUUUCAGUC 22 23302 CFTR-Intron10-4421 +AUGCCAUAAGCCAGCUUUCAGUC 23 23303 CFTR-Intron10-4422 +GAUGCCAUAAGCCAGCUUUCAGUC 24 23304 CFTR-Intron10-4423 +CGGGCGGAUCACGAGGUC 18 23305 CFTR-Intron10-4424 + GCGGGCGGAUCACGAGGUC 1923306 CFTR-Intron10-688 + GGCGGGCGGAUCACGAGGUC 20 19574CFTR-Intron10-4425 + AGGCGGGCGGAUCACGAGGUC 21 23307 CFTR-Intron10-4426 +GAGGCGGGCGGAUCACGAGGUC 22 23308 CFTR-Intron10-4427 +CGAGGCGGGCGGAUCACGAGGUC 23 23309 CFTR-Intron10-4428 +CCGAGGCGGGCGGAUCACGAGGUC 24 23310 CFTR-Intron10-4429 +CAGGCAGAUCAUGAGGUC 18 23311 CFTR-Intron10-4430 + GCAGGCAGAUCAUGAGGUC 1923312 CFTR-Intron10-4431 + GGCAGGCAGAUCAUGAGGUC 20 23313CFTR-Intron10-4432 + AGGCAGGCAGAUCAUGAGGUC 21 23314 CFTR-Intron10-4433 +GAGGCAGGCAGAUCAUGAGGUC 22 23315 CFTR-Intron10-4434 +CGAGGCAGGCAGAUCAUGAGGUC 23 23316 CFTR-Intron10-4435 +CCGAGGCAGGCAGAUCAUGAGGUC 24 23317 CFTR-Intron10-4436 +GCUUCACUAAAAUAAUUC 18 23318 CFTR-Intron10-4437 + UGCUUCACUAAAAUAAUUC 1923319 CFTR-Intron10-4438 + UUGCUUCACUAAAAUAAUUC 20 23320CFTR-Intron10-4439 + AUUGCUUCACUAAAAUAAUUC 21 23321 CFTR-Intron10-4440 +UAUUGCUUCACUAAAAUAAUUC 22 23322 CFTR-Intron10-4441 +AUAUUGCUUCACUAAAAUAAUUC 23 23323 CFTR-Intron10-4442 +AAUAUUGCUUCACUAAAAUAAUUC 24 23324 CFTR-Intron10-4443 +GAUUAUUCGGUAUAAUUC 18 23325 CFTR-Intron10-4444 + AGAUUAUUCGGUAUAAUUC 1923326 CFTR-Intron10-4445 + UAGAUUAUUCGGUAUAAUUC 20 23327CFTR-Intron10-4446 + UUAGAUUAUUCGGUAUAAUUC 21 23328 CFTR-Intron10-4447 +CUUAGAUUAUUCGGUAUAAUUC 22 23329 CFTR-Intron10-4448 +UCUUAGAUUAUUCGGUAUAAUUC 23 23330 CFTR-Intron10-4449 +GUCUUAGAUUAUUCGGUAUAAUUC 24 23331 CFTR-Intron10-4450 +AAAUCUAAAAGCUAAUUC 18 23332 CFTR-Intron10-4451 + UAAAUCUAAAAGCUAAUUC 1923333 CFTR-Intron10-4452 + GUAAAUCUAAAAGCUAAUUC 20 23334CFTR-Intron10-4453 + AGUAAAUCUAAAAGCUAAUUC 21 23335 CFTR-Intron10-4454 +AAGUAAAUCUAAAAGCUAAUUC 22 23336 CFTR-Intron10-4455 +UAAGUAAAUCUAAAAGCUAAUUC 23 23337 CFTR-Intron10-4456 +AUAAGUAAAUCUAAAAGCUAAUUC 24 23338 CFTR-Intron10-4457 +AUAAUUUGAACAACAUUC 18 23339 CFTR-Intron10-4458 + AAUAAUUUGAACAACAUUC 1923340 CFTR-Intron10-4459 + AAAUAAUUUGAACAACAUUC 20 23341CFTR-Intron10-4460 + GAAAUAAUUUGAACAACAUUC 21 23342 CFTR-Intron10-4461 +AGAAAUAAUUUGAACAACAUUC 22 23343 CFTR-Intron10-4462 +UAGAAAUAAUUUGAACAACAUUC 23 23344 CFTR-Intron10-4463 +GUAGAAAUAAUUUGAACAACAUUC 24 23345 CFTR-Intron10-4464 +AUUUAAAAAGCAAUAUUC 18 23346 CFTR-Intron10-4465 + AAUUUAAAAAGCAAUAUUC 1923347 CFTR-Intron10-4466 + AAAUUUAAAAAGCAAUAUUC 20 23348CFTR-Intron10-4467 + UAAAUUUAAAAAGCAAUAUUC 21 23349 CFTR-Intron10-4468 +UUAAAUUUAAAAAGCAAUAUUC 22 23350 CFTR-Intron10-4469 +AUUAAAUUUAAAAAGCAAUAUUC 23 23351 CFTR-Intron10-4470 +UAUUAAAUUUAAAAAGCAAUAUUC 24 23352 CFTR-Intron10-4471 +ACACAAUGGGUUAUAUUC 18 23353 CFTR-Intron10-4472 + UACACAAUGGGUUAUAUUC 1923354 CFTR-Intron10-4473 + CUACACAAUGGGUUAUAUUC 20 23355CFTR-Intron10-4474 + UCUACACAAUGGGUUAUAUUC 21 23356 CFTR-Intron10-4475 +AUCUACACAAUGGGUUAUAUUC 22 23357 CFTR-Intron10-4476 +UAUCUACACAAUGGGUUAUAUUC 23 23358 CFTR-Intron10-4477 +UUAUCUACACAAUGGGUUAUAUUC 24 23359 CFTR-Intron10-4478 +AGUAUUUUGAAAAGCUUC 18 23360 CFTR-Intron10-4479 + AAGUAUUUUGAAAAGCUUC 1923361 CFTR-Intron10-4480 + AAAGUAUUUUGAAAAGCUUC 20 23362CFTR-Intron10-4481 + GAAAGUAUUUUGAAAAGCUUC 21 23363 CFTR-Intron10-4482 +AGAAAGUAUUUUGAAAAGCUUC 22 23364 CFTR-Intron10-4483 +UAGAAAGUAUUUUGAAAAGCUUC 23 23365 CFTR-Intron10-4484 +CUAGAAAGUAUUUUGAAAAGCUUC 24 23366 CFTR-Intron10-4485 +AUUUAUUUCUCACAGUUC 18 23367 CFTR-Intron10-4486 + AAUUUAUUUCUCACAGUUC 1923368 CFTR-Intron10-689 + GAAUUUAUUUCUCACAGUUC 20 19575CFTR-Intron10-4487 + GGAAUUUAUUUCUCACAGUUC 21 23369 CFTR-Intron10-4488 +AGGAAUUUAUUUCUCACAGUUC 22 23370 CFTR-Intron10-4489 +CAGGAAUUUAUUUCUCACAGUUC 23 23371 CFTR-Intron10-4490 +ACAGGAAUUUAUUUCUCACAGUUC 24 23372 CFTR-Intron10-4491 +CGAAUUGGUACAAAUUUC 18 23373 CFTR-Intron10-4492 + ACGAAUUGGUACAAAUUUC 1923374 CFTR-Intron10-443 + UACGAAUUGGUACAAAUUUC 20 19329CFTR-Intron10-4493 + GUACGAAUUGGUACAAAUUUC 21 23375 CFTR-Intron10-4494 +AGUACGAAUUGGUACAAAUUUC 22 23376 CFTR-Intron10-4495 +GAGUACGAAUUGGUACAAAUUUC 23 23377 CFTR-Intron10-4496 +UGAGUACGAAUUGGUACAAAUUUC 24 23378 CFTR-Intron10-4497 +GAAAAUUUGUUUUCUUUC 18 23379 CFTR-Intron10-4498 + AGAAAAUUUGUUUUCUUUC 1923380 CFTR-Intron10-1248 + AAGAAAAUUUGUUUUCUUUC 20 20133CFTR-Intron10-4499 + AAAGAAAAUUUGUUUUCUUUC 21 23381 CFTR-Intron10-4500 +CAAAGAAAAUUUGUUUUCUUUC 22 23382 CFTR-Intron10-4501 +ACAAAGAAAAUUUGUUUUCUUUC 23 23383 CFTR-Intron10-4502 +AACAAAGAAAAUUUGUUUUCUUUC 24 23384 CFTR-Intron10-4503 +UCAAAGCUACAGAUUUUC 18 23385 CFTR-Intron10-4504 + AUCAAAGCUACAGAUUUUC 1923386 CFTR-Intron10-4505 + AAUCAAAGCUACAGAUUUUC 20 23387CFTR-Intron10-4506 + AAAUCAAAGCUACAGAUUUUC 21 23388 CFTR-Intron10-4507 +UAAAUCAAAGCUACAGAUUUUC 22 23389 CFTR-Intron10-4508 +AUAAAUCAAAGCUACAGAUUUUC 23 23390 CFTR-Intron10-4509 +UAUAAAUCAAAGCUACAGAUUUUC 24 23391 CFTR-Intron10-4510 +UUGCUUUAUUAAGAAAAG 18 23392 CFTR-Intron10-4511 + AUUGCUUUAUUAAGAAAAG 1923393 CFTR-Intron10-4512 + GAUUGCUUUAUUAAGAAAAG 20 23394CFTR-Intron10-4513 + UGAUUGCUUUAUUAAGAAAAG 21 23395 CFTR-Intron10-4514 +CUGAUUGCUUUAUUAAGAAAAG 22 23396 CFTR-Intron10-4515 +GCUGAUUGCUUUAUUAAGAAAAG 23 23397 CFTR-Intron10-4516 +UGCUGAUUGCUUUAUUAAGAAAAG 24 23398 CFTR-Intron10-4517 +GGAUAUCUUAGGUCAAAG 18 23399 CFTR-Intron10-4518 + AGGAUAUCUUAGGUCAAAG 1923400 CFTR-Intron10-447 + UAGGAUAUCUUAGGUCAAAG 20 19333CFTR-Intron10-4519 + UUAGGAUAUCUUAGGUCAAAG 21 23401 CFTR-Intron10-4520 +CUUAGGAUAUCUUAGGUCAAAG 22 23402 CFTR-Intron10-4521 +CCUUAGGAUAUCUUAGGUCAAAG 23 23403 CFTR-Intron10-4522 +CCCUUAGGAUAUCUUAGGUCAAAG 24 23404 CFTR-Intron10-4523 +UGUUAAUGGCAAAGCAAG 18 23405 CFTR-Intron10-4524 + CUGUUAAUGGCAAAGCAAG 1923406 CFTR-Intron10-4525 + UCUGUUAAUGGCAAAGCAAG 20 23407CFTR-Intron10-4526 + AUCUGUUAAUGGCAAAGCAAG 21 23408 CFTR-Intron10-4527 +UAUCUGUUAAUGGCAAAGCAAG 22 23409 CFTR-Intron10-4528 +UUAUCUGUUAAUGGCAAAGCAAG 23 23410 CFTR-Intron10-4529 +UUUAUCUGUUAAUGGCAAAGCAAG 24 23411 CFTR-Intron10-4530 +UUGGGUAAGUUAUAGAAG 18 23412 CFTR-Intron10-4531 + UUUGGGUAAGUUAUAGAAG 1923413 CFTR-Intron10-4532 + AUUUGGGUAAGUUAUAGAAG 20 23414CFTR-Intron10-4533 + UAUUUGGGUAAGUUAUAGAAG 21 23415 CFTR-Intron10-4534 +AUAUUUGGGUAAGUUAUAGAAG 22 23416 CFTR-Intron10-4535 +CAUAUUUGGGUAAGUUAUAGAAG 23 23417 CFTR-Intron10-4536 +ACAUAUUUGGGUAAGUUAUAGAAG 24 23418 CFTR-Intron10-4537 +CACUUUGGGAGGCUGAAG 18 23419 CFTR-Intron10-4538 + GCACUUUGGGAGGCUGAAG 1923420 CFTR-Intron10-1252 + AGCACUUUGGGAGGCUGAAG 20 20137CFTR-Intron10-4539 + CAGCACUUUGGGAGGCUGAAG 21 23421 CFTR-Intron10-4540 +CCAGCACUUUGGGAGGCUGAAG 22 23422 CFTR-Intron10-4541 +CCCAGCACUUUGGGAGGCUGAAG 23 23423 CFTR-Intron10-4542 +ACCCAGCACUUUGGGAGGCUGAAG 24 23424 CFTR-Intron10-4543 +UACUAUUUUCCCUAUAAG 18 23425 CFTR-Intron10-4544 + AUACUAUUUUCCCUAUAAG 1923426 CFTR-Intron10-4545 + CAUACUAUUUUCCCUAUAAG 20 23427CFTR-Intron10-4546 + ACAUACUAUUUUCCCUAUAAG 21 23428 CFTR-Intron10-4547 +GACAUACUAUUUUCCCUAUAAG 22 23429 CFTR-Intron10-4548 +UGACAUACUAUUUUCCCUAUAAG 23 23430 CFTR-Intron10-4549 +UUGACAUACUAUUUUCCCUAUAAG 24 23431 CFTR-Intron10-4550 +AUUCCUCCUGUGUAUAAG 18 23432 CFTR-Intron10-4551 + AAUUCCUCCUGUGUAUAAG 1923433 CFTR-Intron10-4552 + AAAUUCCUCCUGUGUAUAAG 20 23434CFTR-Intron10-4553 + GAAAUUCCUCCUGUGUAUAAG 21 23435 CFTR-Intron10-4554 +AGAAAUUCCUCCUGUGUAUAAG 22 23436 CFTR-Intron10-4555 +GAGAAAUUCCUCCUGUGUAUAAG 23 23437 CFTR-Intron10-4556 +AGAGAAAUUCCUCCUGUGUAUAAG 24 23438 CFTR-Intron10-4557 +CUUAACCCAUCUAUUAAG 18 23439 CFTR-Intron10-4558 + GCUUAACCCAUCUAUUAAG 1923440 CFTR-Intron10-97 + GGCUUAACCCAUCUAUUAAG 20 18983CFTR-Intron10-4559 + UGGCUUAACCCAUCUAUUAAG 21 23441 CFTR-Intron10-4560 +UUGGCUUAACCCAUCUAUUAAG 22 23442 CFTR-Intron10-4561 +GUUGGCUUAACCCAUCUAUUAAG 23 23443 CFTR-Intron10-4562 +AGUUGGCUUAACCCAUCUAUUAAG 24 23444 CFTR-Intron10-4563 +CUGUGAUGCAGACAACAG 18 23445 CFTR-Intron10-4564 + GCUGUGAUGCAGACAACAG 1923446 CFTR-Intron10-4565 + AGCUGUGAUGCAGACAACAG 20 23447CFTR-Intron10-4566 + CAGCUGUGAUGCAGACAACAG 21 23448 CFTR-Intron10-4567 +UCAGCUGUGAUGCAGACAACAG 22 23449 CFTR-Intron10-4568 +UUCAGCUGUGAUGCAGACAACAG 23 23450 CFTR-Intron10-4569 +CUUCAGCUGUGAUGCAGACAACAG 24 23451 CFTR-Intron10-4570 +AGAAUGGAAAAUGGACAG 18 23452 CFTR-Intron10-4571 + GAGAAUGGAAAAUGGACAG 1923453 CFTR-Intron10-4572 + GGAGAAUGGAAAAUGGACAG 20 23454CFTR-Intron10-4573 + AGGAGAAUGGAAAAUGGACAG 21 23455 CFTR-Intron10-4574 +CAGGAGAAUGGAAAAUGGACAG 22 23456 CFTR-Intron10-4575 +GCAGGAGAAUGGAAAAUGGACAG 23 23457 CFTR-Intron10-4576 +UGCAGGAGAAUGGAAAAUGGACAG 24 23458 CFTR-Intron10-4577 +AGCUAAAGUAUUACCCAG 18 23459 CFTR-Intron10-4578 + CAGCUAAAGUAUUACCCAG 1923460 CFTR-Intron10-451 + ACAGCUAAAGUAUUACCCAG 20 19337CFTR-Intron10-4579 + UACAGCUAAAGUAUUACCCAG 21 23461 CFTR-Intron10-4580 +AUACAGCUAAAGUAUUACCCAG 22 23462 CFTR-Intron10-4581 +UAUACAGCUAAAGUAUUACCCAG 23 23463 CFTR-Intron10-4582 +AUAUACAGCUAAAGUAUUACCCAG 24 23464 CFTR-Intron10-4583 +GAUAAAAAUUCCAAGCAG 18 23465 CFTR-Intron10-4584 + UGAUAAAAAUUCCAAGCAG 1923466 CFTR-Intron10-4585 + AUGAUAAAAAUUCCAAGCAG 20 23467CFTR-Intron10-4586 + AAUGAUAAAAAUUCCAAGCAG 21 23468 CFTR-Intron10-4587 +AAAUGAUAAAAAUUCCAAGCAG 22 23469 CFTR-Intron10-4588 +AAAAUGAUAAAAAUUCCAAGCAG 23 23470 CFTR-Intron10-4589 +AAAAAUGAUAAAAAUUCCAAGCAG 24 23471 CFTR-Intron10-4590 +AAGGAAAGGAGGUAGCAG 18 23472 CFTR-Intron10-4591 + GAAGGAAAGGAGGUAGCAG 1923473 CFTR-Intron10-1260 + AGAAGGAAAGGAGGUAGCAG 20 20145CFTR-Intron10-4592 + UAGAAGGAAAGGAGGUAGCAG 21 23474 CFTR-Intron10-4593 +GUAGAAGGAAAGGAGGUAGCAG 22 23475 CFTR-Intron10-4594 +AGUAGAAGGAAAGGAGGUAGCAG 23 23476 CFTR-Intron10-4595 +GAGUAGAAGGAAAGGAGGUAGCAG 24 23477 CFTR-Intron10-4596 +UCAACAUAUGAAUGGCAG 18 23478 CFTR-Intron10-4597 + UUCAACAUAUGAAUGGCAG 1923479 CFTR-Intron10-1263 + UUUCAACAUAUGAAUGGCAG 20 20148CFTR-Intron10-4598 + AUUUCAACAUAUGAAUGGCAG 21 23480 CFTR-Intron10-4599 +GAUUUCAACAUAUGAAUGGCAG 22 23481 CFTR-Intron10-4600 +GGAUUUCAACAUAUGAAUGGCAG 23 23482 CFTR-Intron10-4601 +AGGAUUUCAACAUAUGAAUGGCAG 24 23483 CFTR-Intron10-4602 +CUAUUUAAACAGAAUCAG 18 23484 CFTR-Intron10-4603 + GCUAUUUAAACAGAAUCAG 1923485 CFTR-Intron10-453 + UGCUAUUUAAACAGAAUCAG 20 19339CFTR-Intron10-4604 + GUGCUAUUUAAACAGAAUCAG 21 23486 CFTR-Intron10-4605 +AGUGCUAUUUAAACAGAAUCAG 22 23487 CFTR-Intron10-4606 +CAGUGCUAUUUAAACAGAAUCAG 23 23488 CFTR-Intron10-4607 +CCAGUGCUAUUUAAACAGAAUCAG 24 23489 CFTR-Intron10-4608 +CAUAAUAAGACAGCUCAG 18 23490 CFTR-Intron10-4609 + ACAUAAUAAGACAGCUCAG 1923491 CFTR-Intron10-4610 + AACAUAAUAAGACAGCUCAG 20 23492CFTR-Intron10-4611 + AAACAUAAUAAGACAGCUCAG 21 23493 CFTR-Intron10-4612 +AAAACAUAAUAAGACAGCUCAG 22 23494 CFTR-Intron10-4613 +CAAAACAUAAUAAGACAGCUCAG 23 23495 CFTR-Intron10-4614 +ACAAAACAUAAUAAGACAGCUCAG 24 23496 CFTR-Intron10-4615 +AAGAGGAAAAGACUUCAG 18 23497 CFTR-Intron10-4616 + UAAGAGGAAAAGACUUCAG 1923498 CFTR-Intron10-4617 + UUAAGAGGAAAAGACUUCAG 20 23499CFTR-Intron10-4618 + AUUAAGAGGAAAAGACUUCAG 21 23500 CFTR-Intron10-4619 +UAUUAAGAGGAAAAGACUUCAG 22 23501 CFTR-Intron10-4620 +CUAUUAAGAGGAAAAGACUUCAG 23 23502 CFTR-Intron10-4621 +UCUAUUAAGAGGAAAAGACUUCAG 24 23503 CFTR-Intron10-4622 +UGUUACAUAAAAAGAGAG 18 23504 CFTR-Intron10-4623 + UUGUUACAUAAAAAGAGAG 1923505 CFTR-Intron10-4624 + AUUGUUACAUAAAAAGAGAG 20 23506CFTR-Intron10-4625 + UAUUGUUACAUAAAAAGAGAG 21 23507 CFTR-Intron10-4626 +AUAUUGUUACAUAAAAAGAGAG 22 23508 CFTR-Intron10-4627 +CAUAUUGUUACAUAAAAAGAGAG 23 23509 CFTR-Intron10-4628 +GCAUAUUGUUACAUAAAAAGAGAG 24 23510 CFTR-Intron10-4629 +UUUGUAUUUUUAGUAGAG 18 23511 CFTR-Intron10-4630 + UUUUGUAUUUUUAGUAGAG 1923512 CFTR-Intron10-4631 + UUUUUGUAUUUUUAGUAGAG 20 23513CFTR-Intron10-4632 + UUUUUUGUAUUUUUAGUAGAG 21 23514 CFTR-Intron10-4633 +AUUUUUUGUAUUUUUAGUAGAG 22 23515 CFTR-Intron10-4634 +AAUUUUUUGUAUUUUUAGUAGAG 23 23516 CFTR-Intron10-4635 +UAAUUUUUUGUAUUUUUAGUAGAG 24 23517 CFTR-Intron10-4636 +UUUGUGUUUUUUGUAGAG 18 23518 CFTR-Intron10-4637 + GUUUGUGUUUUUUGUAGAG 1923519 CFTR-Intron10-4638 + UGUUUGUGUUUUUUGUAGAG 20 23520CFTR-Intron10-4639 + UUGUUUGUGUUUUUUGUAGAG 21 23521 CFTR-Intron10-4640 +UUUGUUUGUGUUUUUUGUAGAG 22 23522 CFTR-Intron10-4641 +UUUUGUUUGUGUUUUUUGUAGAG 23 23523 CFTR-Intron10-4642 +CUUUUGUUUGUGUUUUUUGUAGAG 24 23524 CFTR-Intron10-4643 +GCACUUUGGGAGGCCGAG 18 23525 CFTR-Intron10-4644 + AGCACUUUGGGAGGCCGAG 1923526 CFTR-Intron10-4645 + CAGCACUUUGGGAGGCCGAG 20 23527CFTR-Intron10-4646 + CCAGCACUUUGGGAGGCCGAG 21 23528 CFTR-Intron10-4647 +CCCAGCACUUUGGGAGGCCGAG 22 23529 CFTR-Intron10-4648 +UCCCAGCACUUUGGGAGGCCGAG 23 23530 CFTR-Intron10-4649 +AUCCCAGCACUUUGGGAGGCCGAG 24 23531 CFTR-Intron10-4650 +CUAAUGGCAGAAUUCGAG 18 23532 CFTR-Intron10-4651 + ACUAAUGGCAGAAUUCGAG 1923533 CFTR-Intron10-4652 + AACUAAUGGCAGAAUUCGAG 20 23534CFTR-Intron10-4653 + AAACUAAUGGCAGAAUUCGAG 21 23535 CFTR-Intron10-4654 +AAAACUAAUGGCAGAAUUCGAG 22 23536 CFTR-Intron10-4655 +UAAAACUAAUGGCAGAAUUCGAG 23 23537 CFTR-Intron10-4656 +UUAAAACUAAUGGCAGAAUUCGAG 24 23538 CFTR-Intron10-4657 +AUGGCGUGAACCCGGGAG 18 23539 CFTR-Intron10-4658 + AAUGGCGUGAACCCGGGAG 1923540 CFTR-Intron10-4659 + GAAUGGCGUGAACCCGGGAG 20 23541CFTR-Intron10-4660 + AGAAUGGCGUGAACCCGGGAG 21 23542 CFTR-Intron10-4661 +GAGAAUGGCGUGAACCCGGGAG 22 23543 CFTR-Intron10-4662 +GGAGAAUGGCGUGAACCCGGGAG 23 23544 CFTR-Intron10-4663 +AGGAGAAUGGCGUGAACCCGGGAG 24 23545 CFTR-Intron10-4664 +UUAGGGUGGGAUAUGGAG 18 23546 CFTR-Intron10-4665 + CUUAGGGUGGGAUAUGGAG 1923547 CFTR-Intron10-4666 + UCUUAGGGUGGGAUAUGGAG 20 23548CFTR-Intron10-4667 + UUCUUAGGGUGGGAUAUGGAG 21 23549 CFTR-Intron10-4668 +GUUCUUAGGGUGGGAUAUGGAG 22 23550 CFTR-Intron10-4669 +UGUUCUUAGGGUGGGAUAUGGAG 23 23551 CFTR-Intron10-4670 +UUGUUCUUAGGGUGGGAUAUGGAG 24 23552 CFTR-Intron10-4671 +CUACUGACUAAAACUGAG 18 23553 CFTR-Intron10-4672 + ACUACUGACUAAAACUGAG 1923554 CFTR-Intron10-4673 + UACUACUGACUAAAACUGAG 20 23555CFTR-Intron10-4674 + AUACUACUGACUAAAACUGAG 21 23556 CFTR-Intron10-4675 +AAUACUACUGACUAAAACUGAG 22 23557 CFTR-Intron10-4676 +UAAUACUACUGACUAAAACUGAG 23 23558 CFTR-Intron10-4677 +AUAAUACUACUGACUAAAACUGAG 24 23559 CFTR-Intron10-4678 +GGCGGAGCUUGCAGUGAG 18 23560 CFTR-Intron10-4679 + AGGCGGAGCUUGCAGUGAG 1923561 CFTR-Intron10-4680 + GAGGCGGAGCUUGCAGUGAG 20 23562CFTR-Intron10-4681 + GGAGGCGGAGCUUGCAGUGAG 21 23563 CFTR-Intron10-4682 +GGGAGGCGGAGCUUGCAGUGAG 22 23564 CFTR-Intron10-4683 +CGGGAGGCGGAGCUUGCAGUGAG 23 23565 CFTR-Intron10-4684 +CCGGGAGGCGGAGCUUGCAGUGAG 24 23566 CFTR-Intron10-4685 +GGCAGAGGUUGCAGUGAG 18 23567 CFTR-Intron10-4686 + AGGCAGAGGUUGCAGUGAG 1923568 CFTR-Intron10-4687 + GAGGCAGAGGUUGCAGUGAG 20 23569CFTR-Intron10-4688 + GGAGGCAGAGGUUGCAGUGAG 21 23570 CFTR-Intron10-4689 +GGGAGGCAGAGGUUGCAGUGAG 22 23571 CFTR-Intron10-4690 +CGGGAGGCAGAGGUUGCAGUGAG 23 23572 CFTR-Intron10-4691 +CCGGGAGGCAGAGGUUGCAGUGAG 24 23573 CFTR-Intron10-4692 +GACACCAAAUUUAUUGAG 18 23574 CFTR-Intron10-4693 + UGACACCAAAUUUAUUGAG 1923575 CFTR-Intron10-457 + CUGACACCAAAUUUAUUGAG 20 19343CFTR-Intron10-4694 + CCUGACACCAAAUUUAUUGAG 21 23576 CFTR-Intron10-4695 +GCCUGACACCAAAUUUAUUGAG 22 23577 CFTR-Intron10-4696 +AGCCUGACACCAAAUUUAUUGAG 23 23578 CFTR-Intron10-4697 +CAGCCUGACACCAAAUUUAUUGAG 24 23579 CFTR-Intron10-4698 +UAAUAGCCUAUUGUUGAG 18 23580 CFTR-Intron10-4699 + CUAAUAGCCUAUUGUUGAG 1923581 CFTR-Intron10-1271 + ACUAAUAGCCUAUUGUUGAG 20 20156CFTR-Intron10-4700 + UACUAAUAGCCUAUUGUUGAG 21 23582 CFTR-Intron10-4701 +CUACUAAUAGCCUAUUGUUGAG 22 23583 CFTR-Intron10-4702 +ACUACUAAUAGCCUAUUGUUGAG 23 23584 CFTR-Intron10-4703 +AACUACUAAUAGCCUAUUGUUGAG 24 23585 CFTR-Intron10-4704 +CUAGAUGAUUAUUAAUAG 18 23586 CFTR-Intron10-4705 + CCUAGAUGAUUAUUAAUAG 1923587 CFTR-Intron10-100 + GCCUAGAUGAUUAUUAAUAG 20 18986CFTR-Intron10-4706 + AGCCUAGAUGAUUAUUAAUAG 21 23588 CFTR-Intron10-4707 +CAGCCUAGAUGAUUAUUAAUAG 22 23589 CFTR-Intron10-4708 +GCAGCCUAGAUGAUUAUUAAUAG 23 23590 CFTR-Intron10-4709 +UGCAGCCUAGAUGAUUAUUAAUAG 24 23591 CFTR-Intron10-4710 +GAAAGUUGUCCAAGAUAG 18 23592 CFTR-Intron10-4711 + GGAAAGUUGUCCAAGAUAG 1923593 CFTR-Intron10-459 + UGGAAAGUUGUCCAAGAUAG 20 19345CFTR-Intron10-4712 + AUGGAAAGUUGUCCAAGAUAG 21 23594 CFTR-Intron10-4713 +UAUGGAAAGUUGUCCAAGAUAG 22 23595 CFTR-Intron10-4714 +AUAUGGAAAGUUGUCCAAGAUAG 23 23596 CFTR-Intron10-4715 +AAUAUGGAAAGUUGUCCAAGAUAG 24 23597 CFTR-Intron10-4716 +CCUCAGCCUCCCAAGUAG 18 23598 CFTR-Intron10-4717 + ACCUCAGCCUCCCAAGUAG 1923599 CFTR-Intron10-4718 + CACCUCAGCCUCCCAAGUAG 20 23600CFTR-Intron10-4719 + CCACCUCAGCCUCCCAAGUAG 21 23601 CFTR-Intron10-4720 +CCCACCUCAGCCUCCCAAGUAG 22 23602 CFTR-Intron10-4721 +UCCCACCUCAGCCUCCCAAGUAG 23 23603 CFTR-Intron10-4722 +CUCCCACCUCAGCCUCCCAAGUAG 24 23604 CFTR-Intron10-4723 +GGUAAGUUAUAGAAGUAG 18 23605 CFTR-Intron10-4724 + GGGUAAGUUAUAGAAGUAG 1923606 CFTR-Intron10-4725 + UGGGUAAGUUAUAGAAGUAG 20 23607CFTR-Intron10-4726 + UUGGGUAAGUUAUAGAAGUAG 21 23608 CFTR-Intron10-4727 +UUUGGGUAAGUUAUAGAAGUAG 22 23609 CFTR-Intron10-4728 +AUUUGGGUAAGUUAUAGAAGUAG 23 23610 CFTR-Intron10-4729 +UAUUUGGGUAAGUUAUAGAAGUAG 24 23611 CFTR-Intron10-4730 +CCUCAGCCUCCCGAGUAG 18 23612 CFTR-Intron10-4731 + GCCUCAGCCUCCCGAGUAG 1923613 CFTR-Intron10-4732 + UGCCUCAGCCUCCCGAGUAG 20 23614CFTR-Intron10-4733 + CUGCCUCAGCCUCCCGAGUAG 21 23615 CFTR-Intron10-4734 +CCUGCCUCAGCCUCCCGAGUAG 22 23616 CFTR-Intron10-4735 +UCCUGCCUCAGCCUCCCGAGUAG 23 23617 CFTR-Intron10-4736 +CUCCUGCCUCAGCCUCCCGAGUAG 24 23618 CFTR-Intron10-4737 +CUGACUAAAACUGAGUAG 18 23619 CFTR-Intron10-4738 + ACUGACUAAAACUGAGUAG 1923620 CFTR-Intron10-4739 + UACUGACUAAAACUGAGUAG 20 23621CFTR-Intron10-4740 + CUACUGACUAAAACUGAGUAG 21 23622 CFTR-Intron10-4741 +ACUACUGACUAAAACUGAGUAG 22 23623 CFTR-Intron10-4742 +UACUACUGACUAAAACUGAGUAG 23 23624 CFTR-Intron10-4743 +AUACUACUGACUAAAACUGAGUAG 24 23625 CFTR-Intron10-4744 +UAGAAGGAAAGGAGGUAG 18 23626 CFTR-Intron10-4745 + GUAGAAGGAAAGGAGGUAG 1923627 CFTR-Intron10-4746 + AGUAGAAGGAAAGGAGGUAG 20 23628CFTR-Intron10-4747 + GAGUAGAAGGAAAGGAGGUAG 21 23629 CFTR-Intron10-4748 +UGAGUAGAAGGAAAGGAGGUAG 22 23630 CFTR-Intron10-4749 +CUGAGUAGAAGGAAAGGAGGUAG 23 23631 CFTR-Intron10-4750 +ACUGAGUAGAAGGAAAGGAGGUAG 24 23632 CFTR-Intron10-4751 +AGGGAGAAAUGUAUGUAG 18 23633 CFTR-Intron10-4752 + CAGGGAGAAAUGUAUGUAG 1923634 CFTR-Intron10-4753 + ACAGGGAGAAAUGUAUGUAG 20 23635CFTR-Intron10-4754 + AACAGGGAGAAAUGUAUGUAG 21 23636 CFTR-Intron10-4755 +UAACAGGGAGAAAUGUAUGUAG 22 23637 CFTR-Intron10-4756 +AUAACAGGGAGAAAUGUAUGUAG 23 23638 CFTR-Intron10-4757 +AAUAACAGGGAGAAAUGUAUGUAG 24 23639 CFTR-Intron10-4758 +AAAAAUACAAAAAAUUAG 18 23640 CFTR-Intron10-4759 + UAAAAAUACAAAAAAUUAG 1923641 CFTR-Intron10-4760 + CUAAAAAUACAAAAAAUUAG 20 23642CFTR-Intron10-4761 + ACUAAAAAUACAAAAAAUUAG 21 23643 CFTR-Intron10-4762 +UACUAAAAAUACAAAAAAUUAG 22 23644 CFTR-Intron10-4763 +CUACUAAAAAUACAAAAAAUUAG 23 23645 CFTR-Intron10-4764 +UCUACUAAAAAUACAAAAAAUUAG 24 23646 CFTR-Intron10-4765 +AAGCUUGUUUGGUUUUAG 18 23647 CFTR-Intron10-4766 + AAAGCUUGUUUGGUUUUAG 1923648 CFTR-Intron10-4767 + GAAAGCUUGUUUGGUUUUAG 20 23649CFTR-Intron10-4768 + GGAAAGCUUGUUUGGUUUUAG 21 23650 CFTR-Intron10-4769 +UGGAAAGCUUGUUUGGUUUUAG 22 23651 CFTR-Intron10-4770 +AUGGAAAGCUUGUUUGGUUUUAG 23 23652 CFTR-Intron10-4771 +CAUGGAAAGCUUGUUUGGUUUUAG 24 23653 CFTR-Intron10-4772 +AAUUUUUUGUAUUUUUAG 18 23654 CFTR-Intron10-4773 + UAAUUUUUUGUAUUUUUAG 1923655 CFTR-Intron10-4774 + CUAAUUUUUUGUAUUUUUAG 20 23656CFTR-Intron10-4775 + GCUAAUUUUUUGUAUUUUUAG 21 23657 CFTR-Intron10-4776 +GGCUAAUUUUUUGUAUUUUUAG 22 23658 CFTR-Intron10-4777 +UGGCUAAUUUUUUGUAUUUUUAG 23 23659 CFTR-Intron10-4778 +CUGGCUAAUUUUUUGUAUUUUUAG 24 23660 CFTR-Intron10-4779 +ACCAUCCCGGCUAAAACG 18 23661 CFTR-Intron10-4780 + GACCAUCCCGGCUAAAACG 1923662 CFTR-Intron10-4781 + AGACCAUCCCGGCUAAAACG 20 23663CFTR-Intron10-4782 + GAGACCAUCCCGGCUAAAACG 21 23664 CFTR-Intron10-4783 +CGAGACCAUCCCGGCUAAAACG 22 23665 CFTR-Intron10-4784 +UCGAGACCAUCCCGGCUAAAACG 23 23666 CFTR-Intron10-4785 +AUCGAGACCAUCCCGGCUAAAACG 24 23667 CFTR-Intron10-4786 +AAAAACAACAAAAAAGCG 18 23668 CFTR-Intron10-4787 + GAAAAACAACAAAAAAGCG 1923669 CFTR-Intron10-4788 + AGAAAAACAACAAAAAAGCG 20 23670CFTR-Intron10-4789 + UAGAAAAACAACAAAAAAGCG 21 23671 CFTR-Intron10-4790 +CUAGAAAAACAACAAAAAAGCG 22 23672 CFTR-Intron10-4791 +ACUAGAAAAACAACAAAAAAGCG 23 23673 CFTR-Intron10-4792 +AACUAGAAAAACAACAAAAAAGCG 24 23674 CFTR-Intron10-4793 +GCAAAGAGUGCAUAAAGG 18 23675 CFTR-Intron10-4794 + AGCAAAGAGUGCAUAAAGG 1923676 CFTR-Intron10-4795 + AAGCAAAGAGUGCAUAAAGG 20 23677CFTR-Intron10-4796 + AAAGCAAAGAGUGCAUAAAGG 21 23678 CFTR-Intron10-4797 +UAAAGCAAAGAGUGCAUAAAGG 22 23679 CFTR-Intron10-4798 +CUAAAGCAAAGAGUGCAUAAAGG 23 23680 CFTR-Intron10-4799 +CCUAAAGCAAAGAGUGCAUAAAGG 24 23681 CFTR-Intron10-4800 +UAUAAGAAAUGAAACAGG 18 23682 CFTR-Intron10-4801 + AUAUAAGAAAUGAAACAGG 1923683 CFTR-Intron10-4802 + GAUAUAAGAAAUGAAACAGG 20 23684CFTR-Intron10-4803 + CGAUAUAAGAAAUGAAACAGG 21 23685 CFTR-Intron10-4804 +ACGAUAUAAGAAAUGAAACAGG 22 23686 CFTR-Intron10-4805 +UACGAUAUAAGAAAUGAAACAGG 23 23687 CFTR-Intron10-4806 +AUACGAUAUAAGAAAUGAAACAGG 24 23688 CFTR-Intron10-4807 +CCUAUAAGGAAUAACAGG 18 23689 CFTR-Intron10-4808 + ACCUAUAAGGAAUAACAGG 1923690 CFTR-Intron10-4809 + AACCUAUAAGGAAUAACAGG 20 23691CFTR-Intron10-4810 + GAACCUAUAAGGAAUAACAGG 21 23692 CFTR-Intron10-4811 +AGAACCUAUAAGGAAUAACAGG 22 23693 CFTR-Intron10-4812 +CAGAACCUAUAAGGAAUAACAGG 23 23694 CFTR-Intron10-4813 +ACAGAACCUAUAAGGAAUAACAGG 24 23695 CFTR-Intron10-4814 +AGUAGAAACCUAAUCAGG 18 23696 CFTR-Intron10-4815 + UAGUAGAAACCUAAUCAGG 1923697 CFTR-Intron10-4816 + UUAGUAGAAACCUAAUCAGG 20 23698CFTR-Intron10-4817 + UUUAGUAGAAACCUAAUCAGG 21 23699 CFTR-Intron10-4818 +UUUUAGUAGAAACCUAAUCAGG 22 23700 CFTR-Intron10-4819 +GUUUUAGUAGAAACCUAAUCAGG 23 23701 CFTR-Intron10-4820 +GGUUUUAGUAGAAACCUAAUCAGG 24 23702 CFTR-Intron10-4821 +GAAAGGAGGUAGCAGAGG 18 23703 CFTR-Intron10-4822 + GGAAAGGAGGUAGCAGAGG 1923704 CFTR-Intron10-4823 + AGGAAAGGAGGUAGCAGAGG 20 23705CFTR-Intron10-4824 + AAGGAAAGGAGGUAGCAGAGG 21 23706 CFTR-Intron10-4825 +GAAGGAAAGGAGGUAGCAGAGG 22 23707 CFTR-Intron10-4826 +AGAAGGAAAGGAGGUAGCAGAGG 23 23708 CFTR-Intron10-4827 +UAGAAGGAAAGGAGGUAGCAGAGG 24 23709 CFTR-Intron10-4828 +GUUACAUAAAAAGAGAGG 18 23710 CFTR-Intron10-4829 + UGUUACAUAAAAAGAGAGG 1923711 CFTR-Intron10-469 + UUGUUACAUAAAAAGAGAGG 20 19355CFTR-Intron10-4830 + AUUGUUACAUAAAAAGAGAGG 21 23712 CFTR-Intron10-4831 +UAUUGUUACAUAAAAAGAGAGG 22 23713 CFTR-Intron10-4832 +AUAUUGUUACAUAAAAAGAGAGG 23 23714 CFTR-Intron10-4833 +CAUAUUGUUACAUAAAAAGAGAGG 24 23715 CFTR-Intron10-4834 +UGGCGUGAACCCGGGAGG 18 23716 CFTR-Intron10-4835 + AUGGCGUGAACCCGGGAGG 1923717 CFTR-Intron10-1287 + AAUGGCGUGAACCCGGGAGG 20 20172CFTR-Intron10-4836 + GAAUGGCGUGAACCCGGGAGG 21 23718 CFTR-Intron10-4837 +AGAAUGGCGUGAACCCGGGAGG 22 23719 CFTR-Intron10-4838 +GAGAAUGGCGUGAACCCGGGAGG 23 23720 CFTR-Intron10-4839 +GGAGAAUGGCGUGAACCCGGGAGG 24 23721 CFTR-Intron10-4840 +UUGCUUGAGCCCGGGAGG 18 23722 CFTR-Intron10-4841 + AUUGCUUGAGCCCGGGAGG 1923723 CFTR-Intron10-4842 + AAUUGCUUGAGCCCGGGAGG 20 23724CFTR-Intron10-4843 + GAAUUGCUUGAGCCCGGGAGG 21 23725 CFTR-Intron10-4844 +AGAAUUGCUUGAGCCCGGGAGG 22 23726 CFTR-Intron10-4845 +GAGAAUUGCUUGAGCCCGGGAGG 23 23727 CFTR-Intron10-4846 +GGAGAAUUGCUUGAGCCCGGGAGG 24 23728 CFTR-Intron10-4847 +UCCCAGCUACUUGGGAGG 18 23729 CFTR-Intron10-4848 + GUCCCAGCUACUUGGGAGG 1923730 CFTR-Intron10-4849 + AGUCCCAGCUACUUGGGAGG 20 23731CFTR-Intron10-4850 + UAGUCCCAGCUACUUGGGAGG 21 23732 CFTR-Intron10-4851 +GUAGUCCCAGCUACUUGGGAGG 22 23733 CFTR-Intron10-4852 +UGUAGUCCCAGCUACUUGGGAGG 23 23734 CFTR-Intron10-4853 +CUGUAGUCCCAGCUACUUGGGAGG 24 23735 CFTR-Intron10-4854 +UCCCAACACUUUGGGAGG 18 23736 CFTR-Intron10-4855 + AUCCCAACACUUUGGGAGG 1923737 CFTR-Intron10-4856 + AAUCCCAACACUUUGGGAGG 20 23738CFTR-Intron10-4857 + UAAUCCCAACACUUUGGGAGG 21 23739 CFTR-Intron10-4858 +GUAAUCCCAACACUUUGGGAGG 22 23740 CFTR-Intron10-4859 +UGUAAUCCCAACACUUUGGGAGG 23 23741 CFTR-Intron10-4860 +CUGUAAUCCCAACACUUUGGGAGG 24 23742 CFTR-Intron10-4861 +ACCCAGCACUUUGGGAGG 18 23743 CFTR-Intron10-4862 + AACCCAGCACUUUGGGAGG 1923744 CFTR-Intron10-4863 + AAACCCAGCACUUUGGGAGG 20 23745CFTR-Intron10-4864 + UAAACCCAGCACUUUGGGAGG 21 23746 CFTR-Intron10-4865 +AUAAACCCAGCACUUUGGGAGG 22 23747 CFTR-Intron10-4866 +UAUAAACCCAGCACUUUGGGAGG 23 23748 CFTR-Intron10-4867 +CUAUAAACCCAGCACUUUGGGAGG 24 23749 CFTR-Intron10-4868 +UCCCAGCACUUUGGGAGG 18 23750 CFTR-Intron10-4869 + AUCCCAGCACUUUGGGAGG 1923751 CFTR-Intron10-4870 + AAUCCCAGCACUUUGGGAGG 20 23752CFTR-Intron10-4871 + UAAUCCCAGCACUUUGGGAGG 21 23753 CFTR-Intron10-4872 +GUAAUCCCAGCACUUUGGGAGG 22 23754 CFTR-Intron10-4873 +UGUAAUCCCAGCACUUUGGGAGG 23 23755 CFTR-Intron10-4874 +CUGUAAUCCCAGCACUUUGGGAGG 24 23756 CFTR-Intron10-4875 +UUCUCACAGUUCUGGAGG 18 23757 CFTR-Intron10-4876 + UUUCUCACAGUUCUGGAGG 1923758 CFTR-Intron10-4877 + AUUUCUCACAGUUCUGGAGG 20 23759CFTR-Intron10-4878 + UAUUUCUCACAGUUCUGGAGG 21 23760 CFTR-Intron10-4879 +UUAUUUCUCACAGUUCUGGAGG 22 23761 CFTR-Intron10-4880 +UUUAUUUCUCACAGUUCUGGAGG 23 23762 CFTR-Intron10-4881 +AUUUAUUUCUCACAGUUCUGGAGG 24 23763 CFTR-Intron10-4882 +CAGCUACUUGGGAGGCUGAGG 21 23764 CFTR-Intron10-4883 +CCAGCUACUUGGGAGGCUGAGG 22 23765 CFTR-Intron10-4884 +CCCAGCUACUUGGGAGGCUGAGG 23 23766 CFTR-Intron10-4885 +UCCCAGCUACUUGGGAGGCUGAGG 24 23767 CFTR-Intron10-4886 +CUACUUGGGAGGGUGAGG 18 23768 CFTR-Intron10-4887 + GCUACUUGGGAGGGUGAGG 1923769 CFTR-Intron10-4888 + AGCUACUUGGGAGGGUGAGG 20 23770CFTR-Intron10-4889 + CAGCUACUUGGGAGGGUGAGG 21 23771 CFTR-Intron10-4890 +CCAGCUACUUGGGAGGGUGAGG 22 23772 CFTR-Intron10-4891 +CCCAGCUACUUGGGAGGGUGAGG 23 23773 CFTR-Intron10-4892 +UCCCAGCUACUUGGGAGGGUGAGG 24 23774 CFTR-Intron10-4893 +GGUUAAGUUGUUCUUAGG 18 23775 CFTR-Intron10-4894 + AGGUUAAGUUGUUCUUAGG 1923776 CFTR-Intron10-4895 + CAGGUUAAGUUGUUCUUAGG 20 23777CFTR-Intron10-4896 + CCAGGUUAAGUUGUUCUUAGG 21 23778 CFTR-Intron10-4897 +GCCAGGUUAAGUUGUUCUUAGG 22 23779 CFTR-Intron10-4898 +UGCCAGGUUAAGUUGUUCUUAGG 23 23780 CFTR-Intron10-4899 +AUGCCAGGUUAAGUUGUUCUUAGG 24 23781 CFTR-Intron10-4900 +CUCACAUGGCAGAAAGGG 18 23782 CFTR-Intron10-4901 + UCUCACAUGGCAGAAAGGG 1923783 CFTR-Intron10-4902 + UUCUCACAUGGCAGAAAGGG 20 23784CFTR-Intron10-4903 + GUUCUCACAUGGCAGAAAGGG 21 23785 CFTR-Intron10-4904 +UGUUCUCACAUGGCAGAAAGGG 22 23786 CFTR-Intron10-4905 +GUGUUCUCACAUGGCAGAAAGGG 23 23787 CFTR-Intron10-4906 +UGUGUUCUCACAUGGCAGAAAGGG 24 23788 CFTR-Intron10-4907 +AACAUAUGAAUGGCAGGG 18 23789 CFTR-Intron10-4908 + CAACAUAUGAAUGGCAGGG 1923790 CFTR-Intron10-4909 + UCAACAUAUGAAUGGCAGGG 20 23791CFTR-Intron10-4910 + UUCAACAUAUGAAUGGCAGGG 21 23792 CFTR-Intron10-4911 +UUUCAACAUAUGAAUGGCAGGG 22 23793 CFTR-Intron10-4912 +AUUUCAACAUAUGAAUGGCAGGG 23 23794 CFTR-Intron10-4913 +GAUUUCAACAUAUGAAUGGCAGGG 24 23795 CFTR-Intron10-4914 +UUGGUACAAAUUUCAGGG 18 23796 CFTR-Intron10-4915 + AUUGGUACAAAUUUCAGGG 1923797 CFTR-Intron10-4916 + AAUUGGUACAAAUUUCAGGG 20 23798CFTR-Intron10-4917 + GAAUUGGUACAAAUUUCAGGG 21 23799 CFTR-Intron10-4918 +CGAAUUGGUACAAAUUUCAGGG 22 23800 CFTR-Intron10-4919 +ACGAAUUGGUACAAAUUUCAGGG 23 23801 CFTR-Intron10-4920 +UACGAAUUGGUACAAAUUUCAGGG 24 23802 CFTR-Intron10-4921 +AUUUCAACAUAUGAAUGG 18 23803 CFTR-Intron10-4922 + GAUUUCAACAUAUGAAUGG 1923804 CFTR-Intron10-4923 + GGAUUUCAACAUAUGAAUGG 20 23805CFTR-Intron10-4924 + AGGAUUUCAACAUAUGAAUGG 21 23806 CFTR-Intron10-4925 +UAGGAUUUCAACAUAUGAAUGG 22 23807 CFTR-Intron10-4926 +UUAGGAUUUCAACAUAUGAAUGG 23 23808 CFTR-Intron10-4927 +AUUAGGAUUUCAACAUAUGAAUGG 24 23809 CFTR-Intron10-4928 +UGCUGUGUUCUCACAUGG 18 23810 CFTR-Intron10-4929 + CUGCUGUGUUCUCACAUGG 1923811 CFTR-Intron10-4930 + CCUGCUGUGUUCUCACAUGG 20 23812CFTR-Intron10-4931 + UCCUGCUGUGUUCUCACAUGG 21 23813 CFTR-Intron10-4932 +UUCCUGCUGUGUUCUCACAUGG 22 23814 CFTR-Intron10-4933 +CUUCCUGCUGUGUUCUCACAUGG 23 23815 CFTR-Intron10-4934 +UCUUCCUGCUGUGUUCUCACAUGG 24 23816 CFTR-Intron10-4935 +AUUGGCUACCUUGGUUGG 18 23817 CFTR-Intron10-4936 + GAUUGGCUACCUUGGUUGG 1923818 CFTR-Intron10-4937 + GGAUUGGCUACCUUGGUUGG 20 23819CFTR-Intron10-4938 + UGGAUUGGCUACCUUGGUUGG 21 23820 CFTR-Intron10-4939 +CUGGAUUGGCUACCUUGGUUGG 22 23821 CFTR-Intron10-4940 +CCUGGAUUGGCUACCUUGGUUGG 23 23822 CFTR-Intron10-4941 +ACCUGGAUUGGCUACCUUGGUUGG 24 23823 CFTR-Intron10-4942 +UGGUUGGAUGAGGGAAUG 18 23824 CFTR-Intron10-4943 + UUGGUUGGAUGAGGGAAUG 1923825 CFTR-Intron10-4944 + CUUGGUUGGAUGAGGGAAUG 20 23826CFTR-Intron10-4945 + CCUUGGUUGGAUGAGGGAAUG 21 23827 CFTR-Intron10-4946 +ACCUUGGUUGGAUGAGGGAAUG 22 23828 CFTR-Intron10-4947 +UACCUUGGUUGGAUGAGGGAAUG 23 23829 CFTR-Intron10-4948 +CUACCUUGGUUGGAUGAGGGAAUG 24 23830 CFTR-Intron10-4949 +GAAAGCAGUGUUAUAAUG 18 23831 CFTR-Intron10-4950 + UGAAAGCAGUGUUAUAAUG 1923832 CFTR-Intron10-4951 + CUGAAAGCAGUGUUAUAAUG 20 23833CFTR-Intron10-4952 + CCUGAAAGCAGUGUUAUAAUG 21 23834 CFTR-Intron10-4953 +UCCUGAAAGCAGUGUUAUAAUG 22 23835 CFTR-Intron10-4954 +CUCCUGAAAGCAGUGUUAUAAUG 23 23836 CFTR-Intron10-4955 +GCUCCUGAAAGCAGUGUUAUAAUG 24 23837 CFTR-Intron10-4956 +GGCAUUGCACUAAACAUG 18 23838 CFTR-Intron10-4957 + UGGCAUUGCACUAAACAUG 1923839 CFTR-Intron10-4958 + AUGGCAUUGCACUAAACAUG 20 23840CFTR-Intron10-4959 + UAUGGCAUUGCACUAAACAUG 21 23841 CFTR-Intron10-4960 +UUAUGGCAUUGCACUAAACAUG 22 23842 CFTR-Intron10-4961 +UUUAUGGCAUUGCACUAAACAUG 23 23843 CFTR-Intron10-4962 +GUUUAUGGCAUUGCACUAAACAUG 24 23844 CFTR-Intron10-4963 +ACCAUCCUGGCCAACAUG 18 23845 CFTR-Intron10-4964 + UACCAUCCUGGCCAACAUG 1923846 CFTR-Intron10-4965 + AUACCAUCCUGGCCAACAUG 20 23847CFTR-Intron10-4966 + AAUACCAUCCUGGCCAACAUG 21 23848 CFTR-Intron10-4967 +CAAUACCAUCCUGGCCAACAUG 22 23849 CFTR-Intron10-4968 +UCAAUACCAUCCUGGCCAACAUG 23 23850 CFTR-Intron10-4969 +AUCAAUACCAUCCUGGCCAACAUG 24 23851 CFTR-Intron10-4970 +AAAAGAUAAGUGAAGAUG 18 23852 CFTR-Intron10-4971 + AAAAAGAUAAGUGAAGAUG 1923853 CFTR-Intron10-4972 + AAAAAAGAUAAGUGAAGAUG 20 23854CFTR-Intron10-4973 + GAAAAAAGAUAAGUGAAGAUG 21 23855 CFTR-Intron10-4974 +AGAAAAAAGAUAAGUGAAGAUG 22 23856 CFTR-Intron10-4975 +UAGAAAAAAGAUAAGUGAAGAUG 23 23857 CFTR-Intron10-4976 +GUAGAAAAAAGAUAAGUGAAGAUG 24 23858 CFTR-Intron10-4977 +GGCUACCUUGGUUGGAUG 18 23859 CFTR-Intron10-4978 + UGGCUACCUUGGUUGGAUG 1923860 CFTR-Intron10-481 + UUGGCUACCUUGGUUGGAUG 20 19367CFTR-Intron10-4979 + AUUGGCUACCUUGGUUGGAUG 21 23861 CFTR-Intron10-4980 +GAUUGGCUACCUUGGUUGGAUG 22 23862 CFTR-Intron10-4981 +GGAUUGGCUACCUUGGUUGGAUG 23 23863 CFTR-Intron10-4982 +UGGAUUGGCUACCUUGGUUGGAUG 24 23864 CFTR-Intron10-4983 +UUCUUAGGGUGGGAUAUG 18 23865 CFTR-Intron10-4984 + GUUCUUAGGGUGGGAUAUG 1923866 CFTR-Intron10-4985 + UGUUCUUAGGGUGGGAUAUG 20 23867CFTR-Intron10-4986 + UUGUUCUUAGGGUGGGAUAUG 21 23868 CFTR-Intron10-4987 +GUUGUUCUUAGGGUGGGAUAUG 22 23869 CFTR-Intron10-4988 +AGUUGUUCUUAGGGUGGGAUAUG 23 23870 CFTR-Intron10-4989 +AAGUUGUUCUUAGGGUGGGAUAUG 24 23871 CFTR-Intron10-4990 +UAAAAGCUGUUUCGUAUG 18 23872 CFTR-Intron10-4991 + UUAAAAGCUGUUUCGUAUG 1923873 CFTR-Intron10-4992 + UUUAAAAGCUGUUUCGUAUG 20 23874CFTR-Intron10-4993 + UUUUAAAAGCUGUUUCGUAUG 21 23875 CFTR-Intron10-4994 +GUUUUAAAAGCUGUUUCGUAUG 22 23876 CFTR-Intron10-4995 +UGUUUUAAAAGCUGUUUCGUAUG 23 23877 CFTR-Intron10-4996 +UUGUUUUAAAAGCUGUUUCGUAUG 24 23878 CFTR-Intron10-4997 +UAUGUAGGAAAACAACUG 18 23879 CFTR-Intron10-4998 + GUAUGUAGGAAAACAACUG 1923880 CFTR-Intron10-4999 + CGUAUGUAGGAAAACAACUG 20 23881CFTR-Intron10-5000 + UCGUAUGUAGGAAAACAACUG 21 23882 CFTR-Intron10-5001 +UUCGUAUGUAGGAAAACAACUG 22 23883 CFTR-Intron10-5002 +UUUCGUAUGUAGGAAAACAACUG 23 23884 CFTR-Intron10-5003 +GUUUCGUAUGUAGGAAAACAACUG 24 23885 CFTR-Intron10-5004 +GAAACUCCCCACACACUG 18 23886 CFTR-Intron10-5005 + UGAAACUCCCCACACACUG 1923887 CFTR-Intron10-5006 + CUGAAACUCCCCACACACUG 20 23888CFTR-Intron10-5007 + ACUGAAACUCCCCACACACUG 21 23889 CFTR-Intron10-5008 +GACUGAAACUCCCCACACACUG 22 23890 CFTR-Intron10-5009 +GGACUGAAACUCCCCACACACUG 23 23891 CFTR-Intron10-5010 +AGGACUGAAACUCCCCACACACUG 24 23892 CFTR-Intron10-5011 +GCAAUAUGCAAUUUACUG 18 23893 CFTR-Intron10-5012 + UGCAAUAUGCAAUUUACUG 1923894 CFTR-Intron10-5013 + CUGCAAUAUGCAAUUUACUG 20 23895CFTR-Intron10-5014 + ACUGCAAUAUGCAAUUUACUG 21 23896 CFTR-Intron10-5015 +UACUGCAAUAUGCAAUUUACUG 22 23897 CFTR-Intron10-5016 +UUACUGCAAUAUGCAAUUUACUG 23 23898 CFTR-Intron10-5017 +UUUACUGCAAUAUGCAAUUUACUG 24 23899 CFTR-Intron10-5018 +CAUCUGUUAGUAAUGCUG 18 23900 CFTR-Intron10-5019 + UCAUCUGUUAGUAAUGCUG 1923901 CFTR-Intron10-485 + AUCAUCUGUUAGUAAUGCUG 20 19371CFTR-Intron10-5020 + UAUCAUCUGUUAGUAAUGCUG 21 23902 CFTR-Intron10-5021 +AUAUCAUCUGUUAGUAAUGCUG 22 23903 CFTR-Intron10-5022 +AAUAUCAUCUGUUAGUAAUGCUG 23 23904 CFTR-Intron10-5023 +UAAUAUCAUCUGUUAGUAAUGCUG 24 23905 CFTR-Intron10-5024 +AAUUAGCCGGGCGUAGUG 18 23906 CFTR-Intron10-5025 + AAAUUAGCCGGGCGUAGUG 1923907 CFTR-Intron10-5026 + AAAAUUAGCCGGGCGUAGUG 20 23908CFTR-Intron10-5027 + AAAAAUUAGCCGGGCGUAGUG 21 23909 CFTR-Intron10-5028 +AAAAAAUUAGCCGGGCGUAGUG 22 23910 CFTR-Intron10-5029 +CAAAAAAUUAGCCGGGCGUAGUG 23 23911 CFTR-Intron10-5030 +ACAAAAAAUUAGCCGGGCGUAGUG 24 23912 CFTR-Intron10-5031 +UCUGUUAGUAAUGCUGUG 18 23913 CFTR-Intron10-5032 + AUCUGUUAGUAAUGCUGUG 1923914 CFTR-Intron10-490 + CAUCUGUUAGUAAUGCUGUG 20 19376CFTR-Intron10-5033 + UCAUCUGUUAGUAAUGCUGUG 21 23915 CFTR-Intron10-5034 +AUCAUCUGUUAGUAAUGCUGUG 22 23916 CFTR-Intron10-5035 +UAUCAUCUGUUAGUAAUGCUGUG 23 23917 CFTR-Intron10-5036 +AUAUCAUCUGUUAGUAAUGCUGUG 24 23918 CFTR-Intron10-5037 +AUUCAAAAAAUAUUUGUG 18 23919 CFTR-Intron10-5038 + UAUUCAAAAAAUAUUUGUG 1923920 CFTR-Intron10-5039 + CUAUUCAAAAAAUAUUUGUG 20 23921CFTR-Intron10-5040 + UCUAUUCAAAAAAUAUUUGUG 21 23922 CFTR-Intron10-5041 +AUCUAUUCAAAAAAUAUUUGUG 22 23923 CFTR-Intron10-5042 +AAUCUAUUCAAAAAAUAUUUGUG 23 23924 CFTR-Intron10-5043 +UAAUCUAUUCAAAAAAUAUUUGUG 24 23925 CFTR-Intron10-5044 +CUAUUCAAAAAAUAUUUG 18 23926 CFTR-Intron10-5045 + UCUAUUCAAAAAAUAUUUG 1923927 CFTR-Intron10-1323 + AUCUAUUCAAAAAAUAUUUG 20 20208CFTR-Intron10-5046 + AAUCUAUUCAAAAAAUAUUUG 21 23928 CFTR-Intron10-5047 +UAAUCUAUUCAAAAAAUAUUUG 22 23929 CFTR-Intron10-5048 +CUAAUCUAUUCAAAAAAUAUUUG 23 23930 CFTR-Intron10-5049 +GCUAAUCUAUUCAAAAAAUAUUUG 24 23931 CFTR-Intron10-5050 +CUUAUAUUUUUAUUUUUG 18 23932 CFTR-Intron10-5051 + ACUUAUAUUUUUAUUUUUG 1923933 CFTR-Intron10-5052 + CACUUAUAUUUUUAUUUUUG 20 23934CFTR-Intron10-5053 + CCACUUAUAUUUUUAUUUUUG 21 23935 CFTR-Intron10-5054 +GCCACUUAUAUUUUUAUUUUUG 22 23936 CFTR-Intron10-5055 +GGCCACUUAUAUUUUUAUUUUUG 23 23937 CFTR-Intron10-5056 +AGGCCACUUAUAUUUUUAUUUUUG 24 23938 CFTR-Intron10-5057 +UUUUGUUUGUGUUUUUUG 18 23939 CFTR-Intron10-5058 + CUUUUGUUUGUGUUUUUUG 1923940 CFTR-Intron10-5059 + UCUUUUGUUUGUGUUUUUUG 20 23941CFTR-Intron10-5060 + UUCUUUUGUUUGUGUUUUUUG 21 23942 CFTR-Intron10-5061 +UUUCUUUUGUUUGUGUUUUUUG 22 23943 CFTR-Intron10-5062 +UUUUCUUUUGUUUGUGUUUUUUG 23 23944 CFTR-Intron10-5063 +AUUUUCUUUUGUUUGUGUUUUUUG 24 23945 CFTR-Intron10-5064 +CUAAAAUGACAAUCAAAU 18 23946 CFTR-Intron10-5065 + GCUAAAAUGACAAUCAAAU 1923947 CFTR-Intron10-498 + AGCUAAAAUGACAAUCAAAU 20 19384CFTR-Intron10-5066 + CAGCUAAAAUGACAAUCAAAU 21 23948 CFTR-Intron10-5067 +ACAGCUAAAAUGACAAUCAAAU 22 23949 CFTR-Intron10-5068 +CACAGCUAAAAUGACAAUCAAAU 23 23950 CFTR-Intron10-5069 +CCACAGCUAAAAUGACAAUCAAAU 24 23951 CFTR-Intron10-5070 +AACAAUACAAAGAUAAAU 18 23952 CFTR-Intron10-5071 + UAACAAUACAAAGAUAAAU 1923953 CFTR-Intron10-5072 + UUAACAAUACAAAGAUAAAU 20 23954CFTR-Intron10-5073 + UUUAACAAUACAAAGAUAAAU 21 23955 CFTR-Intron10-5074 +AUUUAACAAUACAAAGAUAAAU 22 23956 CFTR-Intron10-5075 +GAUUUAACAAUACAAAGAUAAAU 23 23957 CFTR-Intron10-5076 +AGAUUUAACAAUACAAAGAUAAAU 24 23958 CFTR-Intron10-5077 +GUUAUAUGUCCUGACAAU 18 23959 CFTR-Intron10-5078 + UGUUAUAUGUCCUGACAAU 1923960 CFTR-Intron10-5079 + AUGUUAUAUGUCCUGACAAU 20 23961CFTR-Intron10-5080 + UAUGUUAUAUGUCCUGACAAU 21 23962 CFTR-Intron10-5081 +AUAUGUUAUAUGUCCUGACAAU 22 23963 CFTR-Intron10-5082 +AAUAUGUUAUAUGUCCUGACAAU 23 23964 CFTR-Intron10-5083 +AAAUAUGUUAUAUGUCCUGACAAU 24 23965 CFTR-Intron10-5084 +GUGCUAUUUAAACAGAAU 18 23966 CFTR-Intron10-5085 + AGUGCUAUUUAAACAGAAU 1923967 CFTR-Intron10-5086 + CAGUGCUAUUUAAACAGAAU 20 23968CFTR-Intron10-5087 + CCAGUGCUAUUUAAACAGAAU 21 23969 CFTR-Intron10-5088 +UCCAGUGCUAUUUAAACAGAAU 22 23970 CFTR-Intron10-5089 +CUCCAGUGCUAUUUAAACAGAAU 23 23971 CFTR-Intron10-5090 +ACUCCAGUGCUAUUUAAACAGAAU 24 23972 CFTR-Intron10-5091 +GUCCUCUGUGCUUUGAAU 18 23973 CFTR-Intron10-5092 + AGUCCUCUGUGCUUUGAAU 1923974 CFTR-Intron10-5093 + AAGUCCUCUGUGCUUUGAAU 20 23975CFTR-Intron10-5094 + CAAGUCCUCUGUGCUUUGAAU 21 23976 CFTR-Intron10-5095 +GCAAGUCCUCUGUGCUUUGAAU 22 23977 CFTR-Intron10-5096 +UGCAAGUCCUCUGUGCUUUGAAU 23 23978 CFTR-Intron10-5097 +GUGCAAGUCCUCUGUGCUUUGAAU 24 23979 CFTR-Intron10-5098 +CCAAGCAGUAGAAAUAAU 18 23980 CFTR-Intron10-5099 + UCCAAGCAGUAGAAAUAAU 1923981 CFTR-Intron10-5100 + UUCCAAGCAGUAGAAAUAAU 20 23982CFTR-Intron10-5101 + AUUCCAAGCAGUAGAAAUAAU 21 23983 CFTR-Intron10-5102 +AAUUCCAAGCAGUAGAAAUAAU 22 23984 CFTR-Intron10-5103 +AAAUUCCAAGCAGUAGAAAUAAU 23 23985 CFTR-Intron10-5104 +AAAAUUCCAAGCAGUAGAAAUAAU 24 23986 CFTR-Intron10-5105 +UUUUAGUAGAAACCUAAU 18 23987 CFTR-Intron10-5106 + GUUUUAGUAGAAACCUAAU 1923988 CFTR-Intron10-5107 + GGUUUUAGUAGAAACCUAAU 20 23989CFTR-Intron10-5108 + UGGUUUUAGUAGAAACCUAAU 21 23990 CFTR-Intron10-5109 +UUGGUUUUAGUAGAAACCUAAU 22 23991 CFTR-Intron10-5110 +UUUGGUUUUAGUAGAAACCUAAU 23 23992 CFTR-Intron10-5111 +GUUUGGUUUUAGUAGAAACCUAAU 24 23993 CFTR-Intron10-5112 +GCCUAGAUGAUUAUUAAU 18 23994 CFTR-Intron10-5113 + AGCCUAGAUGAUUAUUAAU 1923995 CFTR-Intron10-503 + CAGCCUAGAUGAUUAUUAAU 20 19389CFTR-Intron10-5114 + GCAGCCUAGAUGAUUAUUAAU 21 23996 CFTR-Intron10-5115 +UGCAGCCUAGAUGAUUAUUAAU 22 23997 CFTR-Intron10-5116 +UUGCAGCCUAGAUGAUUAUUAAU 23 23998 CFTR-Intron10-5117 +UUUGCAGCCUAGAUGAUUAUUAAU 24 23999 CFTR-Intron10-5118 +UUACAAUUCUUAUUACAU 18 24000 CFTR-Intron10-5119 + UUUACAAUUCUUAUUACAU 1924001 CFTR-Intron10-1333 + UUUUACAAUUCUUAUUACAU 20 20218CFTR-Intron10-5120 + AUUUUACAAUUCUUAUUACAU 21 24002 CFTR-Intron10-5121 +AAUUUUACAAUUCUUAUUACAU 22 24003 CFTR-Intron10-5122 +AAAUUUUACAAUUCUUAUUACAU 23 24004 CFTR-Intron10-5123 +UAAAUUUUACAAUUCUUAUUACAU 24 24005 CFTR-Intron10-5124 +AGGUAUAGUCAGUCCCAU 18 24006 CFTR-Intron10-5125 + CAGGUAUAGUCAGUCCCAU 1924007 CFTR-Intron10-5126 + ACAGGUAUAGUCAGUCCCAU 20 24008CFTR-Intron10-5127 + GACAGGUAUAGUCAGUCCCAU 21 24009 CFTR-Intron10-5128 +AGACAGGUAUAGUCAGUCCCAU 22 24010 CFTR-Intron10-5129 +CAGACAGGUAUAGUCAGUCCCAU 23 24011 CFTR-Intron10-5130 +CCAGACAGGUAUAGUCAGUCCCAU 24 24012 CFTR-Intron10-5131 +AACAUAGAGAAAACUCAU 18 24013 CFTR-Intron10-5132 + AAACAUAGAGAAAACUCAU 1924014 CFTR-Intron10-5133 + AAAACAUAGAGAAAACUCAU 20 24015CFTR-Intron10-5134 + UAAAACAUAGAGAAAACUCAU 21 24016 CFTR-Intron10-5135 +AUAAAACAUAGAGAAAACUCAU 22 24017 CFTR-Intron10-5136 +AAUAAAACAUAGAGAAAACUCAU 23 24018 CFTR-Intron10-5137 +AAAUAAAACAUAGAGAAAACUCAU 24 24019 CFTR-Intron10-5138 +CUAUUUUCCCUAUAAGAU 18 24020 CFTR-Intron10-5139 + ACUAUUUUCCCUAUAAGAU 1924021 CFTR-Intron10-5140 + UACUAUUUUCCCUAUAAGAU 20 24022CFTR-Intron10-5141 + AUACUAUUUUCCCUAUAAGAU 21 24023 CFTR-Intron10-5142 +CAUACUAUUUUCCCUAUAAGAU 22 24024 CFTR-Intron10-5143 +ACAUACUAUUUUCCCUAUAAGAU 23 24025 CFTR-Intron10-5144 +GACAUACUAUUUUCCCUAUAAGAU 24 24026 CFTR-Intron10-5145 +AAUGGAAAAUGGACAGAU 18 24027 CFTR-Intron10-5146 + GAAUGGAAAAUGGACAGAU 1924028 CFTR-Intron10-5147 + AGAAUGGAAAAUGGACAGAU 20 24029CFTR-Intron10-5148 + GAGAAUGGAAAAUGGACAGAU 21 24030 CFTR-Intron10-5149 +GGAGAAUGGAAAAUGGACAGAU 22 24031 CFTR-Intron10-5150 +AGGAGAAUGGAAAAUGGACAGAU 23 24032 CFTR-Intron10-5151 +CAGGAGAAUGGAAAAUGGACAGAU 24 24033 CFTR-Intron10-5152 +UUGUUCUUAGGGUGGGAU 18 24034 CFTR-Intron10-5153 + GUUGUUCUUAGGGUGGGAU 1924035 CFTR-Intron10-5154 + AGUUGUUCUUAGGGUGGGAU 20 24036CFTR-Intron10-5155 + AAGUUGUUCUUAGGGUGGGAU 21 24037 CFTR-Intron10-5156 +UAAGUUGUUCUUAGGGUGGGAU 22 24038 CFTR-Intron10-5157 +UUAAGUUGUUCUUAGGGUGGGAU 23 24039 CFTR-Intron10-5158 +GUUAAGUUGUUCUUAGGGUGGGAU 24 24040 CFTR-Intron10-5159 +UGGCUACCUUGGUUGGAU 18 24041 CFTR-Intron10-5160 + UUGGCUACCUUGGUUGGAU 1924042 CFTR-Intron10-5161 + AUUGGCUACCUUGGUUGGAU 20 24043CFTR-Intron10-5162 + GAUUGGCUACCUUGGUUGGAU 21 24044 CFTR-Intron10-5163 +GGAUUGGCUACCUUGGUUGGAU 22 24045 CFTR-Intron10-5164 +UGGAUUGGCUACCUUGGUUGGAU 23 24046 CFTR-Intron10-5165 +CUGGAUUGGCUACCUUGGUUGGAU 24 24047 CFTR-Intron10-5166 +AAACAUGAUGAAAAAUAU 18 24048 CFTR-Intron10-5167 + UAAACAUGAUGAAAAAUAU 1924049 CFTR-Intron10-5168 + CUAAACAUGAUGAAAAAUAU 20 24050CFTR-Intron10-5169 + ACUAAACAUGAUGAAAAAUAU 21 24051 CFTR-Intron10-5170 +CACUAAACAUGAUGAAAAAUAU 22 24052 CFTR-Intron10-5171 +GCACUAAACAUGAUGAAAAAUAU 23 24053 CFTR-Intron10-5172 +UGCACUAAACAUGAUGAAAAAUAU 24 24054 CFTR-Intron10-5173 +UUUGUGUUAACAAAAUAU 18 24055 CFTR-Intron10-5174 + CUUUGUGUUAACAAAAUAU 1924056 CFTR-Intron10-506 + UCUUUGUGUUAACAAAAUAU 20 19392CFTR-Intron10-5175 + UUCUUUGUGUUAACAAAAUAU 21 24057 CFTR-Intron10-5176 +GUUCUUUGUGUUAACAAAAUAU 22 24058 CFTR-Intron10-5177 +UGUUCUUUGUGUUAACAAAAUAU 23 24059 CFTR-Intron10-5178 +UUGUUCUUUGUGUUAACAAAAUAU 24 24060 CFTR-Intron10-5179 +GUUGCAAAAAUACGAUAU 18 24061 CFTR-Intron10-5180 + AGUUGCAAAAAUACGAUAU 1924062 CFTR-Intron10-5181 + GAGUUGCAAAAAUACGAUAU 20 24063CFTR-Intron10-5182 + GGAGUUGCAAAAAUACGAUAU 21 24064 CFTR-Intron10-5183 +AGGAGUUGCAAAAAUACGAUAU 22 24065 CFTR-Intron10-5184 +AAGGAGUUGCAAAAAUACGAUAU 23 24066 CFTR-Intron10-5185 +AAAGGAGUUGCAAAAAUACGAUAU 24 24067 CFTR-Intron10-5186 +AAAAAUUACAGAACCUAU 18 24068 CFTR-Intron10-5187 + CAAAAAUUACAGAACCUAU 1924069 CFTR-Intron10-5188 + GCAAAAAUUACAGAACCUAU 20 24070CFTR-Intron10-5189 + AGCAAAAAUUACAGAACCUAU 21 24071 CFTR-Intron10-5190 +AAGCAAAAAUUACAGAACCUAU 22 24072 CFTR-Intron10-5191 +GAAGCAAAAAUUACAGAACCUAU 23 24073 CFTR-Intron10-5192 +UGAAGCAAAAAUUACAGAACCUAU 24 24074 CFTR-Intron10-5193 +AAAUGCUUGACCACUUAU 18 24075 CFTR-Intron10-5194 + CAAAUGCUUGACCACUUAU 1924076 CFTR-Intron10-508 + ACAAAUGCUUGACCACUUAU 20 19394CFTR-Intron10-5195 + CACAAAUGCUUGACCACUUAU 21 24077 CFTR-Intron10-5196 +ACACAAAUGCUUGACCACUUAU 22 24078 CFTR-Intron10-5197 +UACACAAAUGCUUGACCACUUAU 23 24079 CFTR-Intron10-5198 +GUACACAAAUGCUUGACCACUUAU 24 24080 CFTR-Intron10-5199 +AAAAAGCACUGAUUUUAU 18 24081 CFTR-Intron10-5200 + GAAAAAGCACUGAUUUUAU 1924082 CFTR-Intron10-5201 + CGAAAAAGCACUGAUUUUAU 20 24083CFTR-Intron10-5202 + UCGAAAAAGCACUGAUUUUAU 21 24084 CFTR-Intron10-5203 +CUCGAAAAAGCACUGAUUUUAU 22 24085 CFTR-Intron10-5204 +CCUCGAAAAAGCACUGAUUUUAU 23 24086 CFTR-Intron10-5205 +ACCUCGAAAAAGCACUGAUUUUAU 24 24087 CFTR-Intron10-5206 +ACAAAGAUUUAUAUAACU 18 24088 CFTR-Intron10-5207 + AACAAAGAUUUAUAUAACU 1924089 CFTR-Intron10-5208 + GAACAAAGAUUUAUAUAACU 20 24090CFTR-Intron10-5209 + UGAACAAAGAUUUAUAUAACU 21 24091 CFTR-Intron10-5210 +GUGAACAAAGAUUUAUAUAACU 22 24092 CFTR-Intron10-5211 +AGUGAACAAAGAUUUAUAUAACU 23 24093 CFTR-Intron10-5212 +CAGUGAACAAAGAUUUAUAUAACU 24 24094 CFTR-Intron10-5213 +GCCUGUAAUCCCAACACU 18 24095 CFTR-Intron10-5214 + UGCCUGUAAUCCCAACACU 1924096 CFTR-Intron10-5215 + AUGCCUGUAAUCCCAACACU 20 24097CFTR-Intron10-5216 + CAUGCCUGUAAUCCCAACACU 21 24098 CFTR-Intron10-5217 +UCAUGCCUGUAAUCCCAACACU 22 24099 CFTR-Intron10-5218 +CUCAUGCCUGUAAUCCCAACACU 23 24100 CFTR-Intron10-5219 +GCUCAUGCCUGUAAUCCCAACACU 24 24101 CFTR-Intron10-5220 +GCCUAUAAACCCAGCACU 18 24102 CFTR-Intron10-5221 + UGCCUAUAAACCCAGCACU 1924103 CFTR-Intron10-5222 + AUGCCUAUAAACCCAGCACU 20 24104CFTR-Intron10-5223 + CAUGCCUAUAAACCCAGCACU 21 24105 CFTR-Intron10-5224 +UCAUGCCUAUAAACCCAGCACU 22 24106 CFTR-Intron10-5225 +CUCAUGCCUAUAAACCCAGCACU 23 24107 CFTR-Intron10-5226 +GCUCAUGCCUAUAAACCCAGCACU 24 24108 CFTR-Intron10-5227 +GCCUGUAAUCCCAGCACU 18 24109 CFTR-Intron10-5228 + CGCCUGUAAUCCCAGCACU 1924110 CFTR-Intron10-5229 + ACGCCUGUAAUCCCAGCACU 20 24111CFTR-Intron10-5230 + CACGCCUGUAAUCCCAGCACU 21 24112 CFTR-Intron10-5231 +UCACGCCUGUAAUCCCAGCACU 22 24113 CFTR-Intron10-5232 +CUCACGCCUGUAAUCCCAGCACU 23 24114 CFTR-Intron10-5233 +GCUCACGCCUGUAAUCCCAGCACU 24 24115 CFTR-Intron10-5234 +UCCCGAGUAGCUGGGACU 18 24116 CFTR-Intron10-5235 + CUCCCGAGUAGCUGGGACU 1924117 CFTR-Intron10-5236 + CCUCCCGAGUAGCUGGGACU 20 24118CFTR-Intron10-5237 + GCCUCCCGAGUAGCUGGGACU 21 24119 CFTR-Intron10-5238 +AGCCUCCCGAGUAGCUGGGACU 22 24120 CFTR-Intron10-5239 +CAGCCUCCCGAGUAGCUGGGACU 23 24121 CFTR-Intron10-5240 +UCAGCCUCCCGAGUAGCUGGGACU 24 24122 CFTR-Intron10-5241 +CCUGUAGUCCCAGCUACU 18 17604 CFTR-Intron10-5242 + GCCUGUAGUCCCAGCUACU 1917605 CFTR-Intron10-1344 + CGCCUGUAGUCCCAGCUACU 20 20229CFTR-Intron10-5243 + GCGCCUGUAGUCCCAGCUACU 21 24123 CFTR-Intron10-5244 +GGCGCCUGUAGUCCCAGCUACU 22 24124 CFTR-Intron10-5245 +GGGCGCCUGUAGUCCCAGCUACU 23 24125 CFTR-Intron10-5246 +CGGGCGCCUGUAGUCCCAGCUACU 24 24126 CFTR-Intron10-1345 +UGCCUGUAGUCCCAGCUACU 20 17606 CFTR-Intron10-5247 +CGUGCCUGUAGUCCCAGCUACU 22 24127 CFTR-Intron10-5248 +GCGUGCCUGUAGUCCCAGCUACU 23 24128 CFTR-Intron10-5249 +UGCGUGCCUGUAGUCCCAGCUACU 24 24129 CFTR-Intron10-5250 +CUUGCUUCACCUGCUACU 18 24130 CFTR-Intron10-5251 + ACUUGCUUCACCUGCUACU 1924131 CFTR-Intron10-512 + CACUUGCUUCACCUGCUACU 20 19398CFTR-Intron10-5252 + GCACUUGCUUCACCUGCUACU 21 24132 CFTR-Intron10-5253 +UGCACUUGCUUCACCUGCUACU 22 24133 CFTR-Intron10-5254 +UUGCACUUGCUUCACCUGCUACU 23 24134 CFTR-Intron10-5255 +UUUGCACUUGCUUCACCUGCUACU 24 24135 CFTR-Intron10-5256 +AAUCUUAUAGAGAUUACU 18 24136 CFTR-Intron10-5257 + AAAUCUUAUAGAGAUUACU 1924137 CFTR-Intron10-513 + AAAAUCUUAUAGAGAUUACU 20 19399CFTR-Intron10-5258 + CAAAAUCUUAUAGAGAUUACU 21 24138 CFTR-Intron10-5259 +ACAAAAUCUUAUAGAGAUUACU 22 24139 CFTR-Intron10-5260 +AACAAAAUCUUAUAGAGAUUACU 23 24140 CFTR-Intron10-5261 +UAACAAAAUCUUAUAGAGAUUACU 24 24141 CFTR-Intron10-5262 +CCUGCAAUACCAUCACCU 18 24142 CFTR-Intron10-5263 + CCCUGCAAUACCAUCACCU 1924143 CFTR-Intron10-1346 + ACCCUGCAAUACCAUCACCU 20 20230CFTR-Intron10-5264 + CACCCUGCAAUACCAUCACCU 21 24144 CFTR-Intron10-5265 +CCACCCUGCAAUACCAUCACCU 22 24145 CFTR-Intron10-5266 +CCCACCCUGCAAUACCAUCACCU 23 24146 CFTR-Intron10-5267 +CCCCACCCUGCAAUACCAUCACCU 24 24147 CFTR-Intron10-5268 +AACUCAUAAGGGACCGCU 18 24148 CFTR-Intron10-5269 + AAACUCAUAAGGGACCGCU 1924149 CFTR-Intron10-518 + AAAACUCAUAAGGGACCGCU 20 19404CFTR-Intron10-5270 + GAAAACUCAUAAGGGACCGCU 21 24150 CFTR-Intron10-5271 +AGAAAACUCAUAAGGGACCGCU 22 24151 CFTR-Intron10-5272 +GAGAAAACUCAUAAGGGACCGCU 23 24152 CFTR-Intron10-5273 +AGAGAAAACUCAUAAGGGACCGCU 24 24153 CFTR-Intron10-5274 +CUCACAGUUCUGGAGGCU 18 24154 CFTR-Intron10-5275 + UCUCACAGUUCUGGAGGCU 1924155 CFTR-Intron10-1357 + UUCUCACAGUUCUGGAGGCU 20 20241CFTR-Intron10-5276 + UUUCUCACAGUUCUGGAGGCU 21 24156 CFTR-Intron10-5277 +AUUUCUCACAGUUCUGGAGGCU 22 24157 CFTR-Intron10-5278 +UAUUUCUCACAGUUCUGGAGGCU 23 24158 CFTR-Intron10-5279 +UUAUUUCUCACAGUUCUGGAGGCU 24 24159 CFTR-Intron10-5280 +UCAUCUGUUAGUAAUGCU 18 24160 CFTR-Intron10-5281 + AUCAUCUGUUAGUAAUGCU 1924161 CFTR-Intron10-5282 + UAUCAUCUGUUAGUAAUGCU 20 24162CFTR-Intron10-5283 + AUAUCAUCUGUUAGUAAUGCU 21 24163 CFTR-Intron10-5284 +AAUAUCAUCUGUUAGUAAUGCU 22 24164 CFTR-Intron10-5285 +UAAUAUCAUCUGUUAGUAAUGCU 23 24165 CFTR-Intron10-5286 +AUAAUAUCAUCUGUUAGUAAUGCU 24 24166 CFTR-Intron10-5287 +AGCAGAUUUGGGUCUGCU 18 24167 CFTR-Intron10-5288 + CAGCAGAUUUGGGUCUGCU 1924168 CFTR-Intron10-5289 + CCAGCAGAUUUGGGUCUGCU 20 24169CFTR-Intron10-5290 + GCCAGCAGAUUUGGGUCUGCU 21 24170 CFTR-Intron10-5291 +UGCCAGCAGAUUUGGGUCUGCU 22 24171 CFTR-Intron10-5292 +GUGCCAGCAGAUUUGGGUCUGCU 23 24172 CFTR-Intron10-5293 +GGUGCCAGCAGAUUUGGGUCUGCU 24 24173 CFTR-Intron10-5294 +AUAUAGAGAGAAACAUCU 18 24174 CFTR-Intron10-5295 + UAUAUAGAGAGAAACAUCU 1924175 CFTR-Intron10-5296 + AUAUAUAGAGAGAAACAUCU 20 24176CFTR-Intron10-5297 + UAUAUAUAGAGAGAAACAUCU 21 24177 CFTR-Intron10-5298 +AUAUAUAUAGAGAGAAACAUCU 22 24178 CFTR-Intron10-5299 +UAUAUAUAUAGAGAGAAACAUCU 23 24179 CFTR-Intron10-5300 +UUAUAUAUAUAGAGAGAAACAUCU 24 24180 CFTR-Intron10-5301 +AUAGAGAGAAACAUCUCU 18 24181 CFTR-Intron10-5302 + UAUAGAGAGAAACAUCUCU 1924182 CFTR-Intron10-1365 + AUAUAGAGAGAAACAUCUCU 20 20249CFTR-Intron10-5303 + UAUAUAGAGAGAAACAUCUCU 21 24183 CFTR-Intron10-5304 +AUAUAUAGAGAGAAACAUCUCU 22 24184 CFTR-Intron10-5305 +UAUAUAUAGAGAGAAACAUCUCU 23 24185 CFTR-Intron10-5306 +AUAUAUAUAGAGAGAAACAUCUCU 24 24186 CFTR-Intron10-5307 +AUUAAUUUUAAAAAUUCU 18 24187 CFTR-Intron10-5308 + AAUUAAUUUUAAAAAUUCU 1924188 CFTR-Intron10-5309 + GAAUUAAUUUUAAAAAUUCU 20 24189CFTR-Intron10-5310 + AGAAUUAAUUUUAAAAAUUCU 21 24190 CFTR-Intron10-5311 +CAGAAUUAAUUUUAAAAAUUCU 22 24191 CFTR-Intron10-5312 +GCAGAAUUAAUUUUAAAAAUUCU 23 24192 CFTR-Intron10-5313 +CGCAGAAUUAAUUUUAAAAAUUCU 24 24193 CFTR-Intron10-5314 +UAAUUUGAACAACAUUCU 18 24194 CFTR-Intron10-5315 + AUAAUUUGAACAACAUUCU 1924195 CFTR-Intron10-527 + AAUAAUUUGAACAACAUUCU 20 19413CFTR-Intron10-5316 + AAAUAAUUUGAACAACAUUCU 21 24196 CFTR-Intron10-5317 +GAAAUAAUUUGAACAACAUUCU 22 24197 CFTR-Intron10-5318 +AGAAAUAAUUUGAACAACAUUCU 23 24198 CFTR-Intron10-5319 +UAGAAAUAAUUUGAACAACAUUCU 24 24199 CFTR-Intron10-5320 +UUAGUAAACUCCGUUUCU 18 24200 CFTR-Intron10-5321 + GUUAGUAAACUCCGUUUCU 1924201 CFTR-Intron10-5322 + AGUUAGUAAACUCCGUUUCU 20 24202CFTR-Intron10-5323 + GAGUUAGUAAACUCCGUUUCU 21 24203 CFTR-Intron10-5324 +UGAGUUAGUAAACUCCGUUUCU 22 24204 CFTR-Intron10-5325 +UUGAGUUAGUAAACUCCGUUUCU 23 24205 CFTR-Intron10-5326 +AUUGAGUUAGUAAACUCCGUUUCU 24 24206 CFTR-Intron10-5327 +CCUGACAAUAAGAAAAGU 18 24207 CFTR-Intron10-5328 + UCCUGACAAUAAGAAAAGU 1924208 CFTR-Intron10-5329 + GUCCUGACAAUAAGAAAAGU 20 24209CFTR-Intron10-5330 + UGUCCUGACAAUAAGAAAAGU 21 24210 CFTR-Intron10-5331 +AUGUCCUGACAAUAAGAAAAGU 22 24211 CFTR-Intron10-5332 +UAUGUCCUGACAAUAAGAAAAGU 23 24212 CFTR-Intron10-5333 +AUAUGUCCUGACAAUAAGAAAAGU 24 24213 CFTR-Intron10-5334 +AGUGCUAGGAUUACAAGU 18 24214 CFTR-Intron10-5335 + AAGUGCUAGGAUUACAAGU 1924215 CFTR-Intron10-5336 + AAAGUGCUAGGAUUACAAGU 20 24216CFTR-Intron10-5337 + AAAAGUGCUAGGAUUACAAGU 21 24217 CFTR-Intron10-5338 +CAAAAGUGCUAGGAUUACAAGU 22 24218 CFTR-Intron10-5339 +CCAAAAGUGCUAGGAUUACAAGU 23 24219 CFTR-Intron10-5340 +UCCAAAAGUGCUAGGAUUACAAGU 24 24220 CFTR-Intron10-5341 +AGGAAAUGGGGUAUAAGU 18 24221 CFTR-Intron10-5342 + AAGGAAAUGGGGUAUAAGU 1924222 CFTR-Intron10-5343 + AAAGGAAAUGGGGUAUAAGU 20 24223CFTR-Intron10-5344 + CAAAGGAAAUGGGGUAUAAGU 21 24224 CFTR-Intron10-5345 +ACAAAGGAAAUGGGGUAUAAGU 22 24225 CFTR-Intron10-5346 +AACAAAGGAAAUGGGGUAUAAGU 23 24226 CFTR-Intron10-5347 +AAACAAAGGAAAUGGGGUAUAAGU 24 24227 CFTR-Intron10-5348 +ACAGAAAUAUUCAGCAGU 18 24228 CFTR-Intron10-5349 + GACAGAAAUAUUCAGCAGU 1924229 CFTR-Intron10-5350 + AGACAGAAAUAUUCAGCAGU 20 24230CFTR-Intron10-5351 + GAGACAGAAAUAUUCAGCAGU 21 24231 CFTR-Intron10-5352 +AGAGACAGAAAUAUUCAGCAGU 22 24232 CFTR-Intron10-5353 +GAGAGACAGAAAUAUUCAGCAGU 23 24233 CFTR-Intron10-5354 +GGAGAGACAGAAAUAUUCAGCAGU 24 24234 CFTR-Intron10-5355 +AAAGUUGUCCAAGAUAGU 18 24235 CFTR-Intron10-5356 + GAAAGUUGUCCAAGAUAGU 1924236 CFTR-Intron10-120 + GGAAAGUUGUCCAAGAUAGU 20 19006CFTR-Intron10-5357 + UGGAAAGUUGUCCAAGAUAGU 21 24237 CFTR-Intron10-5358 +AUGGAAAGUUGUCCAAGAUAGU 22 24238 CFTR-Intron10-5359 +UAUGGAAAGUUGUCCAAGAUAGU 23 24239 CFTR-Intron10-5360 +AUAUGGAAAGUUGUCCAAGAUAGU 24 24240 CFTR-Intron10-5361 +CUUUAUCAACAUGAAGGU 18 24241 CFTR-Intron10-5362 + CCUUUAUCAACAUGAAGGU 1924242 CFTR-Intron10-5363 + CCCUUUAUCAACAUGAAGGU 20 24243CFTR-Intron10-5364 + ACCCUUUAUCAACAUGAAGGU 21 24244 CFTR-Intron10-5365 +GACCCUUUAUCAACAUGAAGGU 22 24245 CFTR-Intron10-5366 +UGACCCUUUAUCAACAUGAAGGU 23 24246 CFTR-Intron10-5367 +UUGACCCUUUAUCAACAUGAAGGU 24 24247 CFTR-Intron10-5368 +UGAGGGUCUCUCUAAGGU 18 24248 CFTR-Intron10-5369 + GUGAGGGUCUCUCUAAGGU 1924249 CFTR-Intron10-5370 + GGUGAGGGUCUCUCUAAGGU 20 24250CFTR-Intron10-5371 + GGGUGAGGGUCUCUCUAAGGU 21 24251 CFTR-Intron10-5372 +GGGGUGAGGGUCUCUCUAAGGU 22 24252 CFTR-Intron10-5373 +AGGGGUGAGGGUCUCUCUAAGGU 23 24253 CFTR-Intron10-5374 +AAGGGGUGAGGGUCUCUCUAAGGU 24 24254 CFTR-Intron10-5375 +UUACAUAAAAAGAGAGGU 18 24255 CFTR-Intron10-5376 + GUUACAUAAAAAGAGAGGU 1924256 CFTR-Intron10-535 + UGUUACAUAAAAAGAGAGGU 20 19421CFTR-Intron10-5377 + UUGUUACAUAAAAAGAGAGGU 21 24257 CFTR-Intron10-5378 +AUUGUUACAUAAAAAGAGAGGU 22 24258 CFTR-Intron10-5379 +UAUUGUUACAUAAAAAGAGAGGU 23 24259 CFTR-Intron10-5380 +AUAUUGUUACAUAAAAAGAGAGGU 24 24260 CFTR-Intron10-5381 +GCGGGCGGAUCACGAGGU 18 24261 CFTR-Intron10-5382 + GGCGGGCGGAUCACGAGGU 1924262 CFTR-Intron10-5383 + AGGCGGGCGGAUCACGAGGU 20 24263CFTR-Intron10-5384 + GAGGCGGGCGGAUCACGAGGU 21 24264 CFTR-Intron10-5385 +CGAGGCGGGCGGAUCACGAGGU 22 24265 CFTR-Intron10-5386 +CCGAGGCGGGCGGAUCACGAGGU 23 24266 CFTR-Intron10-5387 +GCCGAGGCGGGCGGAUCACGAGGU 24 24267 CFTR-Intron10-5388 +UAUAUUCUUUUAUGUGGU 18 24268 CFTR-Intron10-5389 + AUAUAUUCUUUUAUGUGGU 1924269 CFTR-Intron10-5390 + AAUAUAUUCUUUUAUGUGGU 20 24270CFTR-Intron10-5391 + GAAUAUAUUCUUUUAUGUGGU 21 24271 CFTR-Intron10-5392 +CGAAUAUAUUCUUUUAUGUGGU 22 24272 CFTR-Intron10-5393 +ACGAAUAUAUUCUUUUAUGUGGU 23 24273 CFTR-Intron10-5394 +CACGAAUAUAUUCUUUUAUGUGGU 24 24274 CFTR-Intron10-5395 +AAAAGCUGUUUCGUAUGU 18 24275 CFTR-Intron10-5396 + UAAAAGCUGUUUCGUAUGU 1924276 CFTR-Intron10-539 + UUAAAAGCUGUUUCGUAUGU 20 19425CFTR-Intron10-5397 + UUUAAAAGCUGUUUCGUAUGU 21 24277 CFTR-Intron10-5398 +UUUUAAAAGCUGUUUCGUAUGU 22 24278 CFTR-Intron10-5399 +GUUUUAAAAGCUGUUUCGUAUGU 23 24279 CFTR-Intron10-5400 +UGUUUUAAAAGCUGUUUCGUAUGU 24 24280 CFTR-Intron10-5401 +AUCUGUUAGUAAUGCUGU 18 24281 CFTR-Intron10-5402 + CAUCUGUUAGUAAUGCUGU 1924282 CFTR-Intron10-540 + UCAUCUGUUAGUAAUGCUGU 20 19426CFTR-Intron10-5403 + AUCAUCUGUUAGUAAUGCUGU 21 24283 CFTR-Intron10-5404 +UAUCAUCUGUUAGUAAUGCUGU 22 24284 CFTR-Intron10-5405 +AUAUCAUCUGUUAGUAAUGCUGU 23 24285 CFTR-Intron10-5406 +AAUAUCAUCUGUUAGUAAUGCUGU 24 24286 CFTR-Intron10-5407 +AUAGAGACAAGGUGGUGU 18 24287 CFTR-Intron10-5408 + AAUAGAGACAAGGUGGUGU 1924288 CFTR-Intron10-5409 + UAAUAGAGACAAGGUGGUGU 20 24289CFTR-Intron10-5410 + AUAAUAGAGACAAGGUGGUGU 21 24290 CFTR-Intron10-5411 +AAUAAUAGAGACAAGGUGGUGU 22 24291 CFTR-Intron10-5412 +CAAUAAUAGAGACAAGGUGGUGU 23 24292 CFTR-Intron10-5413 +UCAAUAAUAGAGACAAGGUGGUGU 24 24293 CFTR-Intron10-5414 +GAAAGAAAAUGUUUUUGU 18 24294 CFTR-Intron10-5415 + AGAAAGAAAAUGUUUUUGU 1924295 CFTR-Intron10-5416 + AAGAAAGAAAAUGUUUUUGU 20 24296CFTR-Intron10-5417 + UAAGAAAGAAAAUGUUUUUGU 21 24297 CFTR-Intron10-5418 +UUAAGAAAGAAAAUGUUUUUGU 22 24298 CFTR-Intron10-5419 +UUUAAGAAAGAAAAUGUUUUUGU 23 24299 CFTR-Intron10-5420 +UUUUAAGAAAGAAAAUGUUUUUGU 24 24300 CFTR-Intron10-5421 +UGGCUUAACCCAUCUAUU 18 24301 CFTR-Intron10-5422 + UUGGCUUAACCCAUCUAUU 1924302 CFTR-Intron10-5423 + GUUGGCUUAACCCAUCUAUU 20 24303CFTR-Intron10-5424 + AGUUGGCUUAACCCAUCUAUU 21 24304 CFTR-Intron10-5425 +CAGUUGGCUUAACCCAUCUAUU 22 24305 CFTR-Intron10-5426 +UCAGUUGGCUUAACCCAUCUAUU 23 24306 CFTR-Intron10-5427 +UUCAGUUGGCUUAACCCAUCUAUU 24 24307 CFTR-Intron10-5428 +AUAAUUCUAGAAAGUAUU 18 24308 CFTR-Intron10-5429 + UAUAAUUCUAGAAAGUAUU 1924309 CFTR-Intron10-5430 + GUAUAAUUCUAGAAAGUAUU 20 24310CFTR-Intron10-5431 + GGUAUAAUUCUAGAAAGUAUU 21 24311 CFTR-Intron10-5432 +CGGUAUAAUUCUAGAAAGUAUU 22 24312 CFTR-Intron10-5433 +UCGGUAUAAUUCUAGAAAGUAUU 23 24313 CFTR-Intron10-5434 +UUCGGUAUAAUUCUAGAAAGUAUU 24 24314 CFTR-Intron10-5435 +UUUAUUUAUUUAUUUAUU 18 24315 CFTR-Intron10-5436 + AUUUAUUUAUUUAUUUAUU 1924316 CFTR-Intron10-5437 + UAUUUAUUUAUUUAUUUAUU 20 24317CFTR-Intron10-5438 + UUAUUUAUUUAUUUAUUUAUU 21 24318 CFTR-Intron10-5439 +UUUAUUUAUUUAUUUAUUUAUU 22 24319 CFTR-Intron10-5440 +AUUUAUUUAUUUAUUUAUUUAUU 23 24320 CFTR-Intron10-5441 +UAUUUAUUUAUUUAUUUAUUUAUU 24 24321 CFTR-Intron10-5442 +UUUGCUGAUUGCUUUAUU 18 24322 CFTR-Intron10-5443 + AUUUGCUGAUUGCUUUAUU 1924323 CFTR-Intron10-5444 + AAUUUGCUGAUUGCUUUAUU 20 24324CFTR-Intron10-5445 + AAAUUUGCUGAUUGCUUUAUU 21 24325 CFTR-Intron10-5446 +GAAAUUUGCUGAUUGCUUUAUU 22 24326 CFTR-Intron10-5447 +GGAAAUUUGCUGAUUGCUUUAUU 23 24327 CFTR-Intron10-5448 +AGGAAAUUUGCUGAUUGCUUUAUU 24 24328 CFTR-Intron10-5449 +CCUGUAAUCCCAACACUU 18 24329 CFTR-Intron10-5450 + GCCUGUAAUCCCAACACUU 1924330 CFTR-Intron10-1391 + UGCCUGUAAUCCCAACACUU 20 20275CFTR-Intron10-5451 + AUGCCUGUAAUCCCAACACUU 21 24331 CFTR-Intron10-5452 +CAUGCCUGUAAUCCCAACACUU 22 24332 CFTR-Intron10-5453 +UCAUGCCUGUAAUCCCAACACUU 23 24333 CFTR-Intron10-5454 +CUCAUGCCUGUAAUCCCAACACUU 24 24334 CFTR-Intron10-5455 +CCUAUAAACCCAGCACUU 18 24335 CFTR-Intron10-5456 + GCCUAUAAACCCAGCACUU 1924336 CFTR-Intron10-1392 + UGCCUAUAAACCCAGCACUU 20 20276CFTR-Intron10-5457 + AUGCCUAUAAACCCAGCACUU 21 24337 CFTR-Intron10-5458 +CAUGCCUAUAAACCCAGCACUU 22 24338 CFTR-Intron10-5459 +UCAUGCCUAUAAACCCAGCACUU 23 24339 CFTR-Intron10-5460 +CUCAUGCCUAUAAACCCAGCACUU 24 24340 CFTR-Intron10-5461 +CCUGUAAUCCCAGCACUU 18 24341 CFTR-Intron10-5462 + GCCUGUAAUCCCAGCACUU 1924342 CFTR-Intron10-1393 + CGCCUGUAAUCCCAGCACUU 20 20277CFTR-Intron10-5463 + ACGCCUGUAAUCCCAGCACUU 21 24343 CFTR-Intron10-5464 +CACGCCUGUAAUCCCAGCACUU 22 24344 CFTR-Intron10-5465 +UCACGCCUGUAAUCCCAGCACUU 23 24345 CFTR-Intron10-5466 +CUCACGCCUGUAAUCCCAGCACUU 24 24346 CFTR-Intron10-5467 +GAACCAUUUUAUAGACUU 18 24347 CFTR-Intron10-5468 + GGAACCAUUUUAUAGACUU 1924348 CFTR-Intron10-5469 + AGGAACCAUUUUAUAGACUU 20 24349CFTR-Intron10-5470 + AAGGAACCAUUUUAUAGACUU 21 24350 CFTR-Intron10-5471 +CAAGGAACCAUUUUAUAGACUU 22 24351 CFTR-Intron10-5472 +ACAAGGAACCAUUUUAUAGACUU 23 24352 CFTR-Intron10-5473 +AACAAGGAACCAUUUUAUAGACUU 24 24353 CFTR-Intron10-5474 +CUGUAGUCCCAGCUACUU 18 24354 CFTR-Intron10-5475 + CCUGUAGUCCCAGCUACUU 1924355 CFTR-Intron10-720 + GCCUGUAGUCCCAGCUACUU 20 19606CFTR-Intron10-5476 + CGCCUGUAGUCCCAGCUACUU 21 24356 CFTR-Intron10-5477 +GCGCCUGUAGUCCCAGCUACUU 22 24357 CFTR-Intron10-5478 +GGCGCCUGUAGUCCCAGCUACUU 23 24358 CFTR-Intron10-5479 +GGGCGCCUGUAGUCCCAGCUACUU 24 24359 CFTR-Intron10-5480 +UGCCUGUAGUCCCAGCUACUU 21 24360 CFTR-Intron10-5481 +GUGCCUGUAGUCCCAGCUACUU 22 24361 CFTR-Intron10-5482 +CGUGCCUGUAGUCCCAGCUACUU 23 24362 CFTR-Intron10-5483 +GCGUGCCUGUAGUCCCAGCUACUU 24 24363 CFTR-Intron10-5484 +AAUUUAUUUCUCACAGUU 18 24364 CFTR-Intron10-5485 + GAAUUUAUUUCUCACAGUU 1924365 CFTR-Intron10-5486 + GGAAUUUAUUUCUCACAGUU 20 24366CFTR-Intron10-5487 + AGGAAUUUAUUUCUCACAGUU 21 24367 CFTR-Intron10-5488 +CAGGAAUUUAUUUCUCACAGUU 22 24368 CFTR-Intron10-5489 +ACAGGAAUUUAUUUCUCACAGUU 23 24369 CFTR-Intron10-5490 +AACAGGAAUUUAUUUCUCACAGUU 24 24370 CFTR-Intron10-5491 +CUUGACAUCAGUUGGGUU 18 24371 CFTR-Intron10-5492 + GCUUGACAUCAGUUGGGUU 1924372 CFTR-Intron10-5493 + UGCUUGACAUCAGUUGGGUU 20 24373CFTR-Intron10-5494 + CUGCUUGACAUCAGUUGGGUU 21 24374 CFTR-Intron10-5495 +UCUGCUUGACAUCAGUUGGGUU 22 24375 CFTR-Intron10-5496 +UUCUGCUUGACAUCAGUUGGGUU 23 24376 CFTR-Intron10-5497 +CUUCUGCUUGACAUCAGUUGGGUU 24 24377 CFTR-Intron10-5498 +AAAAUAUACCCAAAAUUU 18 24378 CFTR-Intron10-5499 + UAAAAUAUACCCAAAAUUU 1924379 CFTR-Intron10-5500 + AUAAAAUAUACCCAAAAUUU 20 24380CFTR-Intron10-5501 + UAUAAAAUAUACCCAAAAUUU 21 24381 CFTR-Intron10-5502 +AUAUAAAAUAUACCCAAAAUUU 22 24382 CFTR-Intron10-5503 +AAUAUAAAAUAUACCCAAAAUUU 23 24383 CFTR-Intron10-5504 +AAAUAUAAAAUAUACCCAAAAUUU 24 24384 CFTR-Intron10-5505 +ACGAAUUGGUACAAAUUU 18 24385 CFTR-Intron10-5506 + UACGAAUUGGUACAAAUUU 1924386 CFTR-Intron10-5507 + GUACGAAUUGGUACAAAUUU 20 24387CFTR-Intron10-5508 + AGUACGAAUUGGUACAAAUUU 21 24388 CFTR-Intron10-5509 +GAGUACGAAUUGGUACAAAUUU 22 24389 CFTR-Intron10-5510 +UGAGUACGAAUUGGUACAAAUUU 23 24390 CFTR-Intron10-5511 +AUGAGUACGAAUUGGUACAAAUUU 24 24391 CFTR-Intron10-5512 +CCCUAUUAUUCAACAUUU 18 24392 CFTR-Intron10-5513 + CCCCUAUUAUUCAACAUUU 1924393 CFTR-Intron10-5514 + ACCCCUAUUAUUCAACAUUU 20 24394CFTR-Intron10-5515 + AACCCCUAUUAUUCAACAUUU 21 24395 CFTR-Intron10-5516 +AAACCCCUAUUAUUCAACAUUU 22 24396 CFTR-Intron10-5517 +CAAACCCCUAUUAUUCAACAUUU 23 24397 CFTR-Intron10-5518 +UCAAACCCCUAUUAUUCAACAUUU 24 24398 CFTR-Intron10-5519 +UCUAUUCAAAAAAUAUUU 18 24399 CFTR-Intron10-5520 + AUCUAUUCAAAAAAUAUUU 1924400 CFTR-Intron10-5521 + AAUCUAUUCAAAAAAUAUUU 20 24401CFTR-Intron10-5522 + UAAUCUAUUCAAAAAAUAUUU 21 24402 CFTR-Intron10-5523 +CUAAUCUAUUCAAAAAAUAUUU 22 24403 CFTR-Intron10-5524 +GCUAAUCUAUUCAAAAAAUAUUU 23 24404 CFTR-Intron10-5525 +AGCUAAUCUAUUCAAAAAAUAUUU 24 24405 CFTR-Intron10-5526 +CGAGUUAUCUCCGUAUUU 18 24406 CFTR-Intron10-5527 + ACGAGUUAUCUCCGUAUUU 1924407 CFTR-Intron10-5528 + CACGAGUUAUCUCCGUAUUU 20 24408CFTR-Intron10-5529 + UCACGAGUUAUCUCCGUAUUU 21 24409 CFTR-Intron10-5530 +GUCACGAGUUAUCUCCGUAUUU 22 24410 CFTR-Intron10-5531 +AGUCACGAGUUAUCUCCGUAUUU 23 24411 CFTR-Intron10-5532 +AAGUCACGAGUUAUCUCCGUAUUU 24 24412 CFTR-Intron10-5533 +CUGUAAUCCCAACACUUU 18 24413 CFTR-Intron10-5534 + CCUGUAAUCCCAACACUUU 1924414 CFTR-Intron10-722 + GCCUGUAAUCCCAACACUUU 20 19608CFTR-Intron10-5535 + UGCCUGUAAUCCCAACACUUU 21 24415 CFTR-Intron10-5536 +AUGCCUGUAAUCCCAACACUUU 22 24416 CFTR-Intron10-5537 +CAUGCCUGUAAUCCCAACACUUU 23 24417 CFTR-Intron10-5538 +UCAUGCCUGUAAUCCCAACACUUU 24 24418 CFTR-Intron10-5539 +CUAUAAACCCAGCACUUU 18 24419 CFTR-Intron10-5540 + CCUAUAAACCCAGCACUUU 1924420 CFTR-Intron10-723 + GCCUAUAAACCCAGCACUUU 20 19609CFTR-Intron10-5541 + UGCCUAUAAACCCAGCACUUU 21 24421 CFTR-Intron10-5542 +AUGCCUAUAAACCCAGCACUUU 22 24422 CFTR-Intron10-5543 +CAUGCCUAUAAACCCAGCACUUU 23 24423 CFTR-Intron10-5544 +UCAUGCCUAUAAACCCAGCACUUU 24 24424 CFTR-Intron10-5545 +CUGUAAUCCCAGCACUUU 18 24425 CFTR-Intron10-5546 + CCUGUAAUCCCAGCACUUU 1924426 CFTR-Intron10-724 + GCCUGUAAUCCCAGCACUUU 20 19610CFTR-Intron10-5547 + CGCCUGUAAUCCCAGCACUUU 21 24427 CFTR-Intron10-5548 +ACGCCUGUAAUCCCAGCACUUU 22 24428 CFTR-Intron10-5549 +CACGCCUGUAAUCCCAGCACUUU 23 24429 CFTR-Intron10-5550 +UCACGCCUGUAAUCCCAGCACUUU 24 24430 CFTR-Intron10-5551 +UGAUAAAUAAUUGCCUUU 18 24431 CFTR-Intron10-5552 + UUGAUAAAUAAUUGCCUUU 1924432 CFTR-Intron10-5553 + AUUGAUAAAUAAUUGCCUUU 20 24433CFTR-Intron10-5554 + UAUUGAUAAAUAAUUGCCUUU 21 24434 CFTR-Intron10-5555 +AUAUUGAUAAAUAAUUGCCUUU 22 24435 CFTR-Intron10-5556 +GAUAUUGAUAAAUAAUUGCCUUU 23 24436 CFTR-Intron10-5557 +AGAUAUUGAUAAAUAAUUGCCUUU 24 24437 CFTR-Intron10-5558 +AAAUAAGCCUUAGUCUUU 18 24438 CFTR-Intron10-5559 + GAAAUAAGCCUUAGUCUUU 1924439 CFTR-Intron10-5560 + AGAAAUAAGCCUUAGUCUUU 20 24440CFTR-Intron10-5561 + GAGAAAUAAGCCUUAGUCUUU 21 24441 CFTR-Intron10-5562 +AGAGAAAUAAGCCUUAGUCUUU 22 24442 CFTR-Intron10-5563 +CAGAGAAAUAAGCCUUAGUCUUU 23 24443 CFTR-Intron10-5564 +CCAGAGAAAUAAGCCUUAGUCUUU 24 24444 CFTR-Intron10-5565 +AGAAAAUUUGUUUUCUUU 18 24445 CFTR-Intron10-5566 + AAGAAAAUUUGUUUUCUUU 1924446 CFTR-Intron10-5567 + AAAGAAAAUUUGUUUUCUUU 20 24447CFTR-Intron10-5568 + CAAAGAAAAUUUGUUUUCUUU 21 24448 CFTR-Intron10-5569 +ACAAAGAAAAUUUGUUUUCUUU 22 24449 CFTR-Intron10-5570 +AACAAAGAAAAUUUGUUUUCUUU 23 24450 CFTR-Intron10-5571 +AAACAAAGAAAAUUUGUUUUCUUU 24 24451 CFTR-Intron10-5572 +GAAAAAUAAUAACAUUUU 18 24452 CFTR-Intron10-5573 + AGAAAAAUAAUAACAUUUU 1924453 CFTR-Intron10-5574 + AAGAAAAAUAAUAACAUUUU 20 24454CFTR-Intron10-5575 + AAAGAAAAAUAAUAACAUUUU 21 24455 CFTR-Intron10-5576 +AAAAGAAAAAUAAUAACAUUUU 22 24456 CFTR-Intron10-5577 +UAAAAGAAAAAUAAUAACAUUUU 23 24457 CFTR-Intron10-5578 +AUAAAAGAAAAAUAAUAACAUUUU 24 24458 CFTR-Intron10-5579 +AUACAUACAUAUGAUUUU 18 24459 CFTR-Intron10-5580 + UAUACAUACAUAUGAUUUU 1924460 CFTR-Intron10-5581 + AUAUACAUACAUAUGAUUUU 20 24461CFTR-Intron10-5582 + UAUAUACAUACAUAUGAUUUU 21 24462 CFTR-Intron10-5583 +AUAUAUACAUACAUAUGAUUUU 22 24463 CFTR-Intron10-5584 +CAUAUAUACAUACAUAUGAUUUU 23 24464 CFTR-Intron10-5585 +ACAUAUAUACAUACAUAUGAUUUU 24 24465 CFTR-Intron10-5586 +CACCAAUUUUUUUUUUUU 18 24466 CFTR-Intron10-5587 + ACACCAAUUUUUUUUUUUU 1924467 CFTR-Intron10-5588 + AACACCAAUUUUUUUUUUUU 20 24468CFTR-Intron10-5589 + AAACACCAAUUUUUUUUUUUU 21 24469 CFTR-Intron10-5590 +CAAACACCAAUUUUUUUUUUUU 22 24470 CFTR-Intron10-5591 +GCAAACACCAAUUUUUUUUUUUU 23 24471 CFTR-Intron10-5592 +UGCAAACACCAAUUUUUUUUUUUU 24 24472 CFTR-Intron10-5593 −UAAAAAUGUUAAUGAAAA 18 24473 CFTR-Intron10-5594 − GUAAAAAUGUUAAUGAAAA 1924474 CFTR-Intron10-5595 − GGUAAAAAUGUUAAUGAAAA 20 24475CFTR-Intron10-5596 − AGGUAAAAAUGUUAAUGAAAA 21 24476 CFTR-Intron10-5597 −UAGGUAAAAAUGUUAAUGAAAA 22 24477 CFTR-Intron10-5598 −GUAGGUAAAAAUGUUAAUGAAAA 23 24478 CFTR-Intron10-5599 −UGUAGGUAAAAAUGUUAAUGAAAA 24 24479 CFTR-Intron10-5600 −AUUUAUUAAAAUUUAAAA 18 24480 CFTR-Intron10-5601 − UAUUUAUUAAAAUUUAAAA 1924481 CFTR-Intron10-5602 − UUAUUUAUUAAAAUUUAAAA 20 24482CFTR-Intron10-5603 − AUUAUUUAUUAAAAUUUAAAA 21 24483 CFTR-Intron10-5604 −UAUUAUUUAUUAAAAUUUAAAA 22 24484 CFTR-Intron10-5605 −AUAUUAUUUAUUAAAAUUUAAAA 23 24485 CFTR-Intron10-5606 −GAUAUUAUUUAUUAAAAUUUAAAA 24 24486 CFTR-Intron10-5607 −CGAAUAAUCUAAGACAAA 18 24487 CFTR-Intron10-5608 − CCGAAUAAUCUAAGACAAA 1924488 CFTR-Intron10-5609 − ACCGAAUAAUCUAAGACAAA 20 24489CFTR-Intron10-5610 − UACCGAAUAAUCUAAGACAAA 21 24490 CFTR-Intron10-5611 −AUACCGAAUAAUCUAAGACAAA 22 24491 CFTR-Intron10-5612 −UAUACCGAAUAAUCUAAGACAAA 23 24492 CFTR-Intron10-5613 −UUAUACCGAAUAAUCUAAGACAAA 24 24493 CFTR-Intron10-5614 −GCCUAUUUGACAUCCAAA 18 24494 CFTR-Intron10-5615 − UGCCUAUUUGACAUCCAAA 1924495 CFTR-Intron10-5616 − AUGCCUAUUUGACAUCCAAA 20 24496CFTR-Intron10-5617 − AAUGCCUAUUUGACAUCCAAA 21 24497 CFTR-Intron10-5618 −AAAUGCCUAUUUGACAUCCAAA 22 24498 CFTR-Intron10-5619 −GAAAUGCCUAUUUGACAUCCAAA 23 24499 CFTR-Intron10-5620 −UGAAAUGCCUAUUUGACAUCCAAA 24 24500 CFTR-Intron10-5621 −GACAAACAGAAAAAGAAA 18 24501 CFTR-Intron10-5622 − AGACAAACAGAAAAAGAAA 1924502 CFTR-Intron10-5623 − AAGACAAACAGAAAAAGAAA 20 24503CFTR-Intron10-5624 − UAAGACAAACAGAAAAAGAAA 21 24504 CFTR-Intron10-5625 −CUAAGACAAACAGAAAAAGAAA 22 24505 CFTR-Intron10-5626 −UCUAAGACAAACAGAAAAAGAAA 23 24506 CFTR-Intron10-5627 −AUCUAAGACAAACAGAAAAAGAAA 24 24507 CFTR-Intron10-5628 −AUCUAAGACAAACAGAAA 18 24508 CFTR-Intron10-5629 − AAUCUAAGACAAACAGAAA 1924509 CFTR-Intron10-5630 − UAAUCUAAGACAAACAGAAA 20 24510CFTR-Intron10-5631 − AUAAUCUAAGACAAACAGAAA 21 24511 CFTR-Intron10-5632 −AAUAAUCUAAGACAAACAGAAA 22 24512 CFTR-Intron10-5633 −GAAUAAUCUAAGACAAACAGAAA 23 24513 CFTR-Intron10-5634 −CGAAUAAUCUAAGACAAACAGAAA 24 24514 CFTR-Intron10-5635 −GGCACCAUUCACAGUAAA 18 24515 CFTR-Intron10-5636 − UGGCACCAUUCACAGUAAA 1924516 CFTR-Intron10-5637 − CUGGCACCAUUCACAGUAAA 20 24517CFTR-Intron10-5638 − CCUGGCACCAUUCACAGUAAA 21 24518 CFTR-Intron10-5639 −ACCUGGCACCAUUCACAGUAAA 22 24519 CFTR-Intron10-5640 −UACCUGGCACCAUUCACAGUAAA 23 24520 CFTR-Intron10-5641 −CUACCUGGCACCAUUCACAGUAAA 24 24521 CFTR-Intron10-5642 −CCACUGGAGAGUUUUAAA 18 24522 CFTR-Intron10-5643 − GCCACUGGAGAGUUUUAAA 1924523 CFTR-Intron10-5644 − GGCCACUGGAGAGUUUUAAA 20 24524CFTR-Intron10-5645 − AGGCCACUGGAGAGUUUUAAA 21 24525 CFTR-Intron10-5646 −GAGGCCACUGGAGAGUUUUAAA 22 24526 CFTR-Intron10-5647 −AGAGGCCACUGGAGAGUUUUAAA 23 24527 CFTR-Intron10-5648 −UAGAGGCCACUGGAGAGUUUUAAA 24 24528 CFTR-Intron10-5649 −UACAAAAAACACAAACAA 18 24529 CFTR-Intron10-5650 − CUACAAAAAACACAAACAA 1924530 CFTR-Intron10-5651 − UCUACAAAAAACACAAACAA 20 24531CFTR-Intron10-5652 − CUCUACAAAAAACACAAACAA 21 24532 CFTR-Intron10-5653 −CCUCUACAAAAAACACAAACAA 22 24533 CFTR-Intron10-5654 −ACCUCUACAAAAAACACAAACAA 23 24534 CFTR-Intron10-5655 −CACCUCUACAAAAAACACAAACAA 24 24535 CFTR-Intron10-5656 −UAAAGACUGUUGUAACAA 18 24536 CFTR-Intron10-5657 − AUAAAGACUGUUGUAACAA 1924537 CFTR-Intron10-5658 − UAUAAAGACUGUUGUAACAA 20 24538CFTR-Intron10-5659 − GUAUAAAGACUGUUGUAACAA 21 24539 CFTR-Intron10-5660 −AGUAUAAAGACUGUUGUAACAA 22 24540 CFTR-Intron10-5661 −CAGUAUAAAGACUGUUGUAACAA 23 24541 CFTR-Intron10-5662 −CCAGUAUAAAGACUGUUGUAACAA 24 24542 CFTR-Intron10-5663 −UAUUCUGUAGGGAGACAA 18 24543 CFTR-Intron10-5664 − CUAUUCUGUAGGGAGACAA 1924544 CFTR-Intron10-66 − GCUAUUCUGUAGGGAGACAA 20 18952CFTR-Intron10-5665 − GGCUAUUCUGUAGGGAGACAA 21 24545 CFTR-Intron10-5666 −AGGCUAUUCUGUAGGGAGACAA 22 24546 CFTR-Intron10-5667 −UAGGCUAUUCUGUAGGGAGACAA 23 24547 CFTR-Intron10-5668 −UUAGGCUAUUCUGUAGGGAGACAA 24 24548 CFTR-Intron10-5669 −AUAGAUGGGUUAAGCCAA 18 24549 CFTR-Intron10-5670 − AAUAGAUGGGUUAAGCCAA 1924550 CFTR-Intron10-5671 − UAAUAGAUGGGUUAAGCCAA 20 24551CFTR-Intron10-5672 − UUAAUAGAUGGGUUAAGCCAA 21 24552 CFTR-Intron10-5673 −CUUAAUAGAUGGGUUAAGCCAA 22 24553 CFTR-Intron10-5674 −UCUUAAUAGAUGGGUUAAGCCAA 23 24554 CFTR-Intron10-5675 −CUCUUAAUAGAUGGGUUAAGCCAA 24 24555 CFTR-Intron10-5676 −AGAAAGAAAAAACAGCAA 18 24556 CFTR-Intron10-5677 − UAGAAAGAAAAAACAGCAA 1924557 CFTR-Intron10-5678 − UUAGAAAGAAAAAACAGCAA 20 24558CFTR-Intron10-5679 − AUUAGAAAGAAAAAACAGCAA 21 24559 CFTR-Intron10-5680 −GAUUAGAAAGAAAAAACAGCAA 22 24560 CFTR-Intron10-5681 −AGAUUAGAAAGAAAAAACAGCAA 23 24561 CFTR-Intron10-5682 −UAGAUUAGAAAGAAAAAACAGCAA 24 24562 CFTR-Intron10-5683 −ACUGUUGUAACAAAAGAA 18 24563 CFTR-Intron10-5684 − GACUGUUGUAACAAAAGAA 1924564 CFTR-Intron10-5685 − AGACUGUUGUAACAAAAGAA 20 24565CFTR-Intron10-5686 − AAGACUGUUGUAACAAAAGAA 21 24566 CFTR-Intron10-5687 −AAAGACUGUUGUAACAAAAGAA 22 24567 CFTR-Intron10-5688 −UAAAGACUGUUGUAACAAAAGAA 23 24568 CFTR-Intron10-5689 −AUAAAGACUGUUGUAACAAAAGAA 24 24569 CFTR-Intron10-5690 −GAAGGAAAUGAGGAAGAA 18 24570 CFTR-Intron10-5691 − AGAAGGAAAUGAGGAAGAA 1924571 CFTR-Intron10-1105 − AAGAAGGAAAUGAGGAAGAA 20 19990CFTR-Intron10-5692 − AAAGAAGGAAAUGAGGAAGAA 21 24572 CFTR-Intron10-5693 −GAAAGAAGGAAAUGAGGAAGAA 22 24573 CFTR-Intron10-5694 −AGAAAGAAGGAAAUGAGGAAGAA 23 24574 CFTR-Intron10-5695 −AAGAAAGAAGGAAAUGAGGAAGAA 24 24575 CFTR-Intron10-5696 −AAAGAGGGUUGAUAAGAA 18 24576 CFTR-Intron10-5697 − GAAAGAGGGUUGAUAAGAA 1924577 CFTR-Intron10-5698 − GGAAAGAGGGUUGAUAAGAA 20 24578CFTR-Intron10-5699 − AGGAAAGAGGGUUGAUAAGAA 21 24579 CFTR-Intron10-5700 −AAGGAAAGAGGGUUGAUAAGAA 22 24580 CFTR-Intron10-5701 −AAAGGAAAGAGGGUUGAUAAGAA 23 24581 CFTR-Intron10-5702 −UAAAGGAAAGAGGGUUGAUAAGAA 24 24582 CFTR-Intron10-5703 −AUCACCUGAGCCUGAGAA 18 24583 CFTR-Intron10-5704 − GAUCACCUGAGCCUGAGAA 1924584 CFTR-Intron10-5705 − GGAUCACCUGAGCCUGAGAA 20 24585CFTR-Intron10-5706 − AGGAUCACCUGAGCCUGAGAA 21 24586 CFTR-Intron10-5707 −GAGGAUCACCUGAGCCUGAGAA 22 24587 CFTR-Intron10-5708 −GGAGGAUCACCUGAGCCUGAGAA 23 24588 CFTR-Intron10-5709 −GGGAGGAUCACCUGAGCCUGAGAA 24 24589 CFTR-Intron10-5710 −UUUAAACACUUCUGAGAA 18 24590 CFTR-Intron10-5711 − AUUUAAACACUUCUGAGAA 1924591 CFTR-Intron10-5712 − UAUUUAAACACUUCUGAGAA 20 24592CFTR-Intron10-5713 − AUAUUUAAACACUUCUGAGAA 21 24593 CFTR-Intron10-5714 −AAUAUUUAAACACUUCUGAGAA 22 24594 CFTR-Intron10-5715 −GAAUAUUUAAACACUUCUGAGAA 23 24595 CFTR-Intron10-5716 −GGAAUAUUUAAACACUUCUGAGAA 24 24596 CFTR-Intron10-5717 −AAGGAAUUUUAUAUAGAA 18 24597 CFTR-Intron10-5718 − AAAGGAAUUUUAUAUAGAA 1924598 CFTR-Intron10-5719 − CAAAGGAAUUUUAUAUAGAA 20 24599CFTR-Intron10-5720 − ACAAAGGAAUUUUAUAUAGAA 21 24600 CFTR-Intron10-5721 −UACAAAGGAAUUUUAUAUAGAA 22 24601 CFTR-Intron10-5722 −GUACAAAGGAAUUUUAUAUAGAA 23 24602 CFTR-Intron10-5723 −UGUACAAAGGAAUUUUAUAUAGAA 24 24603 CFTR-Intron10-5724 −AAGUCUAGUUUCAAGGAA 18 24604 CFTR-Intron10-5725 − CAAGUCUAGUUUCAAGGAA 1924605 CFTR-Intron10-5726 − ACAAGUCUAGUUUCAAGGAA 20 24606CFTR-Intron10-5727 − UACAAGUCUAGUUUCAAGGAA 21 24607 CFTR-Intron10-5728 −GUACAAGUCUAGUUUCAAGGAA 22 24608 CFTR-Intron10-5729 −UGUACAAGUCUAGUUUCAAGGAA 23 24609 CFTR-Intron10-5730 −AUGUACAAGUCUAGUUUCAAGGAA 24 24610 CFTR-Intron10-5731 −GAAGGAAGAAAGAAGGAA 18 24611 CFTR-Intron10-5732 − GGAAGGAAGAAAGAAGGAA 1924612 CFTR-Intron10-5733 − AGGAAGGAAGAAAGAAGGAA 20 24613CFTR-Intron10-5734 − GAGGAAGGAAGAAAGAAGGAA 21 24614 CFTR-Intron10-5735 −AGAGGAAGGAAGAAAGAAGGAA 22 24615 CFTR-Intron10-5736 −GAGAGGAAGGAAGAAAGAAGGAA 23 24616 CFTR-Intron10-5737 −AGAGAGGAAGGAAGAAAGAAGGAA 24 24617 CFTR-Intron10-5738 −UUUUAGUAGUAUUAGGAA 18 24618 CFTR-Intron10-5739 − CUUUUAGUAGUAUUAGGAA 1924619 CFTR-Intron10-350 − CCUUUUAGUAGUAUUAGGAA 20 19236CFTR-Intron10-5740 − GCCUUUUAGUAGUAUUAGGAA 21 24620 CFTR-Intron10-5741 −UGCCUUUUAGUAGUAUUAGGAA 22 24621 CFTR-Intron10-5742 −CUGCCUUUUAGUAGUAUUAGGAA 23 24622 CFTR-Intron10-5743 −GCUGCCUUUUAGUAGUAUUAGGAA 24 24623 CFTR-Intron10-5744 −UGAAAUUAGAAAGAAUAA 18 24624 CFTR-Intron10-5745 − AUGAAAUUAGAAAGAAUAA 1924625 CFTR-Intron10-5746 − AAUGAAAUUAGAAAGAAUAA 20 24626CFTR-Intron10-5747 − GAAUGAAAUUAGAAAGAAUAA 21 24627 CFTR-Intron10-5748 −AGAAUGAAAUUAGAAAGAAUAA 22 24628 CFTR-Intron10-5749 −CAGAAUGAAAUUAGAAAGAAUAA 23 24629 CFTR-Intron10-5750 −CCAGAAUGAAAUUAGAAAGAAUAA 24 24630 CFTR-Intron10-5751 −AAAUAUAAGAUUGAAUAA 18 24631 CFTR-Intron10-5752 − AAAAUAUAAGAUUGAAUAA 1924632 CFTR-Intron10-5753 − UAAAAUAUAAGAUUGAAUAA 20 24633CFTR-Intron10-5754 − CUAAAAUAUAAGAUUGAAUAA 21 24634 CFTR-Intron10-5755 −GCUAAAAUAUAAGAUUGAAUAA 22 24635 CFTR-Intron10-5756 −AGCUAAAAUAUAAGAUUGAAUAA 23 24636 CFTR-Intron10-5757 −UAGCUAAAAUAUAAGAUUGAAUAA 24 24637 CFTR-Intron10-5758 −CCCAUAAAUGUUGAAUAA 18 24638 CFTR-Intron10-5759 − CCCCAUAAAUGUUGAAUAA 1924639 CFTR-Intron10-5760 − GCCCCAUAAAUGUUGAAUAA 20 24640CFTR-Intron10-5761 − AGCCCCAUAAAUGUUGAAUAA 21 24641 CFTR-Intron10-5762 −GAGCCCCAUAAAUGUUGAAUAA 22 24642 CFTR-Intron10-5763 −GGAGCCCCAUAAAUGUUGAAUAA 23 24643 CFTR-Intron10-5764 −GGGAGCCCCAUAAAUGUUGAAUAA 24 24644 CFTR-Intron10-5765 −AGCUUAUUCUUGUAAUAA 18 24645 CFTR-Intron10-5766 − UAGCUUAUUCUUGUAAUAA 1924646 CFTR-Intron10-5767 − UUAGCUUAUUCUUGUAAUAA 20 24647CFTR-Intron10-5768 − UUUAGCUUAUUCUUGUAAUAA 21 24648 CFTR-Intron10-5769 −UUUUAGCUUAUUCUUGUAAUAA 22 24649 CFTR-Intron10-5770 −GUUUUAGCUUAUUCUUGUAAUAA 23 24650 CFTR-Intron10-5771 −AGUUUUAGCUUAUUCUUGUAAUAA 24 24651 CFTR-Intron10-5772 −CGUUUACUAGAAAGAUAA 18 24652 CFTR-Intron10-5773 − CCGUUUACUAGAAAGAUAA 1924653 CFTR-Intron10-69 − GCCGUUUACUAGAAAGAUAA 20 18955CFTR-Intron10-5774 − UGCCGUUUACUAGAAAGAUAA 21 24654 CFTR-Intron10-5775 −GUGCCGUUUACUAGAAAGAUAA 22 24655 CFTR-Intron10-5776 −UGUGCCGUUUACUAGAAAGAUAA 23 24656 CFTR-Intron10-5777 −AUGUGCCGUUUACUAGAAAGAUAA 24 24657 CFTR-Intron10-5778 −CCUGCAAUUUCGAGAUAA 18 24658 CFTR-Intron10-5779 − GCCUGCAAUUUCGAGAUAA 1924659 CFTR-Intron10-5780 − UGCCUGCAAUUUCGAGAUAA 20 24660CFTR-Intron10-5781 − UUGCCUGCAAUUUCGAGAUAA 21 24661 CFTR-Intron10-5782 −GUUGCCUGCAAUUUCGAGAUAA 22 24662 CFTR-Intron10-5783 −AGUUGCCUGCAAUUUCGAGAUAA 23 24663 CFTR-Intron10-5784 −CAGUUGCCUGCAAUUUCGAGAUAA 24 24664 CFTR-Intron10-5785 −AGAUUAGUGUCUUUAUAA 18 24665 CFTR-Intron10-5786 − GAGAUUAGUGUCUUUAUAA 1924666 CFTR-Intron10-5787 − UGAGAUUAGUGUCUUUAUAA 20 24667CFTR-Intron10-5788 − AUGAGAUUAGUGUCUUUAUAA 21 24668 CFTR-Intron10-5789 −AAUGAGAUUAGUGUCUUUAUAA 22 24669 CFTR-Intron10-5790 −AAAUGAGAUUAGUGUCUUUAUAA 23 24670 CFTR-Intron10-5791 −UAAAUGAGAUUAGUGUCUUUAUAA 24 24671 CFTR-Intron10-5792 −UGACCUAAGAUAUCCUAA 18 24672 CFTR-Intron10-5793 − UUGACCUAAGAUAUCCUAA 1924673 CFTR-Intron10-358 − UUUGACCUAAGAUAUCCUAA 20 19244CFTR-Intron10-5794 − CUUUGACCUAAGAUAUCCUAA 21 24674 CFTR-Intron10-5795 −UCUUUGACCUAAGAUAUCCUAA 22 24675 CFTR-Intron10-5796 −CUCUUUGACCUAAGAUAUCCUAA 23 24676 CFTR-Intron10-5797 −CCUCUUUGACCUAAGAUAUCCUAA 24 24677 CFTR-Intron10-5798 −GGCUGGAUAAGAUUCUAA 18 24678 CFTR-Intron10-5799 − GGGCUGGAUAAGAUUCUAA 1924679 CFTR-Intron10-71 − GGGGCUGGAUAAGAUUCUAA 20 18957CFTR-Intron10-5800 − UGGGGCUGGAUAAGAUUCUAA 21 24680 CFTR-Intron10-5801 −AUGGGGCUGGAUAAGAUUCUAA 22 24681 CFTR-Intron10-5802 −GAUGGGGCUGGAUAAGAUUCUAA 23 24682 CFTR-Intron10-5803 −AGAUGGGGCUGGAUAAGAUUCUAA 24 24683 CFTR-Intron10-5804 −AGUUUUAAACAGAAGUAA 18 24684 CFTR-Intron10-5805 − GAGUUUUAAACAGAAGUAA 1924685 CFTR-Intron10-5806 − AGAGUUUUAAACAGAAGUAA 20 24686CFTR-Intron10-5807 − GAGAGUUUUAAACAGAAGUAA 21 24687 CFTR-Intron10-5808 −GGAGAGUUUUAAACAGAAGUAA 22 24688 CFTR-Intron10-5809 −UGGAGAGUUUUAAACAGAAGUAA 23 24689 CFTR-Intron10-5810 −CUGGAGAGUUUUAAACAGAAGUAA 24 24690 CFTR-Intron10-5811 −AAAGAAGGAAGGAAGUAA 18 24691 CFTR-Intron10-5812 − GAAAGAAGGAAGGAAGUAA 1924692 CFTR-Intron10-5813 − GGAAAGAAGGAAGGAAGUAA 20 24693CFTR-Intron10-5814 − AGGAAAGAAGGAAGGAAGUAA 21 24694 CFTR-Intron10-5815 −AAGGAAAGAAGGAAGGAAGUAA 22 24695 CFTR-Intron10-5816 −GAAGGAAAGAAGGAAGGAAGUAA 23 24696 CFTR-Intron10-5817 −GGAAGGAAAGAAGGAAGGAAGUAA 24 24697 CFTR-Intron10-5818 −GCUUUCUGGACUGAGUAA 18 24698 CFTR-Intron10-5819 − AGCUUUCUGGACUGAGUAA 1924699 CFTR-Intron10-5820 − AAGCUUUCUGGACUGAGUAA 20 24700CFTR-Intron10-5821 − CAAGCUUUCUGGACUGAGUAA 21 24701 CFTR-Intron10-5822 −CCAAGCUUUCUGGACUGAGUAA 22 24702 CFTR-Intron10-5823 −UCCAAGCUUUCUGGACUGAGUAA 23 24703 CFTR-Intron10-5824 −UUCCAAGCUUUCUGGACUGAGUAA 24 24704 CFTR-Intron10-5825 −GGGUGAAGUCUUUAGUAA 18 24705 CFTR-Intron10-5826 − AGGGUGAAGUCUUUAGUAA 1924706 CFTR-Intron10-5827 − GAGGGUGAAGUCUUUAGUAA 20 24707CFTR-Intron10-5828 − UGAGGGUGAAGUCUUUAGUAA 21 24708 CFTR-Intron10-5829 −AUGAGGGUGAAGUCUUUAGUAA 22 24709 CFTR-Intron10-5830 −CAUGAGGGUGAAGUCUUUAGUAA 23 24710 CFTR-Intron10-5831 −CCAUGAGGGUGAAGUCUUUAGUAA 24 24711 CFTR-Intron10-5832 −AUAAGUGGCCUUUAAACA 18 24712 CFTR-Intron10-5833 − UAUAAGUGGCCUUUAAACA 1924713 CFTR-Intron10-5834 − AUAUAAGUGGCCUUUAAACA 20 24714CFTR-Intron10-5835 − AAUAUAAGUGGCCUUUAAACA 21 24715 CFTR-Intron10-5836 −AAAUAUAAGUGGCCUUUAAACA 22 24716 CFTR-Intron10-5837 −AAAAUAUAAGUGGCCUUUAAACA 23 24717 CFTR-Intron10-5838 −AAAAAUAUAAGUGGCCUUUAAACA 24 24718 CFTR-Intron10-5839 −ACCAUCCUGGCUAACACA 18 24719 CFTR-Intron10-5840 − GACCAUCCUGGCUAACACA 1924720 CFTR-Intron10-5841 − AGACCAUCCUGGCUAACACA 20 24721CFTR-Intron10-5842 − AAGACCAUCCUGGCUAACACA 21 24722 CFTR-Intron10-5843 −CAAGACCAUCCUGGCUAACACA 22 24723 CFTR-Intron10-5844 −UCAAGACCAUCCUGGCUAACACA 23 24724 CFTR-Intron10-5845 −AUCAAGACCAUCCUGGCUAACACA 24 24725 CFTR-Intron10-5846 −CAAUAUUUUGUUAACACA 18 24726 CFTR-Intron10-5847 − CCAAUAUUUUGUUAACACA 1924727 CFTR-Intron10-5848 − UCCAAUAUUUUGUUAACACA 20 24728CFTR-Intron10-5849 − UUCCAAUAUUUUGUUAACACA 21 24729 CFTR-Intron10-5850 −UUUCCAAUAUUUUGUUAACACA 22 24730 CFTR-Intron10-5851 −GUUUCCAAUAUUUUGUUAACACA 23 24731 CFTR-Intron10-5852 −UGUUUCCAAUAUUUUGUUAACACA 24 24732 CFTR-Intron10-5853 −UUCCAUAUUCAAAGCACA 18 24733 CFTR-Intron10-5854 − UUUCCAUAUUCAAAGCACA 1924734 CFTR-Intron10-5855 − CUUUCCAUAUUCAAAGCACA 20 24735CFTR-Intron10-5856 − ACUUUCCAUAUUCAAAGCACA 21 24736 CFTR-Intron10-5857 −AACUUUCCAUAUUCAAAGCACA 22 24737 CFTR-Intron10-5858 −CAACUUUCCAUAUUCAAAGCACA 23 24738 CFTR-Intron10-5859 −ACAACUUUCCAUAUUCAAAGCACA 24 24739 CFTR-Intron10-5860 −CAUAUGAGAAAAGUCACA 18 24740 CFTR-Intron10-5861 − GCAUAUGAGAAAAGUCACA 1924741 CFTR-Intron10-5862 − GGCAUAUGAGAAAAGUCACA 20 24742CFTR-Intron10-5863 − UGGCAUAUGAGAAAAGUCACA 21 24743 CFTR-Intron10-5864 −AUGGCAUAUGAGAAAAGUCACA 22 24744 CFTR-Intron10-5865 −AAUGGCAUAUGAGAAAAGUCACA 23 24745 CFTR-Intron10-5866 −CAAUGGCAUAUGAGAAAAGUCACA 24 24746 CFTR-Intron10-5867 −CUGGCAUAGAGUAAGACA 18 24747 CFTR-Intron10-5868 − GCUGGCAUAGAGUAAGACA 1924748 CFTR-Intron10-74 − GGCUGGCAUAGAGUAAGACA 20 18960CFTR-Intron10-5869 − AGGCUGGCAUAGAGUAAGACA 21 24749 CFTR-Intron10-5870 −GAGGCUGGCAUAGAGUAAGACA 22 24750 CFTR-Intron10-5871 −UGAGGCUGGCAUAGAGUAAGACA 23 24751 CFTR-Intron10-5872 −CUGAGGCUGGCAUAGAGUAAGACA 24 24752 CFTR-Intron10-5873 −CUAUUCUGUAGGGAGACA 18 24753 CFTR-Intron10-5874 − GCUAUUCUGUAGGGAGACA 1924754 CFTR-Intron10-75 − GGCUAUUCUGUAGGGAGACA 20 18961CFTR-Intron10-5875 − AGGCUAUUCUGUAGGGAGACA 21 24755 CFTR-Intron10-5876 −UAGGCUAUUCUGUAGGGAGACA 22 24756 CFTR-Intron10-5877 −UUAGGCUAUUCUGUAGGGAGACA 23 24757 CFTR-Intron10-5878 −UUUAGGCUAUUCUGUAGGGAGACA 24 24758 CFTR-Intron10-5879 −UUUUUUUCAGUUAAUACA 18 24759 CFTR-Intron10-5880 − UUUUUUUUCAGUUAAUACA 1924760 CFTR-Intron10-5881 − AUUUUUUUUCAGUUAAUACA 20 24761CFTR-Intron10-5882 − AAUUUUUUUUCAGUUAAUACA 21 24762 CFTR-Intron10-5883 −GAAUUUUUUUUCAGUUAAUACA 22 24763 CFTR-Intron10-5884 −UGAAUUUUUUUUCAGUUAAUACA 23 24764 CFTR-Intron10-5885 −GUGAAUUUUUUUUCAGUUAAUACA 24 24765 CFTR-Intron10-5886 −AUCAUUUCAACUUAUACA 18 24766 CFTR-Intron10-5887 − UAUCAUUUCAACUUAUACA 1924767 CFTR-Intron10-5888 − AUAUCAUUUCAACUUAUACA 20 24768CFTR-Intron10-5889 − AAUAUCAUUUCAACUUAUACA 21 24769 CFTR-Intron10-5890 −AAAUAUCAUUUCAACUUAUACA 22 24770 CFTR-Intron10-5891 −AAAAUAUCAUUUCAACUUAUACA 23 24771 CFTR-Intron10-5892 −UAAAAUAUCAUUUCAACUUAUACA 24 24772 CFTR-Intron10-5893 −UAGGUUUAAUUUUGUACA 18 24773 CFTR-Intron10-5894 − CUAGGUUUAAUUUUGUACA 1924774 CFTR-Intron10-5895 − UCUAGGUUUAAUUUUGUACA 20 24775CFTR-Intron10-5896 − UUCUAGGUUUAAUUUUGUACA 21 24776 CFTR-Intron10-5897 −CUUCUAGGUUUAAUUUUGUACA 22 24777 CFTR-Intron10-5898 −ACUUCUAGGUUUAAUUUUGUACA 23 24778 CFTR-Intron10-5899 −CACUUCUAGGUUUAAUUUUGUACA 24 24779 CFTR-Intron10-5900 −GGGUGAGAUUAGAGGCCA 18 24780 CFTR-Intron10-5901 − UGGGUGAGAUUAGAGGCCA 1924781 CFTR-Intron10-5902 − CUGGGUGAGAUUAGAGGCCA 20 24782CFTR-Intron10-5903 − UCUGGGUGAGAUUAGAGGCCA 21 24783 CFTR-Intron10-5904 −CUCUGGGUGAGAUUAGAGGCCA 22 24784 CFTR-Intron10-5905 −UCUCUGGGUGAGAUUAGAGGCCA 23 24785 CFTR-Intron10-5906 −UUCUCUGGGUGAGAUUAGAGGCCA 24 24786 CFTR-Intron10-5907 −CUUUCCAUAUUCAAAGCA 18 24787 CFTR-Intron10-5908 − ACUUUCCAUAUUCAAAGCA 1924788 CFTR-Intron10-5909 − AACUUUCCAUAUUCAAAGCA 20 24789CFTR-Intron10-5910 − CAACUUUCCAUAUUCAAAGCA 21 24790 CFTR-Intron10-5911 −ACAACUUUCCAUAUUCAAAGCA 22 24791 CFTR-Intron10-5912 −GACAACUUUCCAUAUUCAAAGCA 23 24792 CFTR-Intron10-5913 −GGACAACUUUCCAUAUUCAAAGCA 24 24793 CFTR-Intron10-5914 −GAGACAAGGGAGGAAGCA 18 24794 CFTR-Intron10-5915 − GGAGACAAGGGAGGAAGCA 1924795 CFTR-Intron10-650 − GGGAGACAAGGGAGGAAGCA 20 19536CFTR-Intron10-5916 − AGGGAGACAAGGGAGGAAGCA 21 24796 CFTR-Intron10-5917 −UAGGGAGACAAGGGAGGAAGCA 22 24797 CFTR-Intron10-5918 −GUAGGGAGACAAGGGAGGAAGCA 23 24798 CFTR-Intron10-5919 −UGUAGGGAGACAAGGGAGGAAGCA 24 24799 CFTR-Intron10-5920 −GAUUCUGUUUAAAUAGCA 18 24800 CFTR-Intron10-5921 − UGAUUCUGUUUAAAUAGCA 1924801 CFTR-Intron10-5922 − CUGAUUCUGUUUAAAUAGCA 20 24802CFTR-Intron10-5923 − CCUGAUUCUGUUUAAAUAGCA 21 24803 CFTR-Intron10-5924 −CCCUGAUUCUGUUUAAAUAGCA 22 24804 CFTR-Intron10-5925 −CCCCUGAUUCUGUUUAAAUAGCA 23 24805 CFTR-Intron10-5926 −UCCCCUGAUUCUGUUUAAAUAGCA 24 24806 CFTR-Intron10-5927 −AGUGCCACUAGUGAUGCA 18 24807 CFTR-Intron10-5928 − AAGUGCCACUAGUGAUGCA 1924808 CFTR-Intron10-1129 − AAAGUGCCACUAGUGAUGCA 20 20014CFTR-Intron10-5929 − CAAAGUGCCACUAGUGAUGCA 21 24809 CFTR-Intron10-5930 −ACAAAGUGCCACUAGUGAUGCA 22 24810 CFTR-Intron10-5931 −UACAAAGUGCCACUAGUGAUGCA 23 24811 CFTR-Intron10-5932 −AUACAAAGUGCCACUAGUGAUGCA 24 24812 CFTR-Intron10-5933 −UGAGAAGUGGAGGCUGCA 18 24813 CFTR-Intron10-5934 − CUGAGAAGUGGAGGCUGCA 1924814 CFTR-Intron10-5935 − CCUGAGAAGUGGAGGCUGCA 20 24815CFTR-Intron10-5936 − GCCUGAGAAGUGGAGGCUGCA 21 24816 CFTR-Intron10-5937 −AGCCUGAGAAGUGGAGGCUGCA 22 24817 CFTR-Intron10-5938 −GAGCCUGAGAAGUGGAGGCUGCA 23 24818 CFTR-Intron10-5939 −UGAGCCUGAGAAGUGGAGGCUGCA 24 24819 CFTR-Intron10-5940 −CAGGAGGCAGAACUUGCA 18 24820 CFTR-Intron10-5941 − CCAGGAGGCAGAACUUGCA 1924821 CFTR-Intron10-5942 − CCCAGGAGGCAGAACUUGCA 20 24822CFTR-Intron10-5943 − ACCCAGGAGGCAGAACUUGCA 21 24823 CFTR-Intron10-5944 −AACCCAGGAGGCAGAACUUGCA 22 24824 CFTR-Intron10-5945 −GAACCCAGGAGGCAGAACUUGCA 23 24825 CFTR-Intron10-5946 −UGAACCCAGGAGGCAGAACUUGCA 24 24826 CFTR-Intron10-5947 −GGCAUAUGAGAAAAGUCA 18 24827 CFTR-Intron10-5948 − UGGCAUAUGAGAAAAGUCA 1924828 CFTR-Intron10-5949 − AUGGCAUAUGAGAAAAGUCA 20 24829CFTR-Intron10-5950 − AAUGGCAUAUGAGAAAAGUCA 21 24830 CFTR-Intron10-5951 −CAAUGGCAUAUGAGAAAAGUCA 22 24831 CFTR-Intron10-5952 −ACAAUGGCAUAUGAGAAAAGUCA 23 24832 CFTR-Intron10-5953 −AACAAUGGCAUAUGAGAAAAGUCA 24 24833 CFTR-Intron10-5954 −AGAACAGUAAGGAGGUCA 18 24834 CFTR-Intron10-5955 − AAGAACAGUAAGGAGGUCA 1924835 CFTR-Intron10-5956 − GAAGAACAGUAAGGAGGUCA 20 24836CFTR-Intron10-5957 − UGAAGAACAGUAAGGAGGUCA 21 24837 CFTR-Intron10-5958 −UUGAAGAACAGUAAGGAGGUCA 22 24838 CFTR-Intron10-5959 −UUUGAAGAACAGUAAGGAGGUCA 23 24839 CFTR-Intron10-5960 −GUUUGAAGAACAGUAAGGAGGUCA 24 24840 CFTR-Intron10-5961 −GAGGGUAGAAUACUGUCA 18 24841 CFTR-Intron10-5962 − GGAGGGUAGAAUACUGUCA 1924842 CFTR-Intron10-5963 − GGGAGGGUAGAAUACUGUCA 20 24843CFTR-Intron10-5964 − AGGGAGGGUAGAAUACUGUCA 21 24844 CFTR-Intron10-5965 −CAGGGAGGGUAGAAUACUGUCA 22 24845 CFTR-Intron10-5966 −ACAGGGAGGGUAGAAUACUGUCA 23 24846 CFTR-Intron10-5967 −GACAGGGAGGGUAGAAUACUGUCA 24 24847 CFTR-Intron10-5968 −UGUACAAGUCUAGUUUCA 18 24848 CFTR-Intron10-5969 − AUGUACAAGUCUAGUUUCA 1924849 CFTR-Intron10-79 − GAUGUACAAGUCUAGUUUCA 20 18965CFTR-Intron10-5970 − GGAUGUACAAGUCUAGUUUCA 21 24850 CFTR-Intron10-5971 −UGGAUGUACAAGUCUAGUUUCA 22 24851 CFTR-Intron10-5972 −UUGGAUGUACAAGUCUAGUUUCA 23 24852 CFTR-Intron10-5973 −GUUGGAUGUACAAGUCUAGUUUCA 24 24853 CFTR-Intron10-5974 −AAGACAAACAGAAAAAGA 18 24854 CFTR-Intron10-5975 − UAAGACAAACAGAAAAAGA 1924855 CFTR-Intron10-5976 − CUAAGACAAACAGAAAAAGA 20 24856CFTR-Intron10-5977 − UCUAAGACAAACAGAAAAAGA 21 24857 CFTR-Intron10-5978 −AUCUAAGACAAACAGAAAAAGA 22 24858 CFTR-Intron10-5979 −AAUCUAAGACAAACAGAAAAAGA 23 24859 CFTR-Intron10-5980 −UAAUCUAAGACAAACAGAAAAAGA 24 24860 CFTR-Intron10-5981 −CAAACAGAAAAAGAAAGA 18 24861 CFTR-Intron10-5982 − ACAAACAGAAAAAGAAAGA 1924862 CFTR-Intron10-5983 − GACAAACAGAAAAAGAAAGA 20 24863CFTR-Intron10-5984 − AGACAAACAGAAAAAGAAAGA 21 24864 CFTR-Intron10-5985 −AAGACAAACAGAAAAAGAAAGA 22 24865 CFTR-Intron10-5986 −UAAGACAAACAGAAAAAGAAAGA 23 24866 CFTR-Intron10-5987 −CUAAGACAAACAGAAAAAGAAAGA 24 24867 CFTR-Intron10-5988 −GAGAGGAAGGAAGAAAGA 18 24868 CFTR-Intron10-5989 − AGAGAGGAAGGAAGAAAGA 1924869 CFTR-Intron10-1137 − AAGAGAGGAAGGAAGAAAGA 20 20022CFTR-Intron10-5990 − AAAGAGAGGAAGGAAGAAAGA 21 24870 CFTR-Intron10-5991 −GAAAGAGAGGAAGGAAGAAAGA 22 24871 CFTR-Intron10-5992 −AGAAAGAGAGGAAGGAAGAAAGA 23 24872 CFTR-Intron10-5993 −AAGAAAGAGAGGAAGGAAGAAAGA 24 24873 CFTR-Intron10-5994 −GAAGGAAGGAAGGAAAGA 18 24874 CFTR-Intron10-5995 − GGAAGGAAGGAAGGAAAGA 1924875 CFTR-Intron10-1138 − AGGAAGGAAGGAAGGAAAGA 20 20023CFTR-Intron10-5996 − GAGGAAGGAAGGAAGGAAAGA 21 24876 CFTR-Intron10-5997 −GGAGGAAGGAAGGAAGGAAAGA 22 24877 CFTR-Intron10-5998 −AGGAGGAAGGAAGGAAGGAAAGA 23 24878 CFTR-Intron10-5999 −UAGGAGGAAGGAAGGAAGGAAAGA 24 24879 CFTR-Intron10-6000 −GUCUAGUUUCAAGGAAGA 18 24880 CFTR-Intron10-6001 − AGUCUAGUUUCAAGGAAGA 1924881 CFTR-Intron10-372 − AAGUCUAGUUUCAAGGAAGA 20 19258CFTR-Intron10-6002 − CAAGUCUAGUUUCAAGGAAGA 21 24882 CFTR-Intron10-6003 −ACAAGUCUAGUUUCAAGGAAGA 22 24883 CFTR-Intron10-6004 −UACAAGUCUAGUUUCAAGGAAGA 23 24884 CFTR-Intron10-6005 −GUACAAGUCUAGUUUCAAGGAAGA 24 24885 CFTR-Intron10-6006 −GAAAGAGAGGAAGGAAGA 18 24886 CFTR-Intron10-6007 − AGAAAGAGAGGAAGGAAGA 1924887 CFTR-Intron10-6008 − AAGAAAGAGAGGAAGGAAGA 20 24888CFTR-Intron10-6009 − AAAGAAAGAGAGGAAGGAAGA 21 24889 CFTR-Intron10-6010 −AAAAGAAAGAGAGGAAGGAAGA 22 24890 CFTR-Intron10-6011 −AAAAAGAAAGAGAGGAAGGAAGA 23 24891 CFTR-Intron10-6012 −GAAAAAGAAAGAGAGGAAGGAAGA 24 24892 CFTR-Intron10-6013 −AGAAGGAAAUGAGGAAGA 18 24893 CFTR-Intron10-6014 − AAGAAGGAAAUGAGGAAGA 1924894 CFTR-Intron10-6015 − AAAGAAGGAAAUGAGGAAGA 20 24895CFTR-Intron10-6016 − GAAAGAAGGAAAUGAGGAAGA 21 24896 CFTR-Intron10-6017 −AGAAAGAAGGAAAUGAGGAAGA 22 24897 CFTR-Intron10-6018 −AAGAAAGAAGGAAAUGAGGAAGA 23 24898 CFTR-Intron10-6019 −GAAGAAAGAAGGAAAUGAGGAAGA 24 24899 CFTR-Intron10-6020 −GGGCUGGUAGUGUGAAGA 18 24900 CFTR-Intron10-6021 − GGGGCUGGUAGUGUGAAGA 1924901 CFTR-Intron10-80 − GGGGGCUGGUAGUGUGAAGA 20 18966CFTR-Intron10-6022 − AGGGGGCUGGUAGUGUGAAGA 21 24902 CFTR-Intron10-6023 −GAGGGGGCUGGUAGUGUGAAGA 22 24903 CFTR-Intron10-6024 −AGAGGGGGCUGGUAGUGUGAAGA 23 24904 CFTR-Intron10-6025 −AAGAGGGGGCUGGUAGUGUGAAGA 24 24905 CFTR-Intron10-6026 −AGAAGGAAGGAAGUAAGA 18 24906 CFTR-Intron10-6027 − AAGAAGGAAGGAAGUAAGA 1924907 CFTR-Intron10-1139 − AAAGAAGGAAGGAAGUAAGA 20 20024CFTR-Intron10-6028 − GAAAGAAGGAAGGAAGUAAGA 21 24908 CFTR-Intron10-6029 −GGAAAGAAGGAAGGAAGUAAGA 22 24909 CFTR-Intron10-6030 −AGGAAAGAAGGAAGGAAGUAAGA 23 24910 CFTR-Intron10-6031 −AAGGAAAGAAGGAAGGAAGUAAGA 24 24911 CFTR-Intron10-6032 −GGCUGGCAUAGAGUAAGA 18 24912 CFTR-Intron10-6033 − AGGCUGGCAUAGAGUAAGA 1924913 CFTR-Intron10-6034 − GAGGCUGGCAUAGAGUAAGA 20 24914CFTR-Intron10-6035 − UGAGGCUGGCAUAGAGUAAGA 21 24915 CFTR-Intron10-6036 −CUGAGGCUGGCAUAGAGUAAGA 22 24916 CFTR-Intron10-6037 −ACUGAGGCUGGCAUAGAGUAAGA 23 24917 CFTR-Intron10-6038 −CACUGAGGCUGGCAUAGAGUAAGA 24 24918 CFTR-Intron10-6039 −UCUAGCCUGGGUGACAGA 18 24919 CFTR-Intron10-6040 − CUCUAGCCUGGGUGACAGA 1924920 CFTR-Intron10-6041 − ACUCUAGCCUGGGUGACAGA 20 24921CFTR-Intron10-6042 − CACUCUAGCCUGGGUGACAGA 21 24922 CFTR-Intron10-6043 −GCACUCUAGCCUGGGUGACAGA 22 24923 CFTR-Intron10-6044 −UGCACUCUAGCCUGGGUGACAGA 23 24924 CFTR-Intron10-6045 −CUGCACUCUAGCCUGGGUGACAGA 24 24925 CFTR-Intron10-6046 −AGGUCAAACUUGACCAGA 18 24926 CFTR-Intron10-6047 − AAGGUCAAACUUGACCAGA 1924927 CFTR-Intron10-6048 − GAAGGUCAAACUUGACCAGA 20 24928CFTR-Intron10-6049 − AGAAGGUCAAACUUGACCAGA 21 24929 CFTR-Intron10-6050 −GAGAAGGUCAAACUUGACCAGA 22 24930 CFTR-Intron10-6051 −AGAGAAGGUCAAACUUGACCAGA 23 24931 CFTR-Intron10-6052 −UAGAGAAGGUCAAACUUGACCAGA 24 24932 CFTR-Intron10-6053 −AAUUUAACAUUUUCCAGA 18 24933 CFTR-Intron10-6054 − AAAUUUAACAUUUUCCAGA 1924934 CFTR-Intron10-6055 − AAAAUUUAACAUUUUCCAGA 20 24935CFTR-Intron10-6056 − GAAAAUUUAACAUUUUCCAGA 21 24936 CFTR-Intron10-6057 −GGAAAAUUUAACAUUUUCCAGA 22 24937 CFTR-Intron10-6058 −GGGAAAAUUUAACAUUUUCCAGA 23 24938 CFTR-Intron10-6059 −AGGGAAAAUUUAACAUUUUCCAGA 24 24939 CFTR-Intron10-6060 −AAGUGCAAAGCUUUCAGA 18 24940 CFTR-Intron10-6061 − CAAGUGCAAAGCUUUCAGA 1924941 CFTR-Intron10-82 − GCAAGUGCAAAGCUUUCAGA 20 18968CFTR-Intron10-6062 − AGCAAGUGCAAAGCUUUCAGA 21 24942 CFTR-Intron10-6063 −AAGCAAGUGCAAAGCUUUCAGA 22 24943 CFTR-Intron10-6064 −GAAGCAAGUGCAAAGCUUUCAGA 23 24944 CFTR-Intron10-6065 −UGAAGCAAGUGCAAAGCUUUCAGA 24 24945 CFTR-Intron10-6066 −AGGGUUGAUAAGAAGAGA 18 24946 CFTR-Intron10-6067 − GAGGGUUGAUAAGAAGAGA 1924947 CFTR-Intron10-6068 − AGAGGGUUGAUAAGAAGAGA 20 24948CFTR-Intron10-6069 − AAGAGGGUUGAUAAGAAGAGA 21 24949 CFTR-Intron10-6070 −AAAGAGGGUUGAUAAGAAGAGA 22 24950 CFTR-Intron10-6071 −GAAAGAGGGUUGAUAAGAAGAGA 23 24951 CFTR-Intron10-6072 −GGAAAGAGGGUUGAUAAGAAGAGA 24 24952 CFTR-Intron10-6073 −AUCAAAUUAGAGAUGAGA 18 24953 CFTR-Intron10-6074 − AAUCAAAUUAGAGAUGAGA 1924954 CFTR-Intron10-6075 − GAAUCAAAUUAGAGAUGAGA 20 24955CFTR-Intron10-6076 − AGAAUCAAAUUAGAGAUGAGA 21 24956 CFTR-Intron10-6077 −AAGAAUCAAAUUAGAGAUGAGA 22 24957 CFTR-Intron10-6078 −AAAGAAUCAAAUUAGAGAUGAGA 23 24958 CFTR-Intron10-6079 −GAAAGAAUCAAAUUAGAGAUGAGA 24 24959 CFTR-Intron10-6080 −AAAAAAUAGUAGAUUAGA 18 24960 CFTR-Intron10-6081 − GAAAAAAUAGUAGAUUAGA 1924961 CFTR-Intron10-6082 − UGAAAAAAUAGUAGAUUAGA 20 24962CFTR-Intron10-6083 − CUGAAAAAAUAGUAGAUUAGA 21 24963 CFTR-Intron10-6084 −UCUGAAAAAAUAGUAGAUUAGA 22 24964 CFTR-Intron10-6085 −AUCUGAAAAAAUAGUAGAUUAGA 23 24965 CFTR-Intron10-6086 −CAUCUGAAAAAAUAGUAGAUUAGA 24 24966 CFTR-Intron10-6087 −GAGCUUUCUAGUAUUAGA 18 24967 CFTR-Intron10-6088 − AGAGCUUUCUAGUAUUAGA 1924968 CFTR-Intron10-6089 − AAGAGCUUUCUAGUAUUAGA 20 24969CFTR-Intron10-6090 − AAAGAGCUUUCUAGUAUUAGA 21 24970 CFTR-Intron10-6091 −GAAAGAGCUUUCUAGUAUUAGA 22 24971 CFTR-Intron10-6092 −AGAAAGAGCUUUCUAGUAUUAGA 23 24972 CFTR-Intron10-6093 −GAGAAAGAGCUUUCUAGUAUUAGA 24 24973 CFTR-Intron10-6094 −GGAUAAGAUUCUAAAGGA 18 24974 CFTR-Intron10-6095 − UGGAUAAGAUUCUAAAGGA 1924975 CFTR-Intron10-6096 − CUGGAUAAGAUUCUAAAGGA 20 24976CFTR-Intron10-6097 − GCUGGAUAAGAUUCUAAAGGA 21 24977 CFTR-Intron10-6098 −GGCUGGAUAAGAUUCUAAAGGA 22 24978 CFTR-Intron10-6099 −GGGCUGGAUAAGAUUCUAAAGGA 23 24979 CFTR-Intron10-6100 −GGGGCUGGAUAAGAUUCUAAAGGA 24 24980 CFTR-Intron10-6101 −GAAGGAAGGAAAGAAGGA 18 24981 CFTR-Intron10-6102 − GGAAGGAAGGAAAGAAGGA 1924982 CFTR-Intron10-1145 − AGGAAGGAAGGAAAGAAGGA 20 20030CFTR-Intron10-6103 − AAGGAAGGAAGGAAAGAAGGA 21 24983 CFTR-Intron10-6104 −GAAGGAAGGAAGGAAAGAAGGA 22 24984 CFTR-Intron10-6105 −GGAAGGAAGGAAGGAAAGAAGGA 23 24985 CFTR-Intron10-6106 −AGGAAGGAAGGAAGGAAAGAAGGA 24 24986 CFTR-Intron10-6107 −GGAGGAAGGAAGGAAGGA 18 24987 CFTR-Intron10-6108 − AGGAGGAAGGAAGGAAGGA 1924988 CFTR-Intron10-6109 − UAGGAGGAAGGAAGGAAGGA 20 24989CFTR-Intron10-6110 − GUAGGAGGAAGGAAGGAAGGA 21 24990 CFTR-Intron10-6111 −AGUAGGAGGAAGGAAGGAAGGA 22 24991 CFTR-Intron10-6112 −AAGUAGGAGGAAGGAAGGAAGGA 23 24992 CFTR-Intron10-6113 −GAAGUAGGAGGAAGGAAGGAAGGA 24 24993 CFTR-Intron10-6114 −AGUAGGAGGAAGGAAGGA 18 24994 CFTR-Intron10-6115 − AAGUAGGAGGAAGGAAGGA 1924995 CFTR-Intron10-652 − GAAGUAGGAGGAAGGAAGGA 20 19538CFTR-Intron10-6116 − GGAAGUAGGAGGAAGGAAGGA 21 24996 CFTR-Intron10-6117 −AGGAAGUAGGAGGAAGGAAGGA 22 24997 CFTR-Intron10-6118 −AAGGAAGUAGGAGGAAGGAAGGA 23 24998 CFTR-Intron10-6119 −AAAGGAAGUAGGAGGAAGGAAGGA 24 24999 CFTR-Intron10-6120 −AGGAAGUAGGAGGAAGGA 18 25000 CFTR-Intron10-6121 − AAGGAAGUAGGAGGAAGGA 1925001 CFTR-Intron10-1146 − AAAGGAAGUAGGAGGAAGGA 20 20031CFTR-Intron10-6122 − GAAAGGAAGUAGGAGGAAGGA 21 25002 CFTR-Intron10-6123 −AGAAAGGAAGUAGGAGGAAGGA 22 25003 CFTR-Intron10-6124 −AAGAAAGGAAGUAGGAGGAAGGA 23 25004 CFTR-Intron10-6125 −GAAGAAAGGAAGUAGGAGGAAGGA 24 25005 CFTR-Intron10-6126 −UUAGAAAGAAUAAGAGGA 18 25006 CFTR-Intron10-6127 − AUUAGAAAGAAUAAGAGGA 1925007 CFTR-Intron10-6128 − AAUUAGAAAGAAUAAGAGGA 20 25008CFTR-Intron10-6129 − AAAUUAGAAAGAAUAAGAGGA 21 25009 CFTR-Intron10-6130 −GAAAUUAGAAAGAAUAAGAGGA 22 25010 CFTR-Intron10-6131 −UGAAAUUAGAAAGAAUAAGAGGA 23 25011 CFTR-Intron10-6132 −AUGAAAUUAGAAAGAAUAAGAGGA 24 25012 CFTR-Intron10-6133 −AGAAAAAGAAAGAGAGGA 18 25013 CFTR-Intron10-6134 − CAGAAAAAGAAAGAGAGGA 1925014 CFTR-Intron10-1149 − ACAGAAAAAGAAAGAGAGGA 20 20034CFTR-Intron10-6135 − AACAGAAAAAGAAAGAGAGGA 21 25015 CFTR-Intron10-6136 −AAACAGAAAAAGAAAGAGAGGA 22 25016 CFTR-Intron10-6137 −CAAACAGAAAAAGAAAGAGAGGA 23 25017 CFTR-Intron10-6138 −ACAAACAGAAAAAGAAAGAGAGGA 24 25018 CFTR-Intron10-6139 −AGAAAGGAAGUAGGAGGA 18 25019 CFTR-Intron10-6140 − AAGAAAGGAAGUAGGAGGA 1925020 CFTR-Intron10-653 − GAAGAAAGGAAGUAGGAGGA 20 19539CFTR-Intron10-6141 − GGAAGAAAGGAAGUAGGAGGA 21 25021 CFTR-Intron10-6142 −AGGAAGAAAGGAAGUAGGAGGA 22 25022 CFTR-Intron10-6143 −GAGGAAGAAAGGAAGUAGGAGGA 23 25023 CFTR-Intron10-6144 −UGAGGAAGAAAGGAAGUAGGAGGA 24 25024 CFTR-Intron10-6145 −CUUUUAGUAGUAUUAGGA 18 25025 CFTR-Intron10-6146 − CCUUUUAGUAGUAUUAGGA 1925026 CFTR-Intron10-6147 − GCCUUUUAGUAGUAUUAGGA 20 25027CFTR-Intron10-6148 − UGCCUUUUAGUAGUAUUAGGA 21 25028 CFTR-Intron10-6149 −CUGCCUUUUAGUAGUAUUAGGA 22 25029 CFTR-Intron10-6150 −GCUGCCUUUUAGUAGUAUUAGGA 23 25030 CFTR-Intron10-6151 −GGCUGCCUUUUAGUAGUAUUAGGA 24 25031 CFTR-Intron10-6152 −GGAGAAACAGGUUUUGGA 18 25032 CFTR-Intron10-6153 − GGGAGAAACAGGUUUUGGA 1925033 CFTR-Intron10-1157 − UGGGAGAAACAGGUUUUGGA 20 20042CFTR-Intron10-6154 − AUGGGAGAAACAGGUUUUGGA 21 25034 CFTR-Intron10-6155 −AAUGGGAGAAACAGGUUUUGGA 22 25035 CFTR-Intron10-6156 −UAAUGGGAGAAACAGGUUUUGGA 23 25036 CFTR-Intron10-6157 −AUAAUGGGAGAAACAGGUUUUGGA 24 25037 CFTR-Intron10-6158 −AUCACUGGAUGCCCUUGA 18 25038 CFTR-Intron10-6159 − CAUCACUGGAUGCCCUUGA 1925039 CFTR-Intron10-6160 − GCAUCACUGGAUGCCCUUGA 20 25040CFTR-Intron10-6161 − UGCAUCACUGGAUGCCCUUGA 21 25041 CFTR-Intron10-6162 −UUGCAUCACUGGAUGCCCUUGA 22 25042 CFTR-Intron10-6163 −UUUGCAUCACUGGAUGCCCUUGA 23 25043 CFTR-Intron10-6164 −UUUUGCAUCACUGGAUGCCCUUGA 24 25044 CFTR-Intron10-6165 −AUUCAGGACAUGCUUUGA 18 25045 CFTR-Intron10-6166 − GAUUCAGGACAUGCUUUGA 1925046 CFTR-Intron10-1164 − AGAUUCAGGACAUGCUUUGA 20 20049CFTR-Intron10-6167 − CAGAUUCAGGACAUGCUUUGA 21 25047 CFTR-Intron10-6168 −UCAGAUUCAGGACAUGCUUUGA 22 25048 CFTR-Intron10-6169 −AUCAGAUUCAGGACAUGCUUUGA 23 25049 CFTR-Intron10-6170 −GAUCAGAUUCAGGACAUGCUUUGA 24 25050 CFTR-Intron10-6171 −CUGUCUAGCCUAGAAAUA 18 25051 CFTR-Intron10-6172 − ACUGUCUAGCCUAGAAAUA 1925052 CFTR-Intron10-6173 − AACUGUCUAGCCUAGAAAUA 20 25053CFTR-Intron10-6174 − AAACUGUCUAGCCUAGAAAUA 21 25054 CFTR-Intron10-6175 −CAAACUGUCUAGCCUAGAAAUA 22 25055 CFTR-Intron10-6176 −ACAAACUGUCUAGCCUAGAAAUA 23 25056 CFTR-Intron10-6177 −CACAAACUGUCUAGCCUAGAAAUA 24 25057 CFTR-Intron10-6178 −CCGGUGUCUUCUGAAAUA 18 25058 CFTR-Intron10-6179 − ACCGGUGUCUUCUGAAAUA 1925059 CFTR-Intron10-380 − AACCGGUGUCUUCUGAAAUA 20 19266CFTR-Intron10-6180 − UAACCGGUGUCUUCUGAAAUA 21 25060 CFTR-Intron10-6181 −UUAACCGGUGUCUUCUGAAAUA 22 25061 CFTR-Intron10-6182 −AUUAACCGGUGUCUUCUGAAAUA 23 25062 CFTR-Intron10-6183 −AAUUAACCGGUGUCUUCUGAAAUA 24 25063 CFTR-Intron10-6184 −AGUGAUCCUAGAAUCAUA 18 25064 CFTR-Intron10-6185 − AAGUGAUCCUAGAAUCAUA 1925065 CFTR-Intron10-6186 − AAAGUGAUCCUAGAAUCAUA 20 25066CFTR-Intron10-6187 − UAAAGUGAUCCUAGAAUCAUA 21 25067 CFTR-Intron10-6188 −AUAAAGUGAUCCUAGAAUCAUA 22 25068 CFTR-Intron10-6189 −UAUAAAGUGAUCCUAGAAUCAUA 23 25069 CFTR-Intron10-6190 −AUAUAAAGUGAUCCUAGAAUCAUA 24 25070 CFTR-Intron10-6191 −CCGUUUACUAGAAAGAUA 18 25071 CFTR-Intron10-6192 − GCCGUUUACUAGAAAGAUA 1925072 CFTR-Intron10-6193 − UGCCGUUUACUAGAAAGAUA 20 25073CFTR-Intron10-6194 − GUGCCGUUUACUAGAAAGAUA 21 25074 CFTR-Intron10-6195 −UGUGCCGUUUACUAGAAAGAUA 22 25075 CFTR-Intron10-6196 −AUGUGCCGUUUACUAGAAAGAUA 23 25076 CFTR-Intron10-6197 −AAUGUGCCGUUUACUAGAAAGAUA 24 25077 CFTR-Intron10-6198 −CUUGGUAUUUACCAUAUA 18 25078 CFTR-Intron10-6199 − GCUUGGUAUUUACCAUAUA 1925079 CFTR-Intron10-6200 − UGCUUGGUAUUUACCAUAUA 20 25080CFTR-Intron10-6201 − UUGCUUGGUAUUUACCAUAUA 21 25081 CFTR-Intron10-6202 −GUUGCUUGGUAUUUACCAUAUA 22 25082 CFTR-Intron10-6203 −AGUUGCUUGGUAUUUACCAUAUA 23 25083 CFTR-Intron10-6204 −GAGUUGCUUGGUAUUUACCAUAUA 24 25084 CFTR-Intron10-6205 −UUACACUCUAGCAUUAUA 18 25085 CFTR-Intron10-6206 − AUUACACUCUAGCAUUAUA 1925086 CFTR-Intron10-6207 − AAUUACACUCUAGCAUUAUA 20 25087CFTR-Intron10-6208 − UAAUUACACUCUAGCAUUAUA 21 25088 CFTR-Intron10-6209 −AUAAUUACACUCUAGCAUUAUA 22 25089 CFTR-Intron10-6210 −UAUAAUUACACUCUAGCAUUAUA 23 25090 CFTR-Intron10-6211 −UUAUAAUUACACUCUAGCAUUAUA 24 25091 CFTR-Intron10-6212 −AAAGUUUCUCAUCUUAUA 18 25092 CFTR-Intron10-6213 − AAAAGUUUCUCAUCUUAUA 1925093 CFTR-Intron10-1171 − AAAAAGUUUCUCAUCUUAUA 20 20056CFTR-Intron10-6214 − UAAAAAGUUUCUCAUCUUAUA 21 25094 CFTR-Intron10-6215 −UUAAAAAGUUUCUCAUCUUAUA 22 25095 CFTR-Intron10-6216 −UUUAAAAAGUUUCUCAUCUUAUA 23 25096 CFTR-Intron10-6217 −AUUUAAAAAGUUUCUCAUCUUAUA 24 25097 CFTR-Intron10-6218 −GUACAAAGGAAUUUUAUA 18 25098 CFTR-Intron10-6219 − UGUACAAAGGAAUUUUAUA 1925099 CFTR-Intron10-6220 − UUGUACAAAGGAAUUUUAUA 20 25100CFTR-Intron10-6221 − UUUGUACAAAGGAAUUUUAUA 21 25101 CFTR-Intron10-6222 −UUUUGUACAAAGGAAUUUUAUA 22 25102 CFTR-Intron10-6223 −AUUUUGUACAAAGGAAUUUUAUA 23 25103 CFTR-Intron10-6224 −AAUUUUGUACAAAGGAAUUUUAUA 24 25104 CFTR-Intron10-6225 −CUUGCUCUCUUUUAACUA 18 25105 CFTR-Intron10-6226 − ACUUGCUCUCUUUUAACUA 1925106 CFTR-Intron10-6227 − AACUUGCUCUCUUUUAACUA 20 25107CFTR-Intron10-6228 − AAACUUGCUCUCUUUUAACUA 21 25108 CFTR-Intron10-6229 −AAAACUUGCUCUCUUUUAACUA 22 25109 CFTR-Intron10-6230 −AAAAACUUGCUCUCUUUUAACUA 23 25110 CFTR-Intron10-6231 −UAAAAACUUGCUCUCUUUUAACUA 24 25111 CFTR-Intron10-6232 −UAUUAAAAAAUUAUACUA 18 25112 CFTR-Intron10-6233 − CUAUUAAAAAAUUAUACUA 1925113 CFTR-Intron10-6234 − ACUAUUAAAAAAUUAUACUA 20 25114CFTR-Intron10-6235 − CACUAUUAAAAAAUUAUACUA 21 25115 CFTR-Intron10-6236 −UCACUAUUAAAAAAUUAUACUA 22 25116 CFTR-Intron10-6237 −UUCACUAUUAAAAAAUUAUACUA 23 25117 CFTR-Intron10-6238 −GUUCACUAUUAAAAAAUUAUACUA 24 25118 CFTR-Intron10-6239 −UUGACCUAAGAUAUCCUA 18 25119 CFTR-Intron10-6240 − UUUGACCUAAGAUAUCCUA 1925120 CFTR-Intron10-387 − CUUUGACCUAAGAUAUCCUA 20 19273CFTR-Intron10-6241 − UCUUUGACCUAAGAUAUCCUA 21 25121 CFTR-Intron10-6242 −CUCUUUGACCUAAGAUAUCCUA 22 25122 CFTR-Intron10-6243 −CCUCUUUGACCUAAGAUAUCCUA 23 25123 CFTR-Intron10-6244 −UCCUCUUUGACCUAAGAUAUCCUA 24 25124 CFTR-Intron10-6245 −UAGUAUUAGAAUGGGCUA 18 25125 CFTR-Intron10-6246 − CUAGUAUUAGAAUGGGCUA 1925126 CFTR-Intron10-6247 − UCUAGUAUUAGAAUGGGCUA 20 25127CFTR-Intron10-6248 − UUCUAGUAUUAGAAUGGGCUA 21 25128 CFTR-Intron10-6249 −UUUCUAGUAUUAGAAUGGGCUA 22 25129 CFTR-Intron10-6250 −CUUUCUAGUAUUAGAAUGGGCUA 23 25130 CFTR-Intron10-6251 −GCUUUCUAGUAUUAGAAUGGGCUA 24 25131 CFTR-Intron10-6252 −GGGCUGGAUAAGAUUCUA 18 25132 CFTR-Intron10-6253 − GGGGCUGGAUAAGAUUCUA 1925133 CFTR-Intron10-6254 − UGGGGCUGGAUAAGAUUCUA 20 25134CFTR-Intron10-6255 − AUGGGGCUGGAUAAGAUUCUA 21 25135 CFTR-Intron10-6256 −GAUGGGGCUGGAUAAGAUUCUA 22 25136 CFTR-Intron10-6257 −AGAUGGGGCUGGAUAAGAUUCUA 23 25137 CFTR-Intron10-6258 −AAGAUGGGGCUGGAUAAGAUUCUA 24 25138 CFTR-Intron10-6259 −CUGGUUUGAAGAACAGUA 18 25139 CFTR-Intron10-6260 − UCUGGUUUGAAGAACAGUA 1925140 CFTR-Intron10-86 − GUCUGGUUUGAAGAACAGUA 20 18972CFTR-Intron10-6261 − UGUCUGGUUUGAAGAACAGUA 21 25141 CFTR-Intron10-6262 −CUGUCUGGUUUGAAGAACAGUA 22 25142 CFTR-Intron10-6263 −CCUGUCUGGUUUGAAGAACAGUA 23 25143 CFTR-Intron10-6264 −ACCUGUCUGGUUUGAAGAACAGUA 24 25144 CFTR-Intron10-6265 −CUGGCACCAUUCACAGUA 18 25145 CFTR-Intron10-6266 − CCUGGCACCAUUCACAGUA 1925146 CFTR-Intron10-6267 − ACCUGGCACCAUUCACAGUA 20 25147CFTR-Intron10-6268 − UACCUGGCACCAUUCACAGUA 21 25148 CFTR-Intron10-6269 −CUACCUGGCACCAUUCACAGUA 22 25149 CFTR-Intron10-6270 −CCUACCUGGCACCAUUCACAGUA 23 25150 CFTR-Intron10-6271 −CCCUACCUGGCACCAUUCACAGUA 24 25151 CFTR-Intron10-6272 −UUAAUGAAAGCAAUAGUA 18 25152 CFTR-Intron10-6273 − CUUAAUGAAAGCAAUAGUA 1925153 CFTR-Intron10-6274 − ACUUAAUGAAAGCAAUAGUA 20 25154CFTR-Intron10-6275 − GACUUAAUGAAAGCAAUAGUA 21 25155 CFTR-Intron10-6276 −UGACUUAAUGAAAGCAAUAGUA 22 25156 CFTR-Intron10-6277 −GUGACUUAAUGAAAGCAAUAGUA 23 25157 CFTR-Intron10-6278 −CGUGACUUAAUGAAAGCAAUAGUA 24 25158 CFTR-Intron10-6279 −GGCUUGAUCCAGGUAGUA 18 25159 CFTR-Intron10-6280 − UGGCUUGAUCCAGGUAGUA 1925160 CFTR-Intron10-6281 − GUGGCUUGAUCCAGGUAGUA 20 25161CFTR-Intron10-6282 − GGUGGCUUGAUCCAGGUAGUA 21 25162 CFTR-Intron10-6283 −UGGUGGCUUGAUCCAGGUAGUA 22 25163 CFTR-Intron10-6284 −AUGGUGGCUUGAUCCAGGUAGUA 23 25164 CFTR-Intron10-6285 −GAUGGUGGCUUGAUCCAGGUAGUA 24 25165 CFTR-Intron10-6286 −UUUUUAGGCUAUUCUGUA 18 25166 CFTR-Intron10-6287 − GUUUUUAGGCUAUUCUGUA 1925167 CFTR-Intron10-390 − UGUUUUUAGGCUAUUCUGUA 20 19276CFTR-Intron10-6288 − AUGUUUUUAGGCUAUUCUGUA 21 25168 CFTR-Intron10-6289 −AAUGUUUUUAGGCUAUUCUGUA 22 25169 CFTR-Intron10-6290 −UAAUGUUUUUAGGCUAUUCUGUA 23 25170 CFTR-Intron10-6291 −CUAAUGUUUUUAGGCUAUUCUGUA 24 25171 CFTR-Intron10-6292 −CACUUGACAGGUAUAUUA 18 25172 CFTR-Intron10-6293 − GCACUUGACAGGUAUAUUA 1925173 CFTR-Intron10-6294 − AGCACUUGACAGGUAUAUUA 20 25174CFTR-Intron10-6295 − UAGCACUUGACAGGUAUAUUA 21 25175 CFTR-Intron10-6296 −CUAGCACUUGACAGGUAUAUUA 22 25176 CFTR-Intron10-6297 −CCUAGCACUUGACAGGUAUAUUA 23 25177 CFTR-Intron10-6298 −GCCUAGCACUUGACAGGUAUAUUA 24 25178 CFTR-Intron10-6299 −GAGAUAACUCGUGACUUA 18 25179 CFTR-Intron10-6300 − GGAGAUAACUCGUGACUUA 1925180 CFTR-Intron10-6301 − CGGAGAUAACUCGUGACUUA 20 25181CFTR-Intron10-6302 − ACGGAGAUAACUCGUGACUUA 21 25182 CFTR-Intron10-6303 −UACGGAGAUAACUCGUGACUUA 22 25183 CFTR-Intron10-6304 −AUACGGAGAUAACUCGUGACUUA 23 25184 CFTR-Intron10-6305 −AAUACGGAGAUAACUCGUGACUUA 24 25185 CFTR-Intron10-6306 −UUUAUAAAAGAAACCUUA 18 25186 CFTR-Intron10-6307 − CUUUAUAAAAGAAACCUUA 1925187 CFTR-Intron10-6308 − UCUUUAUAAAAGAAACCUUA 20 25188CFTR-Intron10-6309 − GUCUUUAUAAAAGAAACCUUA 21 25189 CFTR-Intron10-6310 −UGUCUUUAUAAAAGAAACCUUA 22 25190 CFTR-Intron10-6311 −GUGUCUUUAUAAAAGAAACCUUA 23 25191 CFTR-Intron10-6312 −AGUGUCUUUAUAAAAGAAACCUUA 24 25192 CFTR-Intron10-6313 −AGAGACCCUCACACCUUA 18 25193 CFTR-Intron10-6314 − GAGAGACCCUCACACCUUA 1925194 CFTR-Intron10-6315 − AGAGAGACCCUCACACCUUA 20 25195CFTR-Intron10-6316 − UAGAGAGACCCUCACACCUUA 21 25196 CFTR-Intron10-6317 −UUAGAGAGACCCUCACACCUUA 22 25197 CFTR-Intron10-6318 −CUUAGAGAGACCCUCACACCUUA 23 25198 CFTR-Intron10-6319 −CCUUAGAGAGACCCUCACACCUUA 24 25199 CFTR-Intron10-6320 −AAAAAGUUUCUCAUCUUA 18 25200 CFTR-Intron10-6321 − UAAAAAGUUUCUCAUCUUA 1925201 CFTR-Intron10-6322 − UUAAAAAGUUUCUCAUCUUA 20 25202CFTR-Intron10-6323 − UUUAAAAAGUUUCUCAUCUUA 21 25203 CFTR-Intron10-6324 −AUUUAAAAAGUUUCUCAUCUUA 22 25204 CFTR-Intron10-6325 −AAUUUAAAAAGUUUCUCAUCUUA 23 25205 CFTR-Intron10-6326 −UAAUUUAAAAAGUUUCUCAUCUUA 24 25206 CFTR-Intron10-6327 −GCUAUGAAGGCAGAGUUA 18 25207 CFTR-Intron10-6328 − AGCUAUGAAGGCAGAGUUA 1925208 CFTR-Intron10-6329 − CAGCUAUGAAGGCAGAGUUA 20 25209CFTR-Intron10-6330 − GCAGCUAUGAAGGCAGAGUUA 21 25210 CFTR-Intron10-6331 −AGCAGCUAUGAAGGCAGAGUUA 22 25211 CFTR-Intron10-6332 −AAGCAGCUAUGAAGGCAGAGUUA 23 25212 CFTR-Intron10-6333 −AAAGCAGCUAUGAAGGCAGAGUUA 24 25213 CFTR-Intron10-6334 −UCUAAGUAUUAGAGGUUA 18 25214 CFTR-Intron10-6335 − UUCUAAGUAUUAGAGGUUA 1925215 CFTR-Intron10-397 − AUUCUAAGUAUUAGAGGUUA 20 19283CFTR-Intron10-6336 − CAUUCUAAGUAUUAGAGGUUA 21 25216 CFTR-Intron10-6337 −GCAUUCUAAGUAUUAGAGGUUA 22 25217 CFTR-Intron10-6338 −GGCAUUCUAAGUAUUAGAGGUUA 23 25218 CFTR-Intron10-6339 −GGGCAUUCUAAGUAUUAGAGGUUA 24 25219 CFTR-Intron10-6340 −CUGUAGGUAAAAAUGUUA 18 25220 CFTR-Intron10-6341 − GCUGUAGGUAAAAAUGUUA 1925221 CFTR-Intron10-6342 − UGCUGUAGGUAAAAAUGUUA 20 25222CFTR-Intron10-6343 − CUGCUGUAGGUAAAAAUGUUA 21 25223 CFTR-Intron10-6344 −GCUGCUGUAGGUAAAAAUGUUA 22 25224 CFTR-Intron10-6345 −UGCUGCUGUAGGUAAAAAUGUUA 23 25225 CFTR-Intron10-6346 −CUGCUGCUGUAGGUAAAAAUGUUA 24 25226 CFTR-Intron10-6347 −UAAGAAUUGUAAAAUUUA 18 25227 CFTR-Intron10-6348 − AUAAGAAUUGUAAAAUUUA 1925228 CFTR-Intron10-6349 − AAUAAGAAUUGUAAAAUUUA 20 25229CFTR-Intron10-6350 − UAAUAAGAAUUGUAAAAUUUA 21 25230 CFTR-Intron10-6351 −GUAAUAAGAAUUGUAAAAUUUA 22 25231 CFTR-Intron10-6352 −UGUAAUAAGAAUUGUAAAAUUUA 23 25232 CFTR-Intron10-6353 −AUGUAAUAAGAAUUGUAAAAUUUA 24 25233 CFTR-Intron10-6354 −CUUCCUUGAAUUAUUUUA 18 25234 CFTR-Intron10-6355 − ACUUCCUUGAAUUAUUUUA 1925235 CFTR-Intron10-6356 − AACUUCCUUGAAUUAUUUUA 20 25236CFTR-Intron10-6357 − AAACUUCCUUGAAUUAUUUUA 21 25237 CFTR-Intron10-6358 −GAAACUUCCUUGAAUUAUUUUA 22 25238 CFTR-Intron10-6359 −UGAAACUUCCUUGAAUUAUUUUA 23 25239 CFTR-Intron10-6360 −AUGAAACUUCCUUGAAUUAUUUUA 24 25240 CFTR-Intron10-6361 −UGUUAUAGCAGCCUGAAC 18 25241 CFTR-Intron10-6362 − UUGUUAUAGCAGCCUGAAC 1925242 CFTR-Intron10-6363 − UUUGUUAUAGCAGCCUGAAC 20 25243CFTR-Intron10-6364 − UUUUGUUAUAGCAGCCUGAAC 21 25244 CFTR-Intron10-6365 −AUUUUGUUAUAGCAGCCUGAAC 22 25245 CFTR-Intron10-6366 −UAUUUUGUUAUAGCAGCCUGAAC 23 25246 CFTR-Intron10-6367 −GUAUUUUGUUAUAGCAGCCUGAAC 24 25247 CFTR-Intron10-6368 −GCUUAUUCUUGUAAUAAC 18 25248 CFTR-Intron10-6369 − AGCUUAUUCUUGUAAUAAC 1925249 CFTR-Intron10-404 − UAGCUUAUUCUUGUAAUAAC 20 19290CFTR-Intron10-6370 − UUAGCUUAUUCUUGUAAUAAC 21 25250 CFTR-Intron10-6371 −UUUAGCUUAUUCUUGUAAUAAC 22 25251 CFTR-Intron10-6372 −UUUUAGCUUAUUCUUGUAAUAAC 23 25252 CFTR-Intron10-6373 −GUUUUAGCUUAUUCUUGUAAUAAC 24 25253 CFTR-Intron10-6374 −GGCCUGCAUAUGUCUAAC 18 25254 CFTR-Intron10-6375 − GGGCCUGCAUAUGUCUAAC 1925255 CFTR-Intron10-6376 − UGGGCCUGCAUAUGUCUAAC 20 25256CFTR-Intron10-6377 − UUGGGCCUGCAUAUGUCUAAC 21 25257 CFTR-Intron10-6378 −UUUGGGCCUGCAUAUGUCUAAC 22 25258 CFTR-Intron10-6379 −AUUUGGGCCUGCAUAUGUCUAAC 23 25259 CFTR-Intron10-6380 −UAUUUGGGCCUGCAUAUGUCUAAC 24 25260 CFTR-Intron10-6381 −CUUUCUGGACUGAGUAAC 18 25261 CFTR-Intron10-6382 − GCUUUCUGGACUGAGUAAC 1925262 CFTR-Intron10-1182 − AGCUUUCUGGACUGAGUAAC 20 20067CFTR-Intron10-6383 − AAGCUUUCUGGACUGAGUAAC 21 25263 CFTR-Intron10-6384 −CAAGCUUUCUGGACUGAGUAAC 22 25264 CFTR-Intron10-6385 −CCAAGCUUUCUGGACUGAGUAAC 23 25265 CFTR-Intron10-6386 −UCCAAGCUUUCUGGACUGAGUAAC 24 25266 CFTR-Intron10-6387 −UCAUUUCAACUUAUACAC 18 25267 CFTR-Intron10-6388 − AUCAUUUCAACUUAUACAC 1925268 CFTR-Intron10-407 − UAUCAUUUCAACUUAUACAC 20 19293CFTR-Intron10-6389 − AUAUCAUUUCAACUUAUACAC 21 25269 CFTR-Intron10-6390 −AAUAUCAUUUCAACUUAUACAC 22 25270 CFTR-Intron10-6391 −AAAUAUCAUUUCAACUUAUACAC 23 25271 CFTR-Intron10-6392 −AAAAUAUCAUUUCAACUUAUACAC 24 25272 CFTR-Intron10-6393 −GGUGAGAUUAGAGGCCAC 18 25273 CFTR-Intron10-6394 − GGGUGAGAUUAGAGGCCAC 1925274 CFTR-Intron10-409 − UGGGUGAGAUUAGAGGCCAC 20 19295CFTR-Intron10-6395 − CUGGGUGAGAUUAGAGGCCAC 21 25275 CFTR-Intron10-6396 −UCUGGGUGAGAUUAGAGGCCAC 22 25276 CFTR-Intron10-6397 −CUCUGGGUGAGAUUAGAGGCCAC 23 25277 CFTR-Intron10-6398 −UCUCUGGGUGAGAUUAGAGGCCAC 24 25278 CFTR-Intron10-6399 −CUGAGGUGGGAGGAUCAC 18 25279 CFTR-Intron10-6400 − GCUGAGGUGGGAGGAUCAC 1925280 CFTR-Intron10-6401 − GGCUGAGGUGGGAGGAUCAC 20 25281CFTR-Intron10-6402 − AGGCUGAGGUGGGAGGAUCAC 21 25282 CFTR-Intron10-6403 −GAGGCUGAGGUGGGAGGAUCAC 22 25283 CFTR-Intron10-6404 −GGAGGCUGAGGUGGGAGGAUCAC 23 25284 CFTR-Intron10-6405 −GGGAGGCUGAGGUGGGAGGAUCAC 24 25285 CFTR-Intron10-6406 −GUUUGUCUUUAAUUUCAC 18 25286 CFTR-Intron10-6407 − GGUUUGUCUUUAAUUUCAC 1925287 CFTR-Intron10-6408 − AGGUUUGUCUUUAAUUUCAC 20 25288CFTR-Intron10-6409 − UAGGUUUGUCUUUAAUUUCAC 21 25289 CFTR-Intron10-6410 −UUAGGUUUGUCUUUAAUUUCAC 22 25290 CFTR-Intron10-6411 −GUUAGGUUUGUCUUUAAUUUCAC 23 25291 CFTR-Intron10-6412 −AGUUAGGUUUGUCUUUAAUUUCAC 24 25292 CFTR-Intron10-6413 −GGAAAUAAAUUUAAAGAC 18 25293 CFTR-Intron10-6414 − AGGAAAUAAAUUUAAAGAC 1925294 CFTR-Intron10-6415 − GAGGAAAUAAAUUUAAAGAC 20 25295CFTR-Intron10-6416 − UGAGGAAAUAAAUUUAAAGAC 21 25296 CFTR-Intron10-6417 −UUGAGGAAAUAAAUUUAAAGAC 22 25297 CFTR-Intron10-6418 −AUUGAGGAAAUAAAUUUAAAGAC 23 25298 CFTR-Intron10-6419 −UAUUGAGGAAAUAAAUUUAAAGAC 24 25299 CFTR-Intron10-6420 −GCUGGCAUAGAGUAAGAC 18 25300 CFTR-Intron10-6421 − GGCUGGCAUAGAGUAAGAC 1925301 CFTR-Intron10-412 − AGGCUGGCAUAGAGUAAGAC 20 19298CFTR-Intron10-6422 − GAGGCUGGCAUAGAGUAAGAC 21 25302 CFTR-Intron10-6423 −UGAGGCUGGCAUAGAGUAAGAC 22 25303 CFTR-Intron10-6424 −CUGAGGCUGGCAUAGAGUAAGAC 23 25304 CFTR-Intron10-6425 −ACUGAGGCUGGCAUAGAGUAAGAC 24 25305 CFTR-Intron10-6426 −GCUAUUCUGUAGGGAGAC 18 25306 CFTR-Intron10-6427 − GGCUAUUCUGUAGGGAGAC 1925307 CFTR-Intron10-6428 − AGGCUAUUCUGUAGGGAGAC 20 25308CFTR-Intron10-6429 − UAGGCUAUUCUGUAGGGAGAC 21 25309 CFTR-Intron10-6430 −UUAGGCUAUUCUGUAGGGAGAC 22 25310 CFTR-Intron10-6431 −UUUAGGCUAUUCUGUAGGGAGAC 23 25311 CFTR-Intron10-6432 −UUUUAGGCUAUUCUGUAGGGAGAC 24 25312 CFTR-Intron10-6433 −AAGAAUUGAAUAUGAGAC 18 25313 CFTR-Intron10-6434 − GAAGAAUUGAAUAUGAGAC 1925314 CFTR-Intron10-6435 − UGAAGAAUUGAAUAUGAGAC 20 25315CFTR-Intron10-6436 − UUGAAGAAUUGAAUAUGAGAC 21 25316 CFTR-Intron10-6437 −UUUGAAGAAUUGAAUAUGAGAC 22 25317 CFTR-Intron10-6438 −UUUUGAAGAAUUGAAUAUGAGAC 23 25318 CFTR-Intron10-6439 −AUUUUGAAGAAUUGAAUAUGAGAC 24 25319 CFTR-Intron10-6440 −GCCCGUAGUCCCAGCUAC 18 25320 CFTR-Intron10-6441 − UGCCCGUAGUCCCAGCUAC 1925321 CFTR-Intron10-6442 − GUGCCCGUAGUCCCAGCUAC 20 25322CFTR-Intron10-6443 − GGUGCCCGUAGUCCCAGCUAC 21 25323 CFTR-Intron10-6444 −GGGUGCCCGUAGUCCCAGCUAC 22 25324 CFTR-Intron10-6445 −CGGGUGCCCGUAGUCCCAGCUAC 23 25325 CFTR-Intron10-6446 −GCGGGUGCCCGUAGUCCCAGCUAC 24 25326 CFTR-Intron10-6447 −UGUGCCUGUAGUCCCAGCUAC 21 25327 CFTR-Intron10-6448 −GUGUGCCUGUAGUCCCAGCUAC 22 25328 CFTR-Intron10-6449 −UGUGUGCCUGUAGUCCCAGCUAC 23 25329 CFTR-Intron10-6450 −GUGUGUGCCUGUAGUCCCAGCUAC 24 25330 CFTR-Intron10-6451 −GAAAAGUUGUAACAGUAC 18 25331 CFTR-Intron10-6452 − GGAAAAGUUGUAACAGUAC 1925332 CFTR-Intron10-6453 − CGGAAAAGUUGUAACAGUAC 20 25333CFTR-Intron10-6454 − ACGGAAAAGUUGUAACAGUAC 21 25334 CFTR-Intron10-6455 −CACGGAAAAGUUGUAACAGUAC 22 25335 CFTR-Intron10-6456 −GCACGGAAAAGUUGUAACAGUAC 23 25336 CFTR-Intron10-6457 −UGCACGGAAAAGUUGUAACAGUAC 24 25337 CFTR-Intron10-6458 −GAUAAAUGUGCCGUUUAC 18 25338 CFTR-Intron10-6459 − GGAUAAAUGUGCCGUUUAC 1925339 CFTR-Intron10-6460 − AGGAUAAAUGUGCCGUUUAC 20 25340CFTR-Intron10-6461 − AAGGAUAAAUGUGCCGUUUAC 21 25341 CFTR-Intron10-6462 −GAAGGAUAAAUGUGCCGUUUAC 22 25342 CFTR-Intron10-6463 −GGAAGGAUAAAUGUGCCGUUUAC 23 25343 CFTR-Intron10-6464 −UGGAAGGAUAAAUGUGCCGUUUAC 24 25344 CFTR-Intron10-6465 −UCAUAGCUCACUGUAACC 18 25345 CFTR-Intron10-6466 − AUCAUAGCUCACUGUAACC 1925346 CFTR-Intron10-6467 − GAUCAUAGCUCACUGUAACC 20 25347CFTR-Intron10-6468 − UGAUCAUAGCUCACUGUAACC 21 25348 CFTR-Intron10-6469 −GUGAUCAUAGCUCACUGUAACC 22 25349 CFTR-Intron10-6470 −UGUGAUCAUAGCUCACUGUAACC 23 25350 CFTR-Intron10-6471 −GUGUGAUCAUAGCUCACUGUAACC 24 25351 CFTR-Intron10-6472 −GUCUAGCCUAGAAAUACC 18 25352 CFTR-Intron10-6473 − UGUCUAGCCUAGAAAUACC 1925353 CFTR-Intron10-6474 − CUGUCUAGCCUAGAAAUACC 20 25354CFTR-Intron10-6475 − ACUGUCUAGCCUAGAAAUACC 21 25355 CFTR-Intron10-6476 −AACUGUCUAGCCUAGAAAUACC 22 25356 CFTR-Intron10-6477 −AAACUGUCUAGCCUAGAAAUACC 23 25357 CFTR-Intron10-6478 −CAAACUGUCUAGCCUAGAAAUACC 24 25358 CFTR-Intron10-6479 −GAGGAAGGCAGUGGUCCC 18 25359 CFTR-Intron10-6480 − AGAGGAAGGCAGUGGUCCC 1925360 CFTR-Intron10-6481 − UAGAGGAAGGCAGUGGUCCC 20 25361CFTR-Intron10-6482 − UUAGAGGAAGGCAGUGGUCCC 21 25362 CFTR-Intron10-6483 −GUUAGAGGAAGGCAGUGGUCCC 22 25363 CFTR-Intron10-6484 −AGUUAGAGGAAGGCAGUGGUCCC 23 25364 CFTR-Intron10-6485 −GAGUUAGAGGAAGGCAGUGGUCCC 24 25365 CFTR-Intron10-6486 −CUCACAAACUGUCUAGCC 18 25366 CFTR-Intron10-6487 − ACUCACAAACUGUCUAGCC 1925367 CFTR-Intron10-6488 − AACUCACAAACUGUCUAGCC 20 25368CFTR-Intron10-6489 − AAACUCACAAACUGUCUAGCC 21 25369 CFTR-Intron10-6490 −AAAACUCACAAACUGUCUAGCC 22 25370 CFTR-Intron10-6491 −AAAAACUCACAAACUGUCUAGCC 23 25371 CFTR-Intron10-6492 −AAAAAACUCACAAACUGUCUAGCC 24 25372 CFTR-Intron10-6493 −UGAAUGAAUGUGGUAUCC 18 25373 CFTR-Intron10-6494 − GUGAAUGAAUGUGGUAUCC 1925374 CFTR-Intron10-425 − AGUGAAUGAAUGUGGUAUCC 20 19311CFTR-Intron10-6495 − UAGUGAAUGAAUGUGGUAUCC 21 25375 CFTR-Intron10-6496 −CUAGUGAAUGAAUGUGGUAUCC 22 25376 CFTR-Intron10-6497 −GCUAGUGAAUGAAUGUGGUAUCC 23 25377 CFTR-Intron10-6498 −AGCUAGUGAAUGAAUGUGGUAUCC 24 25378 CFTR-Intron10-6499 −UUGGGAGGUGAUUAGUCC 18 25379 CFTR-Intron10-6500 − UUUGGGAGGUGAUUAGUCC 1925380 CFTR-Intron10-6501 − CUUUGGGAGGUGAUUAGUCC 20 25381CFTR-Intron10-6502 − CCUUUGGGAGGUGAUUAGUCC 21 25382 CFTR-Intron10-6503 −GCCUUUGGGAGGUGAUUAGUCC 22 25383 CFTR-Intron10-6504 −GGCCUUUGGGAGGUGAUUAGUCC 23 25384 CFTR-Intron10-6505 −GGGCCUUUGGGAGGUGAUUAGUCC 24 25385 CFTR-Intron10-6506 −UCUUUAUUUUUAUAUUCC 18 25386 CFTR-Intron10-6507 − UUCUUUAUUUUUAUAUUCC 1925387 CFTR-Intron10-6508 − CUUCUUUAUUUUUAUAUUCC 20 25388CFTR-Intron10-6509 − UCUUCUUUAUUUUUAUAUUCC 21 25389 CFTR-Intron10-6510 −GUCUUCUUUAUUUUUAUAUUCC 22 25390 CFTR-Intron10-6511 −UGUCUUCUUUAUUUUUAUAUUCC 23 25391 CFTR-Intron10-6512 −AUGUCUUCUUUAUUUUUAUAUUCC 24 25392 CFTR-Intron10-6513 −GUUGUCAAAUGUCCUUCC 18 25393 CFTR-Intron10-6514 − UGUUGUCAAAUGUCCUUCC 1925394 CFTR-Intron10-6515 − AUGUUGUCAAAUGUCCUUCC 20 25395CFTR-Intron10-6516 − GAUGUUGUCAAAUGUCCUUCC 21 25396 CFTR-Intron10-6517 −AGAUGUUGUCAAAUGUCCUUCC 22 25397 CFTR-Intron10-6518 −UAGAUGUUGUCAAAUGUCCUUCC 23 25398 CFTR-Intron10-6519 −GUAGAUGUUGUCAAAUGUCCUUCC 24 25399 CFTR-Intron10-6520 −CUUUUUUUAGUAUCUUCC 18 25400 CFTR-Intron10-6521 − ACUUUUUUUAGUAUCUUCC 1925401 CFTR-Intron10-6522 − AACUUUUUUUAGUAUCUUCC 20 25402CFTR-Intron10-6523 − UAACUUUUUUUAGUAUCUUCC 21 25403 CFTR-Intron10-6524 −GUAACUUUUUUUAGUAUCUUCC 22 25404 CFTR-Intron10-6525 −GGUAACUUUUUUUAGUAUCUUCC 23 25405 CFTR-Intron10-6526 −AGGUAACUUUUUUUAGUAUCUUCC 24 25406 CFTR-Intron10-6527 −GGAGACAAGGGAGGAAGC 18 25407 CFTR-Intron10-6528 − GGGAGACAAGGGAGGAAGC 1925408 CFTR-Intron10-6529 − AGGGAGACAAGGGAGGAAGC 20 25409CFTR-Intron10-6530 − UAGGGAGACAAGGGAGGAAGC 21 25410 CFTR-Intron10-6531 −GUAGGGAGACAAGGGAGGAAGC 22 25411 CFTR-Intron10-6532 −UGUAGGGAGACAAGGGAGGAAGC 23 25412 CFTR-Intron10-6533 −CUGUAGGGAGACAAGGGAGGAAGC 24 25413 CFTR-Intron10-6534 −GCCAUGUGAGAACACAGC 18 25414 CFTR-Intron10-6535 − UGCCAUGUGAGAACACAGC 1925415 CFTR-Intron10-1218 − CUGCCAUGUGAGAACACAGC 20 20103CFTR-Intron10-6536 − UCUGCCAUGUGAGAACACAGC 21 25416 CFTR-Intron10-6537 −UUCUGCCAUGUGAGAACACAGC 22 25417 CFTR-Intron10-6538 −UUUCUGCCAUGUGAGAACACAGC 23 25418 CFTR-Intron10-6539 −CUUUCUGCCAUGUGAGAACACAGC 24 25419 CFTR-Intron10-6540 −CAGGAGUUUGAGACCAGC 18 25420 CFTR-Intron10-6541 − CCAGGAGUUUGAGACCAGC 1925421 CFTR-Intron10-6542 − UCCAGGAGUUUGAGACCAGC 20 25422CFTR-Intron10-6543 − GUCCAGGAGUUUGAGACCAGC 21 25423 CFTR-Intron10-6544 −AGUCCAGGAGUUUGAGACCAGC 22 25424 CFTR-Intron10-6545 −GAGUCCAGGAGUUUGAGACCAGC 23 25425 CFTR-Intron10-6546 −UGAGUCCAGGAGUUUGAGACCAGC 24 25426 CFTR-Intron10-6547 −GUAUUUUGUUAUAGCAGC 18 25427 CFTR-Intron10-6548 − GGUAUUUUGUUAUAGCAGC 1925428 CFTR-Intron10-6549 − UGGUAUUUUGUUAUAGCAGC 20 25429CFTR-Intron10-6550 − AUGGUAUUUUGUUAUAGCAGC 21 25430 CFTR-Intron10-6551 −CAUGGUAUUUUGUUAUAGCAGC 22 25431 CFTR-Intron10-6552 −UCAUGGUAUUUUGUUAUAGCAGC 23 25432 CFTR-Intron10-6553 −UUCAUGGUAUUUUGUUAUAGCAGC 24 25433 CFTR-Intron10-6554 −UGGGAGGAUCACCUGAGC 18 25434 CFTR-Intron10-6555 − GUGGGAGGAUCACCUGAGC 1925435 CFTR-Intron10-6556 − GGUGGGAGGAUCACCUGAGC 20 25436CFTR-Intron10-6557 − AGGUGGGAGGAUCACCUGAGC 21 25437 CFTR-Intron10-6558 −GAGGUGGGAGGAUCACCUGAGC 22 25438 CFTR-Intron10-6559 −UGAGGUGGGAGGAUCACCUGAGC 23 25439 CFTR-Intron10-6560 −CUGAGGUGGGAGGAUCACCUGAGC 24 25440 CFTR-Intron10-6561 −CUCACCCUCCCAAGUAGC 18 25441 CFTR-Intron10-6562 − CCUCACCCUCCCAAGUAGC 1925442 CFTR-Intron10-672 − GCCUCACCCUCCCAAGUAGC 20 19558CFTR-Intron10-6563 − UGCCUCACCCUCCCAAGUAGC 21 25443 CFTR-Intron10-6564 −CUGCCUCACCCUCCCAAGUAGC 22 25444 CFTR-Intron10-6565 −CCUGCCUCACCCUCCCAAGUAGC 23 25445 CFTR-Intron10-6566 −UCCUGCCUCACCCUCCCAAGUAGC 24 25446 CFTR-Intron10-6567 −CUCAGCCUCCCAAGUAGC 18 25447 CFTR-Intron10-6568 − CCUCAGCCUCCCAAGUAGC 1925448 CFTR-Intron10-673 − GCCUCAGCCUCCCAAGUAGC 20 19559CFTR-Intron10-6569 − UGCCUCAGCCUCCCAAGUAGC 21 25449 CFTR-Intron10-6570 −CUGCCUCAGCCUCCCAAGUAGC 22 25450 CFTR-Intron10-6571 −CCUGCCUCAGCCUCCCAAGUAGC 23 25451 CFTR-Intron10-6572 −UCCUGCCUCAGCCUCCCAAGUAGC 24 25452 CFTR-Intron10-6573 −CCCUUAAACAAUACAGGC 18 25453 CFTR-Intron10-6574 − ACCCUUAAACAAUACAGGC 1925454 CFTR-Intron10-6575 − GACCCUUAAACAAUACAGGC 20 25455CFTR-Intron10-6576 − UGACCCUUAAACAAUACAGGC 21 25456 CFTR-Intron10-6577 −UUGACCCUUAAACAAUACAGGC 22 25457 CFTR-Intron10-6578 −AUUGACCCUUAAACAAUACAGGC 23 25458 CFTR-Intron10-6579 −AAUUGACCCUUAAACAAUACAGGC 24 25459 CFTR-Intron10-6580 −AGUGCUGGGAUUACAGGC 18 25460 CFTR-Intron10-6581 − AAGUGCUGGGAUUACAGGC 1925461 CFTR-Intron10-6582 − AAAGUGCUGGGAUUACAGGC 20 25462CFTR-Intron10-6583 − CAAAGUGCUGGGAUUACAGGC 21 25463 CFTR-Intron10-6584 −CCAAAGUGCUGGGAUUACAGGC 22 25464 CFTR-Intron10-6585 −CCCAAAGUGCUGGGAUUACAGGC 23 25465 CFTR-Intron10-6586 −UCCCAAAGUGCUGGGAUUACAGGC 24 25466 CFTR-Intron10-6587 −AGUGUUGGGAUUACAGGC 18 25467 CFTR-Intron10-6588 − AAGUGUUGGGAUUACAGGC 1925468 CFTR-Intron10-6589 − AAAGUGUUGGGAUUACAGGC 20 25469CFTR-Intron10-6590 − CAAAGUGUUGGGAUUACAGGC 21 25470 CFTR-Intron10-6591 −CCAAAGUGUUGGGAUUACAGGC 22 25471 CFTR-Intron10-6592 −CCCAAAGUGUUGGGAUUACAGGC 23 25472 CFTR-Intron10-6593 −UCCCAAAGUGUUGGGAUUACAGGC 24 25473 CFTR-Intron10-6594 −GUCUUACUGUCACCAGGC 18 25474 CFTR-Intron10-6595 − AGUCUUACUGUCACCAGGC 1925475 CFTR-Intron10-677 − GAGUCUUACUGUCACCAGGC 20 19563CFTR-Intron10-6596 − AGAGUCUUACUGUCACCAGGC 21 25476 CFTR-Intron10-6597 −CAGAGUCUUACUGUCACCAGGC 22 25477 CFTR-Intron10-6598 −ACAGAGUCUUACUGUCACCAGGC 23 25478 CFTR-Intron10-6599 −GACAGAGUCUUACUGUCACCAGGC 24 25479 CFTR-Intron10-6600 −UACUCGGGAGGCUGAGGC 18 25480 CFTR-Intron10-6601 − CUACUCGGGAGGCUGAGGC 1925481 CFTR-Intron10-680 − GCUACUCGGGAGGCUGAGGC 20 19566CFTR-Intron10-6602 − AGCUACUCGGGAGGCUGAGGC 21 25482 CFTR-Intron10-6603 −CAGCUACUCGGGAGGCUGAGGC 22 25483 CFTR-Intron10-6604 −CCAGCUACUCGGGAGGCUGAGGC 23 25484 CFTR-Intron10-6605 −CCCAGCUACUCGGGAGGCUGAGGC 24 25485 CFTR-Intron10-6606 −AGUGCUGGGUUUAUAGGC 18 25486 CFTR-Intron10-6607 − AAGUGCUGGGUUUAUAGGC 1925487 CFTR-Intron10-6608 − AAAGUGCUGGGUUUAUAGGC 20 25488CFTR-Intron10-6609 − CAAAGUGCUGGGUUUAUAGGC 21 25489 CFTR-Intron10-6610 −CCAAAGUGCUGGGUUUAUAGGC 22 25490 CFTR-Intron10-6611 −CCCAAAGUGCUGGGUUUAUAGGC 23 25491 CFTR-Intron10-6612 −UCCCAAAGUGCUGGGUUUAUAGGC 24 25492 CFTR-Intron10-6613 −AAGUGCCACUAGUGAUGC 18 25493 CFTR-Intron10-6614 − AAAGUGCCACUAGUGAUGC 1925494 CFTR-Intron10-6615 − CAAAGUGCCACUAGUGAUGC 20 25495CFTR-Intron10-6616 − ACAAAGUGCCACUAGUGAUGC 21 25496 CFTR-Intron10-6617 −UACAAAGUGCCACUAGUGAUGC 22 25497 CFTR-Intron10-6618 −AUACAAAGUGCCACUAGUGAUGC 23 25498 CFTR-Intron10-6619 −CAUACAAAGUGCCACUAGUGAUGC 24 25499 CFTR-Intron10-6620 −UCAAAUUAUUUCUACUGC 18 25500 CFTR-Intron10-6621 − UUCAAAUUAUUUCUACUGC 1925501 CFTR-Intron10-6622 − GUUCAAAUUAUUUCUACUGC 20 25502CFTR-Intron10-6623 − UGUUCAAAUUAUUUCUACUGC 21 25503 CFTR-Intron10-6624 −UUGUUCAAAUUAUUUCUACUGC 22 25504 CFTR-Intron10-6625 −GUUGUUCAAAUUAUUUCUACUGC 23 25505 CFTR-Intron10-6626 −UGUUGUUCAAAUUAUUUCUACUGC 24 25506 CFTR-Intron10-6627 −AUUUGAACAAAGACUUGC 18 25507 CFTR-Intron10-6628 − CAUUUGAACAAAGACUUGC 1925508 CFTR-Intron10-1236 − ACAUUUGAACAAAGACUUGC 20 20121CFTR-Intron10-6629 − AACAUUUGAACAAAGACUUGC 21 25509 CFTR-Intron10-6630 −UAACAUUUGAACAAAGACUUGC 22 25510 CFTR-Intron10-6631 −GUAACAUUUGAACAAAGACUUGC 23 25511 CFTR-Intron10-6632 −GGUAACAUUUGAACAAAGACUUGC 24 25512 CFTR-Intron10-6633 −GAGUUUACUAACUCAAUC 18 25513 CFTR-Intron10-6634 − GGAGUUUACUAACUCAAUC 1925514 CFTR-Intron10-6635 − CGGAGUUUACUAACUCAAUC 20 25515CFTR-Intron10-6636 − ACGGAGUUUACUAACUCAAUC 21 25516 CFTR-Intron10-6637 −AACGGAGUUUACUAACUCAAUC 22 25517 CFTR-Intron10-6638 −AAACGGAGUUUACUAACUCAAUC 23 25518 CFTR-Intron10-6639 −GAAACGGAGUUUACUAACUCAAUC 24 25519 CFTR-Intron10-6640 −UCUGCUGGCACCUUGAUC 18 25520 CFTR-Intron10-6641 − AUCUGCUGGCACCUUGAUC 1925521 CFTR-Intron10-6642 − AAUCUGCUGGCACCUUGAUC 20 25522CFTR-Intron10-6643 − AAAUCUGCUGGCACCUUGAUC 21 25523 CFTR-Intron10-6644 −CAAAUCUGCUGGCACCUUGAUC 22 25524 CFTR-Intron10-6645 −CCAAAUCUGCUGGCACCUUGAUC 23 25525 CFTR-Intron10-6646 −CCCAAAUCUGCUGGCACCUUGAUC 24 25526 CFTR-Intron10-6647 −CUUGCUUUUCCCACUAUC 18 25527 CFTR-Intron10-6648 − UCUUGCUUUUCCCACUAUC 1925528 CFTR-Intron10-6649 − UUCUUGCUUUUCCCACUAUC 20 25529CFTR-Intron10-6650 − CUUCUUGCUUUUCCCACUAUC 21 25530 CFTR-Intron10-6651 −GCUUCUUGCUUUUCCCACUAUC 22 25531 CFTR-Intron10-6652 −UGCUUCUUGCUUUUCCCACUAUC 23 25532 CFTR-Intron10-6653 −UUGCUUCUUGCUUUUCCCACUAUC 24 25533 CFTR-Intron10-6654 −GUGAAUGAAUGUGGUAUC 18 25534 CFTR-Intron10-6655 − AGUGAAUGAAUGUGGUAUC 1925535 CFTR-Intron10-6656 − UAGUGAAUGAAUGUGGUAUC 20 25536CFTR-Intron10-6657 − CUAGUGAAUGAAUGUGGUAUC 21 25537 CFTR-Intron10-6658 −GCUAGUGAAUGAAUGUGGUAUC 22 25538 CFTR-Intron10-6659 −AGCUAGUGAAUGAAUGUGGUAUC 23 25539 CFTR-Intron10-6660 −AAGCUAGUGAAUGAAUGUGGUAUC 24 25540 CFTR-Intron10-6661 −CACUGUAACCUUGAACUC 18 25541 CFTR-Intron10-6662 − UCACUGUAACCUUGAACUC 1925542 CFTR-Intron10-6663 − CUCACUGUAACCUUGAACUC 20 25543CFTR-Intron10-6664 − GCUCACUGUAACCUUGAACUC 21 25544 CFTR-Intron10-6665 −AGCUCACUGUAACCUUGAACUC 22 25545 CFTR-Intron10-6666 −UAGCUCACUGUAACCUUGAACUC 23 25546 CFTR-Intron10-6667 −AUAGCUCACUGUAACCUUGAACUC 24 25547 CFTR-Intron10-6668 −AGAAAUUAAGAAAGACUC 18 25548 CFTR-Intron10-6669 − UAGAAAUUAAGAAAGACUC 1925549 CFTR-Intron10-6670 − AUAGAAAUUAAGAAAGACUC 20 25550CFTR-Intron10-6671 − AAUAGAAAUUAAGAAAGACUC 21 25551 CFTR-Intron10-6672 −AAAUAGAAAUUAAGAAAGACUC 22 25552 CFTR-Intron10-6673 −AAAAUAGAAAUUAAGAAAGACUC 23 25553 CFTR-Intron10-6674 −GAAAAUAGAAAUUAAGAAAGACUC 24 25554 CFTR-Intron10-6675 −AUUAGGGAAUGCAGACUC 18 25555 CFTR-Intron10-6676 − GAUUAGGGAAUGCAGACUC 1925556 CFTR-Intron10-92 − GGAUUAGGGAAUGCAGACUC 20 18978CFTR-Intron10-6677 − GGGAUUAGGGAAUGCAGACUC 21 25557 CFTR-Intron10-6678 −AGGGAUUAGGGAAUGCAGACUC 22 25558 CFTR-Intron10-6679 −GAGGGAUUAGGGAAUGCAGACUC 23 25559 CFTR-Intron10-6680 −UGAGGGAUUAGGGAAUGCAGACUC 24 25560 CFTR-Intron10-6681 −UAUUCUUUUGAUAUACUC 18 25561 CFTR-Intron10-6682 − UUAUUCUUUUGAUAUACUC 1925562 CFTR-Intron10-6683 − CUUAUUCUUUUGAUAUACUC 20 25563CFTR-Intron10-6684 − CCUUAUUCUUUUGAUAUACUC 21 25564 CFTR-Intron10-6685 −GCCUUAUUCUUUUGAUAUACUC 22 25565 CFTR-Intron10-6686 −UGCCUUAUUCUUUUGAUAUACUC 23 25566 CFTR-Intron10-6687 −AUGCCUUAUUCUUUUGAUAUACUC 24 25567 CFTR-Intron10-6688 −CCGUAGUCCCAGCUACUC 18 25568 CFTR-Intron10-6689 − CCCGUAGUCCCAGCUACUC 1925569 CFTR-Intron10-687 − GCCCGUAGUCCCAGCUACUC 20 19573CFTR-Intron10-6690 − UGCCCGUAGUCCCAGCUACUC 21 25570 CFTR-Intron10-6691 −GUGCCCGUAGUCCCAGCUACUC 22 25571 CFTR-Intron10-6692 −GGUGCCCGUAGUCCCAGCUACUC 23 25572 CFTR-Intron10-6693 −GGGUGCCCGUAGUCCCAGCUACUC 24 25573 CFTR-Intron10-6694 −CUUGGACUUCCCAGCCUC 18 25574 CFTR-Intron10-6695 − UCUUGGACUUCCCAGCCUC 1925575 CFTR-Intron10-6696 − AUCUUGGACUUCCCAGCCUC 20 25576CFTR-Intron10-6697 − GAUCUUGGACUUCCCAGCCUC 21 25577 CFTR-Intron10-6698 −UGAUCUUGGACUUCCCAGCCUC 22 25578 CFTR-Intron10-6699 −UUGAUCUUGGACUUCCCAGCCUC 23 25579 CFTR-Intron10-6700 −CUUGAUCUUGGACUUCCCAGCCUC 24 25580 CFTR-Intron10-6701 −CACUGCAACCUCUGCCUC 18 25581 CFTR-Intron10-6702 − UCACUGCAACCUCUGCCUC 1925582 CFTR-Intron10-6703 − CUCACUGCAACCUCUGCCUC 20 25583CFTR-Intron10-6704 − GCUCACUGCAACCUCUGCCUC 21 25584 CFTR-Intron10-6705 −GGCUCACUGCAACCUCUGCCUC 22 25585 CFTR-Intron10-6706 −CGGCUCACUGCAACCUCUGCCUC 23 25586 CFTR-Intron10-6707 −UCGGCUCACUGCAACCUCUGCCUC 24 25587 CFTR-Intron10-6708 −AAAAAGUUUAGUGGUCUC 18 25588 CFTR-Intron10-6709 − GAAAAAGUUUAGUGGUCUC 1925589 CFTR-Intron10-6710 − AGAAAAAGUUUAGUGGUCUC 20 25590CFTR-Intron10-6711 − GAGAAAAAGUUUAGUGGUCUC 21 25591 CFTR-Intron10-6712 −UGAGAAAAAGUUUAGUGGUCUC 22 25592 CFTR-Intron10-6713 −GUGAGAAAAAGUUUAGUGGUCUC 23 25593 CFTR-Intron10-6714 −UGUGAGAAAAAGUUUAGUGGUCUC 24 25594 CFTR-Intron10-6715 −AGGUGAAUUGCUUGAGUC 18 25595 CFTR-Intron10-6716 − CAGGUGAAUUGCUUGAGUC 1925596 CFTR-Intron10-6717 − GCAGGUGAAUUGCUUGAGUC 20 25597CFTR-Intron10-6718 − GGCAGGUGAAUUGCUUGAGUC 21 25598 CFTR-Intron10-6719 −AGGCAGGUGAAUUGCUUGAGUC 22 25599 CFTR-Intron10-6720 −GAGGCAGGUGAAUUGCUUGAGUC 23 25600 CFTR-Intron10-6721 −AGAGGCAGGUGAAUUGCUUGAGUC 24 25601 CFTR-Intron10-6722 −UAUGUAUAUAUGUGUGUC 18 25602 CFTR-Intron10-6723 − GUAUGUAUAUAUGUGUGUC 1925603 CFTR-Intron10-1242 − UGUAUGUAUAUAUGUGUGUC 20 20127CFTR-Intron10-6724 − AUGUAUGUAUAUAUGUGUGUC 21 25604 CFTR-Intron10-6725 −UAUGUAUGUAUAUAUGUGUGUC 22 25605 CFTR-Intron10-6726 −AUAUGUAUGUAUAUAUGUGUGUC 23 25606 CFTR-Intron10-6727 −CAUAUGUAUGUAUAUAUGUGUGUC 24 25607 CFTR-Intron10-6728 −GACCAAAACUUUAUUGUC 18 25608 CFTR-Intron10-6729 − GGACCAAAACUUUAUUGUC 1925609 CFTR-Intron10-440 − AGGACCAAAACUUUAUUGUC 20 19326CFTR-Intron10-6730 − AAGGACCAAAACUUUAUUGUC 21 25610 CFTR-Intron10-6731 −AAAGGACCAAAACUUUAUUGUC 22 25611 CFTR-Intron10-6732 −AAAAGGACCAAAACUUUAUUGUC 23 25612 CFTR-Intron10-6733 −CAAAAGGACCAAAACUUUAUUGUC 24 25613 CFTR-Intron10-6734 −CAUUAUAACACUGCUUUC 18 25614 CFTR-Intron10-6735 − UCAUUAUAACACUGCUUUC 1925615 CFTR-Intron10-1247 − UUCAUUAUAACACUGCUUUC 20 20132CFTR-Intron10-6736 − CUUCAUUAUAACACUGCUUUC 21 25616 CFTR-Intron10-6737 −UCUUCAUUAUAACACUGCUUUC 22 25617 CFTR-Intron10-6738 −CUCUUCAUUAUAACACUGCUUUC 23 25618 CFTR-Intron10-6739 −GCUCUUCAUUAUAACACUGCUUUC 24 25619 CFTR-Intron10-6740 −AUGUACAAGUCUAGUUUC 18 25620 CFTR-Intron10-6741 − GAUGUACAAGUCUAGUUUC 1925621 CFTR-Intron10-6742 − GGAUGUACAAGUCUAGUUUC 20 25622CFTR-Intron10-6743 − UGGAUGUACAAGUCUAGUUUC 21 25623 CFTR-Intron10-6744 −UUGGAUGUACAAGUCUAGUUUC 22 25624 CFTR-Intron10-6745 −GUUGGAUGUACAAGUCUAGUUUC 23 25625 CFTR-Intron10-6746 −AGUUGGAUGUACAAGUCUAGUUUC 24 25626 CFTR-Intron10-6747 −GGAAAAUUUAACAUUUUC 18 25627 CFTR-Intron10-6748 − GGGAAAAUUUAACAUUUUC 1925628 CFTR-Intron10-6749 − AGGGAAAAUUUAACAUUUUC 20 25629CFTR-Intron10-6750 − AAGGGAAAAUUUAACAUUUUC 21 25630 CFTR-Intron10-6751 −UAAGGGAAAAUUUAACAUUUUC 22 25631 CFTR-Intron10-6752 −CUAAGGGAAAAUUUAACAUUUUC 23 25632 CFTR-Intron10-6753 −CCUAAGGGAAAAUUUAACAUUUUC 24 25633 CFTR-Intron10-6754 −UUCCAUUACAUUGUUUUC 18 25634 CFTR-Intron10-6755 − UUUCCAUUACAUUGUUUUC 1925635 CFTR-Intron10-6756 − GUUUCCAUUACAUUGUUUUC 20 25636CFTR-Intron10-6757 − UGUUUCCAUUACAUUGUUUUC 21 25637 CFTR-Intron10-6758 −GUGUUUCCAUUACAUUGUUUUC 22 25638 CFTR-Intron10-6759 −AGUGUUUCCAUUACAUUGUUUUC 23 25639 CFTR-Intron10-6760 −UAGUGUUUCCAUUACAUUGUUUUC 24 25640 CFTR-Intron10-6761 −AUUAAAAUAUAUAAAAAG 18 25641 CFTR-Intron10-6762 − AAUUAAAAUAUAUAAAAAG 1925642 CFTR-Intron10-6763 − AAAUUAAAAUAUAUAAAAAG 20 25643CFTR-Intron10-6764 − AAAAUUAAAAUAUAUAAAAAG 21 25644 CFTR-Intron10-6765 −GAAAAUUAAAAUAUAUAAAAAG 22 25645 CFTR-Intron10-6766 −UGAAAAUUAAAAUAUAUAAAAAG 23 25646 CFTR-Intron10-6767 −AUGAAAAUUAAAAUAUAUAAAAAG 24 25647 CFTR-Intron10-6768 −AGAGAGGAAGGAAGAAAG 18 25648 CFTR-Intron10-6769 − AAGAGAGGAAGGAAGAAAG 1925649 CFTR-Intron10-6770 − AAAGAGAGGAAGGAAGAAAG 20 25650CFTR-Intron10-6771 − GAAAGAGAGGAAGGAAGAAAG 21 25651 CFTR-Intron10-6772 −AGAAAGAGAGGAAGGAAGAAAG 22 25652 CFTR-Intron10-6773 −AAGAAAGAGAGGAAGGAAGAAAG 23 25653 CFTR-Intron10-6774 −AAAGAAAGAGAGGAAGGAAGAAAG 24 25654 CFTR-Intron10-6775 −GGAAGGAAGGAAGGAAAG 18 25655 CFTR-Intron10-6776 − AGGAAGGAAGGAAGGAAAG 1925656 CFTR-Intron10-6777 − GAGGAAGGAAGGAAGGAAAG 20 25657CFTR-Intron10-6778 − GGAGGAAGGAAGGAAGGAAAG 21 25658 CFTR-Intron10-6779 −AGGAGGAAGGAAGGAAGGAAAG 22 25659 CFTR-Intron10-6780 −UAGGAGGAAGGAAGGAAGGAAAG 23 25660 CFTR-Intron10-6781 −GUAGGAGGAAGGAAGGAAGGAAAG 24 25661 CFTR-Intron10-6782 −AACCCAACUGAUGUCAAG 18 25662 CFTR-Intron10-6783 − GAACCCAACUGAUGUCAAG 1925663 CFTR-Intron10-6784 − GGAACCCAACUGAUGUCAAG 20 25664CFTR-Intron10-6785 − CGGAACCCAACUGAUGUCAAG 21 25665 CFTR-Intron10-6786 −CCGGAACCCAACUGAUGUCAAG 22 25666 CFTR-Intron10-6787 −CCCGGAACCCAACUGAUGUCAAG 23 25667 CFTR-Intron10-6788 −UCCCGGAACCCAACUGAUGUCAAG 24 25668 CFTR-Intron10-6789 −UCACCUGAGCCUGAGAAG 18 25669 CFTR-Intron10-6790 − AUCACCUGAGCCUGAGAAG 1925670 CFTR-Intron10-692 − GAUCACCUGAGCCUGAGAAG 20 19578CFTR-Intron10-6791 − GGAUCACCUGAGCCUGAGAAG 21 25671 CFTR-Intron10-6792 −AGGAUCACCUGAGCCUGAGAAG 22 25672 CFTR-Intron10-6793 −GAGGAUCACCUGAGCCUGAGAAG 23 25673 CFTR-Intron10-6794 −GGAGGAUCACCUGAGCCUGAGAAG 24 25674 CFTR-Intron10-6795 −AAUGAGGAAGAAAGGAAG 18 25675 CFTR-Intron10-6796 − AAAUGAGGAAGAAAGGAAG 1925676 CFTR-Intron10-6797 − GAAAUGAGGAAGAAAGGAAG 20 25677CFTR-Intron10-6798 − GGAAAUGAGGAAGAAAGGAAG 21 25678 CFTR-Intron10-6799 −AGGAAAUGAGGAAGAAAGGAAG 22 25679 CFTR-Intron10-6800 −AAGGAAAUGAGGAAGAAAGGAAG 23 25680 CFTR-Intron10-6801 −GAAGGAAAUGAGGAAGAAAGGAAG 24 25681 CFTR-Intron10-6802 −AGUCUAGUUUCAAGGAAG 18 25682 CFTR-Intron10-6803 − AAGUCUAGUUUCAAGGAAG 1925683 CFTR-Intron10-449 − CAAGUCUAGUUUCAAGGAAG 20 19335CFTR-Intron10-6804 − ACAAGUCUAGUUUCAAGGAAG 21 25684 CFTR-Intron10-6805 −UACAAGUCUAGUUUCAAGGAAG 22 25685 CFTR-Intron10-6806 −GUACAAGUCUAGUUUCAAGGAAG 23 25686 CFTR-Intron10-6807 −UGUACAAGUCUAGUUUCAAGGAAG 24 25687 CFTR-Intron10-6808 −GGGGCUGGUAGUGUGAAG 18 25688 CFTR-Intron10-6809 − GGGGGCUGGUAGUGUGAAG 1925689 CFTR-Intron10-6810 − AGGGGGCUGGUAGUGUGAAG 20 25690CFTR-Intron10-6811 − GAGGGGGCUGGUAGUGUGAAG 21 25691 CFTR-Intron10-6812 −AGAGGGGGCUGGUAGUGUGAAG 22 25692 CFTR-Intron10-6813 −AAGAGGGGGCUGGUAGUGUGAAG 23 25693 CFTR-Intron10-6814 −GAAGAGGGGGCUGGUAGUGUGAAG 24 25694 CFTR-Intron10-6815 −GAAAUUAGAAAGAAUAAG 18 25695 CFTR-Intron10-6816 − UGAAAUUAGAAAGAAUAAG 1925696 CFTR-Intron10-1254 − AUGAAAUUAGAAAGAAUAAG 20 20139CFTR-Intron10-6817 − AAUGAAAUUAGAAAGAAUAAG 21 25697 CFTR-Intron10-6818 −GAAUGAAAUUAGAAAGAAUAAG 22 25698 CFTR-Intron10-6819 −AGAAUGAAAUUAGAAAGAAUAAG 23 25699 CFTR-Intron10-6820 −CAGAAUGAAAUUAGAAAGAAUAAG 24 25700 CFTR-Intron10-6821 −AUAGGAUUAAUGGAUAAG 18 25701 CFTR-Intron10-6822 − AAUAGGAUUAAUGGAUAAG 1925702 CFTR-Intron10-6823 − CAAUAGGAUUAAUGGAUAAG 20 25703CFTR-Intron10-6824 − CCAAUAGGAUUAAUGGAUAAG 21 25704 CFTR-Intron10-6825 −UCCAAUAGGAUUAAUGGAUAAG 22 25705 CFTR-Intron10-6826 −AUCCAAUAGGAUUAAUGGAUAAG 23 25706 CFTR-Intron10-6827 −GAUCCAAUAGGAUUAAUGGAUAAG 24 25707 CFTR-Intron10-6828 −GGAAAGAGGGUUGAUAAG 18 25708 CFTR-Intron10-6829 − AGGAAAGAGGGUUGAUAAG 1925709 CFTR-Intron10-6830 − AAGGAAAGAGGGUUGAUAAG 20 25710CFTR-Intron10-6831 − AAAGGAAAGAGGGUUGAUAAG 21 25711 CFTR-Intron10-6832 −UAAAGGAAAGAGGGUUGAUAAG 22 25712 CFTR-Intron10-6833 −CUAAAGGAAAGAGGGUUGAUAAG 23 25713 CFTR-Intron10-6834 −UCUAAAGGAAAGAGGGUUGAUAAG 24 25714 CFTR-Intron10-6835 −UAUUUAUCAAUAUCUAAG 18 25715 CFTR-Intron10-6836 − UUAUUUAUCAAUAUCUAAG 1925716 CFTR-Intron10-6837 − AUUAUUUAUCAAUAUCUAAG 20 25717CFTR-Intron10-6838 − AAUUAUUUAUCAAUAUCUAAG 21 25718 CFTR-Intron10-6839 −CAAUUAUUUAUCAAUAUCUAAG 22 25719 CFTR-Intron10-6840 −GCAAUUAUUUAUCAAUAUCUAAG 23 25720 CFTR-Intron10-6841 −GGCAAUUAUUUAUCAAUAUCUAAG 24 25721 CFTR-Intron10-6842 −GCUCAUUCAUCAAGUAAG 18 25722 CFTR-Intron10-6843 − UGCUCAUUCAUCAAGUAAG 1925723 CFTR-Intron10-6844 − AUGCUCAUUCAUCAAGUAAG 20 25724CFTR-Intron10-6845 − AAUGCUCAUUCAUCAAGUAAG 21 25725 CFTR-Intron10-6846 −AAAUGCUCAUUCAUCAAGUAAG 22 25726 CFTR-Intron10-6847 −CAAAUGCUCAUUCAUCAAGUAAG 23 25727 CFTR-Intron10-6848 −UCAAAUGCUCAUUCAUCAAGUAAG 24 25728 CFTR-Intron10-6849 −AAGAAGGAAGGAAGUAAG 18 25729 CFTR-Intron10-6850 − AAAGAAGGAAGGAAGUAAG 1925730 CFTR-Intron10-693 − GAAAGAAGGAAGGAAGUAAG 20 19579CFTR-Intron10-6851 − GGAAAGAAGGAAGGAAGUAAG 21 25731 CFTR-Intron10-6852 −AGGAAAGAAGGAAGGAAGUAAG 22 25732 CFTR-Intron10-6853 −AAGGAAAGAAGGAAGGAAGUAAG 23 25733 CFTR-Intron10-6854 −GAAGGAAAGAAGGAAGGAAGUAAG 24 25734 CFTR-Intron10-6855 −UGCCAUGUGAGAACACAG 18 25735 CFTR-Intron10-6856 − CUGCCAUGUGAGAACACAG 1925736 CFTR-Intron10-6857 − UCUGCCAUGUGAGAACACAG 20 25737CFTR-Intron10-6858 − UUCUGCCAUGUGAGAACACAG 21 25738 CFTR-Intron10-6859 −UUUCUGCCAUGUGAGAACACAG 22 25739 CFTR-Intron10-6860 −CUUUCUGCCAUGUGAGAACACAG 23 25740 CFTR-Intron10-6861 −CCUUUCUGCCAUGUGAGAACACAG 24 25741 CFTR-Intron10-6862 −AUUUCAACUUAUACACAG 18 25742 CFTR-Intron10-6863 − CAUUUCAACUUAUACACAG 1925743 CFTR-Intron10-6864 − UCAUUUCAACUUAUACACAG 20 25744CFTR-Intron10-6865 − AUCAUUUCAACUUAUACACAG 21 25745 CFTR-Intron10-6866 −UAUCAUUUCAACUUAUACACAG 22 25746 CFTR-Intron10-6867 −AUAUCAUUUCAACUUAUACACAG 23 25747 CFTR-Intron10-6868 −AAUAUCAUUUCAACUUAUACACAG 24 25748 CFTR-Intron10-6869 −CUGUUGUCUGCAUCACAG 18 25749 CFTR-Intron10-6870 − UCUGUUGUCUGCAUCACAG 1925750 CFTR-Intron10-6871 − UUCUGUUGUCUGCAUCACAG 20 25751CFTR-Intron10-6872 − CUUCUGUUGUCUGCAUCACAG 21 25752 CFTR-Intron10-6873 −CCUUCUGUUGUCUGCAUCACAG 22 25753 CFTR-Intron10-6874 −UCCUUCUGUUGUCUGCAUCACAG 23 25754 CFTR-Intron10-6875 −GUCCUUCUGUUGUCUGCAUCACAG 24 25755 CFTR-Intron10-6876 −GAGUCUUCCAAGUAGCAG 18 25756 CFTR-Intron10-6877 − AGAGUCUUCCAAGUAGCAG 1925757 CFTR-Intron10-6878 − AAGAGUCUUCCAAGUAGCAG 20 25758CFTR-Intron10-6879 − GAAGAGUCUUCCAAGUAGCAG 21 25759 CFTR-Intron10-6880 −GGAAGAGUCUUCCAAGUAGCAG 22 25760 CFTR-Intron10-6881 −GGGAAGAGUCUUCCAAGUAGCAG 23 25761 CFTR-Intron10-6882 −UGGGAAGAGUCUUCCAAGUAGCAG 24 25762 CFTR-Intron10-6883 −CCAAAACUUUAUUGUCAG 18 25763 CFTR-Intron10-6884 − ACCAAAACUUUAUUGUCAG 1925764 CFTR-Intron10-6885 − GACCAAAACUUUAUUGUCAG 20 25765CFTR-Intron10-6886 − GGACCAAAACUUUAUUGUCAG 21 25766 CFTR-Intron10-6887 −AGGACCAAAACUUUAUUGUCAG 22 25767 CFTR-Intron10-6888 −AAGGACCAAAACUUUAUUGUCAG 23 25768 CFTR-Intron10-6889 −AAAGGACCAAAACUUUAUUGUCAG 24 25769 CFTR-Intron10-6890 −CAAGUGCAAAGCUUUCAG 18 25770 CFTR-Intron10-6891 − GCAAGUGCAAAGCUUUCAG 1925771 CFTR-Intron10-6892 − AGCAAGUGCAAAGCUUUCAG 20 25772CFTR-Intron10-6893 − AAGCAAGUGCAAAGCUUUCAG 21 25773 CFTR-Intron10-6894 −GAAGCAAGUGCAAAGCUUUCAG 22 25774 CFTR-Intron10-6895 −UGAAGCAAGUGCAAAGCUUUCAG 23 25775 CFTR-Intron10-6896 −GUGAAGCAAGUGCAAAGCUUUCAG 24 25776 CFTR-Intron10-6897 −AAACAGAAAAAGAAAGAG 18 25777 CFTR-Intron10-6898 − CAAACAGAAAAAGAAAGAG 1925778 CFTR-Intron10-1269 − ACAAACAGAAAAAGAAAGAG 20 20154CFTR-Intron10-6899 − GACAAACAGAAAAAGAAAGAG 21 25779 CFTR-Intron10-6900 −AGACAAACAGAAAAAGAAAGAG 22 25780 CFTR-Intron10-6901 −AAGACAAACAGAAAAAGAAAGAG 23 25781 CFTR-Intron10-6902 −UAAGACAAACAGAAAAAGAAAGAG 24 25782 CFTR-Intron10-6903 −AUUUUUGUAUUUUUAGUAGAG 21 25783 CFTR-Intron10-6904 −AAUUUUUGUAUUUUUAGUAGAG 22 25784 CFTR-Intron10-6905 −UAAUUUUUGUAUUUUUAGUAGAG 23 25785 CFTR-Intron10-6906 −CUAAUUUUUGUAUUUUUAGUAGAG 24 25786 CFTR-Intron10-6907 −GAAAGAAUCAAAUUAGAG 18 25787 CFTR-Intron10-6908 − UGAAAGAAUCAAAUUAGAG 1925788 CFTR-Intron10-6909 − AUGAAAGAAUCAAAUUAGAG 20 25789CFTR-Intron10-6910 − CAUGAAAGAAUCAAAUUAGAG 21 25790 CFTR-Intron10-6911 −ACAUGAAAGAAUCAAAUUAGAG 22 25791 CFTR-Intron10-6912 −GACAUGAAAGAAUCAAAUUAGAG 23 25792 CFTR-Intron10-6913 −AGACAUGAAAGAAUCAAAUUAGAG 24 25793 CFTR-Intron10-6914 −AACAAAGACUUGCAGGAG 18 25794 CFTR-Intron10-6915 − GAACAAAGACUUGCAGGAG 1925795 CFTR-Intron10-6916 − UGAACAAAGACUUGCAGGAG 20 25796CFTR-Intron10-6917 − UUGAACAAAGACUUGCAGGAG 21 25797 CFTR-Intron10-6918 −UUUGAACAAAGACUUGCAGGAG 22 25798 CFTR-Intron10-6919 −AUUUGAACAAAGACUUGCAGGAG 23 25799 CFTR-Intron10-6920 −CAUUUGAACAAAGACUUGCAGGAG 24 25800 CFTR-Intron10-6921 −AUCAAUAUCUAAGAUGAG 18 25801 CFTR-Intron10-6922 − UAUCAAUAUCUAAGAUGAG 1925802 CFTR-Intron10-6923 − UUAUCAAUAUCUAAGAUGAG 20 25803CFTR-Intron10-6924 − UUUAUCAAUAUCUAAGAUGAG 21 25804 CFTR-Intron10-6925 −AUUUAUCAAUAUCUAAGAUGAG 22 25805 CFTR-Intron10-6926 −UAUUUAUCAAUAUCUAAGAUGAG 23 25806 CFTR-Intron10-6927 −UUAUUUAUCAAUAUCUAAGAUGAG 24 25807 CFTR-Intron10-6928 −GCUACUUGGGAGGCUGAG 18 25808 CFTR-Intron10-6929 − AGCUACUUGGGAGGCUGAG 1925809 CFTR-Intron10-6930 − CAGCUACUUGGGAGGCUGAG 20 25810CFTR-Intron10-6931 − CCAGCUACUUGGGAGGCUGAG 21 25811 CFTR-Intron10-6932 −CCCAGCUACUUGGGAGGCUGAG 22 25812 CFTR-Intron10-6933 −UCCCAGCUACUUGGGAGGCUGAG 23 25813 CFTR-Intron10-6934 −GUCCCAGCUACUUGGGAGGCUGAG 24 25814 CFTR-Intron10-6935 −GGCAGAACUUGCAGUGAG 18 25815 CFTR-Intron10-6936 − AGGCAGAACUUGCAGUGAG 1925816 CFTR-Intron10-6937 − GAGGCAGAACUUGCAGUGAG 20 25817CFTR-Intron10-6938 − GGAGGCAGAACUUGCAGUGAG 21 25818 CFTR-Intron10-6939 −AGGAGGCAGAACUUGCAGUGAG 22 25819 CFTR-Intron10-6940 −CAGGAGGCAGAACUUGCAGUGAG 23 25820 CFTR-Intron10-6941 −CCAGGAGGCAGAACUUGCAGUGAG 24 25821 CFTR-Intron10-6942 −UUUUUUUUUUUUUUUGAG 18 25822 CFTR-Intron10-6943 − UUUUUUUUUUUUUUUUGAG 1925823 CFTR-Intron10-6944 − UUUUUUUUUUUUUUUUUGAG 20 25824CFTR-Intron10-6945 − UUUUUUUUUUUUUUUUUUGAG 21 25825 CFTR-Intron10-6946 −UUUUUUUUUUUUUUUUUUUGAG 22 25826 CFTR-Intron10-6947 −UUUUUUUUUUUUUUUUUUUUGAG 23 25827 CFTR-Intron10-6948 −UUUUUUUUUUUUUUUUUUUUUGAG 24 25828 CFTR-Intron10-6949 −GCUUUUAAAACAAAAUAG 18 25829 CFTR-Intron10-6950 − AGCUUUUAAAACAAAAUAG 1925830 CFTR-Intron10-6951 − CAGCUUUUAAAACAAAAUAG 20 25831CFTR-Intron10-6952 − ACAGCUUUUAAAACAAAAUAG 21 25832 CFTR-Intron10-6953 −AACAGCUUUUAAAACAAAAUAG 22 25833 CFTR-Intron10-6954 −AAACAGCUUUUAAAACAAAAUAG 23 25834 CFTR-Intron10-6955 −GAAACAGCUUUUAAAACAAAAUAG 24 25835 CFTR-Intron10-6956 −ACUUAAUGAAAGCAAUAG 18 25836 CFTR-Intron10-6957 − GACUUAAUGAAAGCAAUAG 1925837 CFTR-Intron10-6958 − UGACUUAAUGAAAGCAAUAG 20 25838CFTR-Intron10-6959 − GUGACUUAAUGAAAGCAAUAG 21 25839 CFTR-Intron10-6960 −CGUGACUUAAUGAAAGCAAUAG 22 25840 CFTR-Intron10-6961 −UCGUGACUUAAUGAAAGCAAUAG 23 25841 CFTR-Intron10-6962 −CUCGUGACUUAAUGAAAGCAAUAG 24 25842 CFTR-Intron10-6963 −UAAAAAAUUAUACUAUAG 18 25843 CFTR-Intron10-6964 − UUAAAAAAUUAUACUAUAG 1925844 CFTR-Intron10-6965 − AUUAAAAAAUUAUACUAUAG 20 25845CFTR-Intron10-6966 − UAUUAAAAAAUUAUACUAUAG 21 25846 CFTR-Intron10-6967 −CUAUUAAAAAAUUAUACUAUAG 22 25847 CFTR-Intron10-6968 −ACUAUUAAAAAAUUAUACUAUAG 23 25848 CFTR-Intron10-6969 −CACUAUUAAAAAAUUAUACUAUAG 24 25849 CFTR-Intron10-6970 −GUAGUGGAAGUAGUAUAG 18 25850 CFTR-Intron10-6971 − AGUAGUGGAAGUAGUAUAG 1925851 CFTR-Intron10-6972 − UAGUAGUGGAAGUAGUAUAG 20 25852CFTR-Intron10-6973 − GUAGUAGUGGAAGUAGUAUAG 21 25853 CFTR-Intron10-6974 −GGUAGUAGUGGAAGUAGUAUAG 22 25854 CFTR-Intron10-6975 −AGGUAGUAGUGGAAGUAGUAUAG 23 25855 CFTR-Intron10-6976 −CAGGUAGUAGUGGAAGUAGUAUAG 24 25856 CFTR-Intron10-6977 −CCUCACCCUCCCAAGUAG 18 25857 CFTR-Intron10-6978 − GCCUCACCCUCCCAAGUAG 1925858 CFTR-Intron10-6979 − UGCCUCACCCUCCCAAGUAG 20 25859CFTR-Intron10-6980 − CUGCCUCACCCUCCCAAGUAG 21 25860 CFTR-Intron10-6981 −CCUGCCUCACCCUCCCAAGUAG 22 25861 CFTR-Intron10-6982 −UCCUGCCUCACCCUCCCAAGUAG 23 25862 CFTR-Intron10-6983 −CUCCUGCCUCACCCUCCCAAGUAG 24 25863 CFTR-Intron10-6984 −GCCUCAGCCUCCCAAGUAG 19 25864 CFTR-Intron10-6985 − UGCCUCAGCCUCCCAAGUAG20 25865 CFTR-Intron10-6986 − CUGCCUCAGCCUCCCAAGUAG 21 25866CFTR-Intron10-6987 − CCUGCCUCAGCCUCCCAAGUAG 22 25867 CFTR-Intron10-6988− UCCUGCCUCAGCCUCCCAAGUAG 23 25868 CFTR-Intron10-6989 −CUCCUGCCUCAGCCUCCCAAGUAG 24 25869 CFTR-Intron10-6990 −GAGGAAGAAAGGAAGUAG 18 25870 CFTR-Intron10-6991 − UGAGGAAGAAAGGAAGUAG 1925871 CFTR-Intron10-6992 − AUGAGGAAGAAAGGAAGUAG 20 25872CFTR-Intron10-6993 − AAUGAGGAAGAAAGGAAGUAG 21 25873 CFTR-Intron10-6994 −AAAUGAGGAAGAAAGGAAGUAG 22 25874 CFTR-Intron10-6995 −GAAAUGAGGAAGAAAGGAAGUAG 23 25875 CFTR-Intron10-6996 −GGAAAUGAGGAAGAAAGGAAGUAG 24 25876 CFTR-Intron10-6997 −GCUUGAUCCAGGUAGUAG 18 25877 CFTR-Intron10-6998 − GGCUUGAUCCAGGUAGUAG 1925878 CFTR-Intron10-461 − UGGCUUGAUCCAGGUAGUAG 20 19347CFTR-Intron10-6999 − GUGGCUUGAUCCAGGUAGUAG 21 25879 CFTR-Intron10-7000 −GGUGGCUUGAUCCAGGUAGUAG 22 25880 CFTR-Intron10-7001 −UGGUGGCUUGAUCCAGGUAGUAG 23 25881 CFTR-Intron10-7002 −AUGGUGGCUUGAUCCAGGUAGUAG 24 25882 CFTR-Intron10-7003 −CUAUGAAGGCAGAGUUAG 18 25883 CFTR-Intron10-7004 − GCUAUGAAGGCAGAGUUAG 1925884 CFTR-Intron10-464 − AGCUAUGAAGGCAGAGUUAG 20 19350CFTR-Intron10-7005 − CAGCUAUGAAGGCAGAGUUAG 21 25885 CFTR-Intron10-7006 −GCAGCUAUGAAGGCAGAGUUAG 22 25886 CFTR-Intron10-7007 −AGCAGCUAUGAAGGCAGAGUUAG 23 25887 CFTR-Intron10-7008 −AAGCAGCUAUGAAGGCAGAGUUAG 24 25888 CFTR-Intron10-7009 −GGGGUUUCACCGUUUUAG 18 25889 CFTR-Intron10-7010 − CGGGGUUUCACCGUUUUAG 1925890 CFTR-Intron10-7011 − ACGGGGUUUCACCGUUUUAG 20 25891CFTR-Intron10-7012 − GACGGGGUUUCACCGUUUUAG 21 25892 CFTR-Intron10-7013 −AGACGGGGUUUCACCGUUUUAG 22 25893 CFTR-Intron10-7014 −GAGACGGGGUUUCACCGUUUUAG 23 25894 CFTR-Intron10-7015 −AGAGACGGGGUUUCACCGUUUUAG 24 25895 CFTR-Intron10-7016 −UAAUUUUUGUAUUUUUAG 18 25896 CFTR-Intron10-7017 − CUAAUUUUUGUAUUUUUAG 1925897 CFTR-Intron10-7018 − GCUAAUUUUUGUAUUUUUAG 20 25898CFTR-Intron10-7019 − AGCUAAUUUUUGUAUUUUUAG 21 25899 CFTR-Intron10-7020 −CAGCUAAUUUUUGUAUUUUUAG 22 25900 CFTR-Intron10-7021 −UCAGCUAAUUUUUGUAUUUUUAG 23 25901 CFTR-Intron10-7022 −CUCAGCUAAUUUUUGUAUUUUUAG 24 25902 CFTR-Intron10-7023 −CGGCUAAUUUUUUGUAUUUUUAG 23 25903 CFTR-Intron10-7024 −CCGGCUAAUUUUUUGUAUUUUUAG 24 25904 CFTR-Intron10-7025 −UCAGAGAAGUAAUCGGCG 18 25905 CFTR-Intron10-7026 − GUCAGAGAAGUAAUCGGCG 1925906 CFTR-Intron10-7027 − UGUCAGAGAAGUAAUCGGCG 20 25907CFTR-Intron10-7028 − CUGUCAGAGAAGUAAUCGGCG 21 25908 CFTR-Intron10-7029 −ACUGUCAGAGAAGUAAUCGGCG 22 25909 CFTR-Intron10-7030 −UACUGUCAGAGAAGUAAUCGGCG 23 25910 CFTR-Intron10-7031 −AUACUGUCAGAGAAGUAAUCGGCG 24 25911 CFTR-Intron10-7032 −UUCUGUAGGGAGACAAGG 18 25912 CFTR-Intron10-7033 − AUUCUGUAGGGAGACAAGG 1925913 CFTR-Intron10-7034 − UAUUCUGUAGGGAGACAAGG 20 25914CFTR-Intron10-7035 − CUAUUCUGUAGGGAGACAAGG 21 25915 CFTR-Intron10-7036 −GCUAUUCUGUAGGGAGACAAGG 22 25916 CFTR-Intron10-7037 −GGCUAUUCUGUAGGGAGACAAGG 23 25917 CFTR-Intron10-7038 −AGGCUAUUCUGUAGGGAGACAAGG 24 25918 CFTR-Intron10-7039 −ACAAGUCUAGUUUCAAGG 18 25919 CFTR-Intron10-7040 − UACAAGUCUAGUUUCAAGG 1925920 CFTR-Intron10-7041 − GUACAAGUCUAGUUUCAAGG 20 25921CFTR-Intron10-7042 − UGUACAAGUCUAGUUUCAAGG 21 25922 CFTR-Intron10-7043 −AUGUACAAGUCUAGUUUCAAGG 22 25923 CFTR-Intron10-7044 −GAUGUACAAGUCUAGUUUCAAGG 23 25924 CFTR-Intron10-7045 −GGAUGUACAAGUCUAGUUUCAAGG 24 25925 CFTR-Intron10-7046 −GGAAGGAAGGAAAGAAGG 18 25926 CFTR-Intron10-7047 − AGGAAGGAAGGAAAGAAGG 1925927 CFTR-Intron10-7048 − AAGGAAGGAAGGAAAGAAGG 20 25928CFTR-Intron10-7049 − GAAGGAAGGAAGGAAAGAAGG 21 25929 CFTR-Intron10-7050 −GGAAGGAAGGAAGGAAAGAAGG 22 25930 CFTR-Intron10-7051 −AGGAAGGAAGGAAGGAAAGAAGG 23 25931 CFTR-Intron10-7052 −GAGGAAGGAAGGAAGGAAAGAAGG 24 25932 CFTR-Intron10-7053 −AAGUAGGAGGAAGGAAGG 18 25933 CFTR-Intron10-7054 − GAAGUAGGAGGAAGGAAGG 1925934 CFTR-Intron10-7055 − GGAAGUAGGAGGAAGGAAGG 20 25935CFTR-Intron10-7056 − AGGAAGUAGGAGGAAGGAAGG 21 25936 CFTR-Intron10-7057 −AAGGAAGUAGGAGGAAGGAAGG 22 25937 CFTR-Intron10-7058 −AAAGGAAGUAGGAGGAAGGAAGG 23 25938 CFTR-Intron10-7059 −GAAAGGAAGUAGGAGGAAGGAAGG 24 25939 CFTR-Intron10-7060 −AAAAGAAAGAGAGGAAGG 18 25940 CFTR-Intron10-7061 − AAAAAGAAAGAGAGGAAGG 1925941 CFTR-Intron10-7062 − GAAAAAGAAAGAGAGGAAGG 20 25942CFTR-Intron10-7063 − AGAAAAAGAAAGAGAGGAAGG 21 25943 CFTR-Intron10-7064 −CAGAAAAAGAAAGAGAGGAAGG 22 25944 CFTR-Intron10-7065 −ACAGAAAAAGAAAGAGAGGAAGG 23 25945 CFTR-Intron10-7066 −AACAGAAAAAGAAAGAGAGGAAGG 24 25946 CFTR-Intron10-7067 −AAGGAAGUAGGAGGAAGG 18 25947 CFTR-Intron10-7068 − AAAGGAAGUAGGAGGAAGG 1925948 CFTR-Intron10-7069 − GAAAGGAAGUAGGAGGAAGG 20 25949CFTR-Intron10-7070 − AGAAAGGAAGUAGGAGGAAGG 21 25950 CFTR-Intron10-7071 −AAGAAAGGAAGUAGGAGGAAGG 22 25951 CFTR-Intron10-7072 −GAAGAAAGGAAGUAGGAGGAAGG 23 25952 CFTR-Intron10-7073 −GGAAGAAAGGAAGUAGGAGGAAGG 24 25953 CFTR-Intron10-7074 −AGUCUUACUGUCACCAGG 18 25954 CFTR-Intron10-7075 − GAGUCUUACUGUCACCAGG 1925955 CFTR-Intron10-7076 − AGAGUCUUACUGUCACCAGG 20 25956CFTR-Intron10-7077 − CAGAGUCUUACUGUCACCAGG 21 25957 CFTR-Intron10-7078 −ACAGAGUCUUACUGUCACCAGG 22 25958 CFTR-Intron10-7079 −GACAGAGUCUUACUGUCACCAGG 23 25959 CFTR-Intron10-7080 −AGACAGAGUCUUACUGUCACCAGG 24 25960 CFTR-Intron10-7081 −CUUACUCUGUCACCCAGG 18 25961 CFTR-Intron10-7082 − UCUUACUCUGUCACCCAGG 1925962 CFTR-Intron10-7083 − GUCUUACUCUGUCACCCAGG 20 25963CFTR-Intron10-7084 − GGUCUUACUCUGUCACCCAGG 21 25964 CFTR-Intron10-7085 −AGGUCUUACUCUGUCACCCAGG 22 25965 CFTR-Intron10-7086 −UAGGUCUUACUCUGUCACCCAGG 23 25966 CFTR-Intron10-7087 −UUAGGUCUUACUCUGUCACCCAGG 24 25967 CFTR-Intron10-7088 −CUCGCUCUGUCGCCCAGG 18 25968 CFTR-Intron10-7089 − UCUCGCUCUGUCGCCCAGG 1925969 CFTR-Intron10-7090 − GUCUCGCUCUGUCGCCCAGG 20 25970CFTR-Intron10-7091 − AGUCUCGCUCUGUCGCCCAGG 21 25971 CFTR-Intron10-7092 −GAGUCUCGCUCUGUCGCCCAGG 22 25972 CFTR-Intron10-7093 −GGAGUCUCGCUCUGUCGCCCAGG 23 25973 CFTR-Intron10-7094 −CGGAGUCUCGCUCUGUCGCCCAGG 24 25974 CFTR-Intron10-7095 −AGGUGAUGGUAUUGCAGG 18 25975 CFTR-Intron10-7096 − AAGGUGAUGGUAUUGCAGG 1925976 CFTR-Intron10-7097 − CAAGGUGAUGGUAUUGCAGG 20 25977CFTR-Intron10-7098 − CCAAGGUGAUGGUAUUGCAGG 21 25978 CFTR-Intron10-7099 −CCCAAGGUGAUGGUAUUGCAGG 22 25979 CFTR-Intron10-7100 −UCCCAAGGUGAUGGUAUUGCAGG 23 25980 CFTR-Intron10-7101 −UUCCCAAGGUGAUGGUAUUGCAGG 24 25981 CFTR-Intron10-7102 −CAGAAAAAGAAAGAGAGG 18 25982 CFTR-Intron10-7103 − ACAGAAAAAGAAAGAGAGG 1925983 CFTR-Intron10-7104 − AACAGAAAAAGAAAGAGAGG 20 25984CFTR-Intron10-7105 − AAACAGAAAAAGAAAGAGAGG 21 25985 CFTR-Intron10-7106 −CAAACAGAAAAAGAAAGAGAGG 22 25986 CFTR-Intron10-7107 −ACAAACAGAAAAAGAAAGAGAGG 23 25987 CFTR-Intron10-7108 −GACAAACAGAAAAAGAAAGAGAGG 24 25988 CFTR-Intron10-7109 −UGGCGUGAACCCAGGAGG 18 25989 CFTR-Intron10-7110 − AUGGCGUGAACCCAGGAGG 1925990 CFTR-Intron10-7111 − AAUGGCGUGAACCCAGGAGG 20 25991CFTR-Intron10-7112 − GAAUGGCGUGAACCCAGGAGG 21 25992 CFTR-Intron10-7113 −AGAAUGGCGUGAACCCAGGAGG 22 25993 CFTR-Intron10-7114 −GAGAAUGGCGUGAACCCAGGAGG 23 25994 CFTR-Intron10-7115 −GGAGAAUGGCGUGAACCCAGGAGG 24 25995 CFTR-Intron10-7116 −AAGAAAGGAAGUAGGAGG 18 25996 CFTR-Intron10-7117 − GAAGAAAGGAAGUAGGAGG 1925997 CFTR-Intron10-7118 − GGAAGAAAGGAAGUAGGAGG 20 25998CFTR-Intron10-7119 − AGGAAGAAAGGAAGUAGGAGG 21 25999 CFTR-Intron10-7120 −GAGGAAGAAAGGAAGUAGGAGG 22 26000 CFTR-Intron10-7121 −UGAGGAAGAAAGGAAGUAGGAGG 23 26001 CFTR-Intron10-7122 −AUGAGGAAGAAAGGAAGUAGGAGG 24 26002 CFTR-Intron10-7123 −UCCCAGCUACUCGGGAGG 18 26003 CFTR-Intron10-7124 − GUCCCAGCUACUCGGGAGG 1926004 CFTR-Intron10-7125 − AGUCCCAGCUACUCGGGAGG 20 26005CFTR-Intron10-7126 − UAGUCCCAGCUACUCGGGAGG 21 26006 CFTR-Intron10-7127 −GUAGUCCCAGCUACUCGGGAGG 22 26007 CFTR-Intron10-7128 −CGUAGUCCCAGCUACUCGGGAGG 23 26008 CFTR-Intron10-7129 −CCGUAGUCCCAGCUACUCGGGAGG 24 26009 CFTR-Intron10-7130 −AGUAAUCGGCGGUGGAGG 18 26010 CFTR-Intron10-7131 − AAGUAAUCGGCGGUGGAGG 1926011 CFTR-Intron10-7132 − GAAGUAAUCGGCGGUGGAGG 20 26012CFTR-Intron10-7133 − AGAAGUAAUCGGCGGUGGAGG 21 26013 CFTR-Intron10-7134 −GAGAAGUAAUCGGCGGUGGAGG 22 26014 CFTR-Intron10-7135 −AGAGAAGUAAUCGGCGGUGGAGG 23 26015 CFTR-Intron10-7136 −CAGAGAAGUAAUCGGCGGUGGAGG 24 26016 CFTR-Intron10-7137 −UCCUAGCACUUUUGGAGG 18 26017 CFTR-Intron10-7138 − AUCCUAGCACUUUUGGAGG 1926018 CFTR-Intron10-7139 − AAUCCUAGCACUUUUGGAGG 20 26019CFTR-Intron10-7140 − UAAUCCUAGCACUUUUGGAGG 21 26020 CFTR-Intron10-7141 −GUAAUCCUAGCACUUUUGGAGG 22 26021 CFTR-Intron10-7142 −UGUAAUCCUAGCACUUUUGGAGG 23 26022 CFTR-Intron10-7143 −UUGUAAUCCUAGCACUUUUGGAGG 24 26023 CFTR-Intron10-7144 −AGAAAGAAGGAAAUGAGG 18 26024 CFTR-Intron10-7145 − AAGAAAGAAGGAAAUGAGG 1926025 CFTR-Intron10-7146 − GAAGAAAGAAGGAAAUGAGG 20 26026CFTR-Intron10-7147 − GGAAGAAAGAAGGAAAUGAGG 21 26027 CFTR-Intron10-7148 −AGGAAGAAAGAAGGAAAUGAGG 22 26028 CFTR-Intron10-7149 −AAGGAAGAAAGAAGGAAAUGAGG 23 26029 CFTR-Intron10-7150 −GAAGGAAGAAAGAAGGAAAUGAGG 24 26030 CFTR-Intron10-7151 −GGUGAUUAGUCCAUGAGG 18 26031 CFTR-Intron10-7152 − AGGUGAUUAGUCCAUGAGG 1926032 CFTR-Intron10-7153 − GAGGUGAUUAGUCCAUGAGG 20 26033CFTR-Intron10-7154 − GGAGGUGAUUAGUCCAUGAGG 21 26034 CFTR-Intron10-7155 −GGGAGGUGAUUAGUCCAUGAGG 22 26035 CFTR-Intron10-7156 −UGGGAGGUGAUUAGUCCAUGAGG 23 26036 CFTR-Intron10-7157 −UUGGGAGGUGAUUAGUCCAUGAGG 24 26037 CFTR-Intron10-7158 −CUACUCGGGAGGCUGAGG 18 26038 CFTR-Intron10-7159 − GCUACUCGGGAGGCUGAGG 1926039 CFTR-Intron10-7160 − AGCUACUCGGGAGGCUGAGG 20 26040CFTR-Intron10-7161 − CAGCUACUCGGGAGGCUGAGG 21 26041 CFTR-Intron10-7162 −CCAGCUACUCGGGAGGCUGAGG 22 26042 CFTR-Intron10-7163 −CCCAGCUACUCGGGAGGCUGAGG 23 26043 CFTR-Intron10-7164 −UCCCAGCUACUCGGGAGGCUGAGG 24 26044 CFTR-Intron10-7165 −CUACUUGGGAGGCUGAGG 18 26045 CFTR-Intron10-7166 − GCUACUUGGGAGGCUGAGG 1926046 CFTR-Intron10-1288 − AGCUACUUGGGAGGCUGAGG 20 20173CFTR-Intron10-7167 − AAAAAAUUAUACUAUAGG 18 26047 CFTR-Intron10-7168 −UAAAAAAUUAUACUAUAGG 19 26048 CFTR-Intron10-1289 − UUAAAAAAUUAUACUAUAGG20 20174 CFTR-Intron10-7169 − AUUAAAAAAUUAUACUAUAGG 21 26049CFTR-Intron10-7170 − UAUUAAAAAAUUAUACUAUAGG 22 26050 CFTR-Intron10-7171− CUAUUAAAAAAUUAUACUAUAGG 23 26051 CFTR-Intron10-7172 −ACUAUUAAAAAAUUAUACUAUAGG 24 26052 CFTR-Intron10-7173 −AGGAAGAAAGGAAGUAGG 18 26053 CFTR-Intron10-7174 − GAGGAAGAAAGGAAGUAGG 1926054 CFTR-Intron10-1290 − UGAGGAAGAAAGGAAGUAGG 20 20175CFTR-Intron10-7175 − AUGAGGAAGAAAGGAAGUAGG 21 26055 CFTR-Intron10-7176 −AAUGAGGAAGAAAGGAAGUAGG 22 26056 CFTR-Intron10-7177 −AAAUGAGGAAGAAAGGAAGUAGG 23 26057 CFTR-Intron10-7178 −GAAAUGAGGAAGAAAGGAAGUAGG 24 26058 CFTR-Intron10-7179 −CAGAGAAGUAAUCGGCGG 18 26059 CFTR-Intron10-7180 − UCAGAGAAGUAAUCGGCGG 1926060 CFTR-Intron10-105 − GUCAGAGAAGUAAUCGGCGG 20 18991CFTR-Intron10-7181 − UGUCAGAGAAGUAAUCGGCGG 21 26061 CFTR-Intron10-7182 −CUGUCAGAGAAGUAAUCGGCGG 22 26062 CFTR-Intron10-7183 −ACUGUCAGAGAAGUAAUCGGCGG 23 26063 CFTR-Intron10-7184 −UACUGUCAGAGAAGUAAUCGGCGG 24 26064 CFTR-Intron10-7185 −UCUGUAGGGAGACAAGGG 18 26065 CFTR-Intron10-7186 − UUCUGUAGGGAGACAAGGG 1926066 CFTR-Intron10-473 − AUUCUGUAGGGAGACAAGGG 20 19359CFTR-Intron10-7187 − UAUUCUGUAGGGAGACAAGGG 21 26067 CFTR-Intron10-7188 −CUAUUCUGUAGGGAGACAAGGG 22 26068 CFTR-Intron10-7189 −GCUAUUCUGUAGGGAGACAAGGG 23 26069 CFTR-Intron10-7190 −GGCUAUUCUGUAGGGAGACAAGGG 24 26070 CFTR-Intron10-7191 −GGUGAUGGUAUUGCAGGG 18 26071 CFTR-Intron10-7192 − AGGUGAUGGUAUUGCAGGG 1926072 CFTR-Intron10-1292 − AAGGUGAUGGUAUUGCAGGG 20 20177CFTR-Intron10-7193 − CAAGGUGAUGGUAUUGCAGGG 21 26073 CFTR-Intron10-7194 −CCAAGGUGAUGGUAUUGCAGGG 22 26074 CFTR-Intron10-7195 −CCCAAGGUGAUGGUAUUGCAGGG 23 26075 CFTR-Intron10-7196 −UCCCAAGGUGAUGGUAUUGCAGGG 24 26076 CFTR-Intron10-7197 −CAGGAGCCAAAAAUUGGG 18 26077 CFTR-Intron10-7198 − UCAGGAGCCAAAAAUUGGG 1926078 CFTR-Intron10-476 − UUCAGGAGCCAAAAAUUGGG 20 19362CFTR-Intron10-7199 − UUUCAGGAGCCAAAAAUUGGG 21 26079 CFTR-Intron10-7200 −CUUUCAGGAGCCAAAAAUUGGG 22 26080 CFTR-Intron10-7201 −GCUUUCAGGAGCCAAAAAUUGGG 23 26081 CFTR-Intron10-7202 −UGCUUUCAGGAGCCAAAAAUUGGG 24 26082 CFTR-Intron10-7203 −UUACUAGAAAGAUAAUGG 18 26083 CFTR-Intron10-7204 − UUUACUAGAAAGAUAAUGG 1926084 CFTR-Intron10-7205 − GUUUACUAGAAAGAUAAUGG 20 26085CFTR-Intron10-7206 − CGUUUACUAGAAAGAUAAUGG 21 26086 CFTR-Intron10-7207 −CCGUUUACUAGAAAGAUAAUGG 22 26087 CFTR-Intron10-7208 −GCCGUUUACUAGAAAGAUAAUGG 23 26088 CFTR-Intron10-7209 −UGCCGUUUACUAGAAAGAUAAUGG 24 26089 CFTR-Intron10-7210 −UAAGGCUUAUUUCUCUGG 18 26090 CFTR-Intron10-7211 − CUAAGGCUUAUUUCUCUGG 1926091 CFTR-Intron10-7212 − ACUAAGGCUUAUUUCUCUGG 20 26092CFTR-Intron10-7213 − GACUAAGGCUUAUUUCUCUGG 21 26093 CFTR-Intron10-7214 −AGACUAAGGCUUAUUUCUCUGG 22 26094 CFTR-Intron10-7215 −AAGACUAAGGCUUAUUUCUCUGG 23 26095 CFTR-Intron10-7216 −AAAGACUAAGGCUUAUUUCUCUGG 24 26096 CFTR-Intron10-7217 −UAGAGGUUAAGGAGGUGG 18 26097 CFTR-Intron10-7218 − UUAGAGGUUAAGGAGGUGG 1926098 CFTR-Intron10-7219 − AUUAGAGGUUAAGGAGGUGG 20 26099CFTR-Intron10-7220 − UAUUAGAGGUUAAGGAGGUGG 21 26100 CFTR-Intron10-7221 −GUAUUAGAGGUUAAGGAGGUGG 22 26101 CFTR-Intron10-7222 −AGUAUUAGAGGUUAAGGAGGUGG 23 26102 CFTR-Intron10-7223 −AAGUAUUAGAGGUUAAGGAGGUGG 24 26103 CFTR-Intron10-7224 −GAGCCAAAAAUUGGGUGG 18 26104 CFTR-Intron10-7225 − GGAGCCAAAAAUUGGGUGG 1926105 CFTR-Intron10-478 − AGGAGCCAAAAAUUGGGUGG 20 19364CFTR-Intron10-7226 − CAGGAGCCAAAAAUUGGGUGG 21 26106 CFTR-Intron10-7227 −UCAGGAGCCAAAAAUUGGGUGG 22 26107 CFTR-Intron10-7228 −UUCAGGAGCCAAAAAUUGGGUGG 23 26108 CFTR-Intron10-7229 −UUUCAGGAGCCAAAAAUUGGGUGG 24 26109 CFTR-Intron10-7230 −UCAGGAGCCAAAAAUUGG 18 26110 CFTR-Intron10-7231 − UUCAGGAGCCAAAAAUUGG 1926111 CFTR-Intron10-7232 − UUUCAGGAGCCAAAAAUUGG 20 26112CFTR-Intron10-7233 − CUUUCAGGAGCCAAAAAUUGG 21 26113 CFTR-Intron10-7234 −GCUUUCAGGAGCCAAAAAUUGG 22 26114 CFTR-Intron10-7235 −UGCUUUCAGGAGCCAAAAAUUGG 23 26115 CFTR-Intron10-7236 −CUGCUUUCAGGAGCCAAAAAUUGG 24 26116 CFTR-Intron10-7237 −GGGAGAAACAGGUUUUGG 18 26117 CFTR-Intron10-7238 − UGGGAGAAACAGGUUUUGG 1926118 CFTR-Intron10-7239 − AUGGGAGAAACAGGUUUUGG 20 26119CFTR-Intron10-7240 − AAUGGGAGAAACAGGUUUUGG 21 26120 CFTR-Intron10-7241 −UAAUGGGAGAAACAGGUUUUGG 22 26121 CFTR-Intron10-7242 −AUAAUGGGAGAAACAGGUUUUGG 23 26122 CFTR-Intron10-7243 −GAUAAUGGGAGAAACAGGUUUUGG 24 26123 CFTR-Intron10-7244 −GGAAGAAAGAAGGAAAUG 18 26124 CFTR-Intron10-7245 − AGGAAGAAAGAAGGAAAUG 1926125 CFTR-Intron10-1311 − AAGGAAGAAAGAAGGAAAUG 20 20196CFTR-Intron10-7246 − GAAGGAAGAAAGAAGGAAAUG 21 26126 CFTR-Intron10-7247 −GGAAGGAAGAAAGAAGGAAAUG 22 26127 CFTR-Intron10-7248 −AGGAAGGAAGAAAGAAGGAAAUG 23 26128 CFTR-Intron10-7249 −GAGGAAGGAAGAAAGAAGGAAAUG 24 26129 CFTR-Intron10-7250 −UUAUCAAUAUCUAAGAUG 18 26130 CFTR-Intron10-7251 − UUUAUCAAUAUCUAAGAUG 1926131 CFTR-Intron10-480 − AUUUAUCAAUAUCUAAGAUG 20 19366CFTR-Intron10-7252 − UAUUUAUCAAUAUCUAAGAUG 21 26132 CFTR-Intron10-7253 −UUAUUUAUCAAUAUCUAAGAUG 22 26133 CFTR-Intron10-7254 −AUUAUUUAUCAAUAUCUAAGAUG 23 26134 CFTR-Intron10-7255 −AAUUAUUUAUCAAUAUCUAAGAUG 24 26135 CFTR-Intron10-7256 −UCCCCUGCCAUUCAUAUG 18 26136 CFTR-Intron10-7257 − CUCCCCUGCCAUUCAUAUG 1926137 CFTR-Intron10-7258 − UCUCCCCUGCCAUUCAUAUG 20 26138CFTR-Intron10-7259 − CUCUCCCCUGCCAUUCAUAUG 21 26139 CFTR-Intron10-7260 −UCUCUCCCCUGCCAUUCAUAUG 22 26140 CFTR-Intron10-7261 −GUCUCUCCCCUGCCAUUCAUAUG 23 26141 CFTR-Intron10-7262 −UGUCUCUCCCCUGCCAUUCAUAUG 24 26142 CFTR-Intron10-7263 −UGUUUUUAGGCUAUUCUG 18 26143 CFTR-Intron10-7264 − AUGUUUUUAGGCUAUUCUG 1926144 CFTR-Intron10-7265 − AAUGUUUUUAGGCUAUUCUG 20 26145CFTR-Intron10-7266 − UAAUGUUUUUAGGCUAUUCUG 21 26146 CFTR-Intron10-7267 −CUAAUGUUUUUAGGCUAUUCUG 22 26147 CFTR-Intron10-7268 −GCUAAUGUUUUUAGGCUAUUCUG 23 26148 CFTR-Intron10-7269 −GGCUAAUGUUUUUAGGCUAUUCUG 24 26149 CFTR-Intron10-7270 −CCUCGGCCUCCCAAAGUG 18 26150 CFTR-Intron10-7271 − GCCUCGGCCUCCCAAAGUG 1926151 CFTR-Intron10-7272 − CGCCUCGGCCUCCCAAAGUG 20 26152CFTR-Intron10-7273 − CCGCCUCGGCCUCCCAAAGUG 21 26153 CFTR-Intron10-7274 −CCCGCCUCGGCCUCCCAAAGUG 22 26154 CFTR-Intron10-7275 −GCCCGCCUCGGCCUCCCAAAGUG 23 26155 CFTR-Intron10-7276 −CGCCCGCCUCGGCCUCCCAAAGUG 24 26156 CFTR-Intron10-7277 −UGCCUCGGCCUCCCAAAGUG 20 26157 CFTR-Intron10-7278 − CUGCCUCGGCCUCCCAAAGUG21 26158 CFTR-Intron10-7279 − CCUGCCUCGGCCUCCCAAAGUG 22 26159CFTR-Intron10-7280 − GCCUGCCUCGGCCUCCCAAAGUG 23 26160 CFTR-Intron10-7281− UGCCUGCCUCGGCCUCCCAAAGUG 24 26161 CFTR-Intron10-7282 −CCAGGCUGGAGUGCAGUG 18 26162 CFTR-Intron10-7283 − CCCAGGCUGGAGUGCAGUG 1926163 CFTR-Intron10-7284 − GCCCAGGCUGGAGUGCAGUG 20 26164CFTR-Intron10-7285 − CGCCCAGGCUGGAGUGCAGUG 21 26165 CFTR-Intron10-7286 −UCGCCCAGGCUGGAGUGCAGUG 22 26166 CFTR-Intron10-7287 −GUCGCCCAGGCUGGAGUGCAGUG 23 26167 CFTR-Intron10-7288 −UGUCGCCCAGGCUGGAGUGCAGUG 24 26168 CFTR-Intron10-7289 −UAAGAAGAGAAAGGGGUG 18 26169 CFTR-Intron10-7290 − AUAAGAAGAGAAAGGGGUG 1926170 CFTR-Intron10-7291 − GAUAAGAAGAGAAAGGGGUG 20 26171CFTR-Intron10-7292 − UGAUAAGAAGAGAAAGGGGUG 21 26172 CFTR-Intron10-7293 −UUGAUAAGAAGAGAAAGGGGUG 22 26173 CFTR-Intron10-7294 −GUUGAUAAGAAGAGAAAGGGGUG 23 26174 CFTR-Intron10-7295 −GGUUGAUAAGAAGAGAAAGGGGUG 24 26175 CFTR-Intron10-7296 −AGGUUAAGGAGGUGGGUG 18 26176 CFTR-Intron10-7297 − GAGGUUAAGGAGGUGGGUG 1926177 CFTR-Intron10-7298 − AGAGGUUAAGGAGGUGGGUG 20 26178CFTR-Intron10-7299 − UAGAGGUUAAGGAGGUGGGUG 21 26179 CFTR-Intron10-7300 −UUAGAGGUUAAGGAGGUGGGUG 22 26180 CFTR-Intron10-7301 −AUUAGAGGUUAAGGAGGUGGGUG 23 26181 CFTR-Intron10-7302 −UAUUAGAGGUUAAGGAGGUGGGUG 24 26182 CFTR-Intron10-7303 −GGAGCCAAAAAUUGGGUG 18 26183 CFTR-Intron10-7304 − AGGAGCCAAAAAUUGGGUG 1926184 CFTR-Intron10-489 − CAGGAGCCAAAAAUUGGGUG 20 19375CFTR-Intron10-7305 − UCAGGAGCCAAAAAUUGGGUG 21 26185 CFTR-Intron10-7306 −UUCAGGAGCCAAAAAUUGGGUG 22 26186 CFTR-Intron10-7307 −UUUCAGGAGCCAAAAAUUGGGUG 23 26187 CFTR-Intron10-7308 −CUUUCAGGAGCCAAAAAUUGGGUG 24 26188 CFTR-Intron10-7309 −UGGCAUCUCACCAGUGUG 18 26189 CFTR-Intron10-7310 − AUGGCAUCUCACCAGUGUG 1926190 CFTR-Intron10-491 − UAUGGCAUCUCACCAGUGUG 20 19377CFTR-Intron10-7311 − UUAUGGCAUCUCACCAGUGUG 21 26191 CFTR-Intron10-7312 −CUUAUGGCAUCUCACCAGUGUG 22 26192 CFTR-Intron10-7313 −GCUUAUGGCAUCUCACCAGUGUG 23 26193 CFTR-Intron10-7314 −GGCUUAUGGCAUCUCACCAGUGUG 24 26194 CFTR-Intron10-7315 −UUAUAAAAAAUAAUUGUG 18 26195 CFTR-Intron10-7316 − UUUAUAAAAAAUAAUUGUG 1926196 CFTR-Intron10-7317 − UUUUAUAAAAAAUAAUUGUG 20 26197CFTR-Intron10-7318 − UUUUUAUAAAAAAUAAUUGUG 21 26198 CFTR-Intron10-7319 −AUUUUUAUAAAAAAUAAUUGUG 22 26199 CFTR-Intron10-7320 −GAUUUUUAUAAAAAAUAAUUGUG 23 26200 CFTR-Intron10-7321 −AGAUUUUUAUAAAAAAUAAUUGUG 24 26201 CFTR-Intron10-7322 −GCAGUUUUAUUAAAAUUG 18 26202 CFTR-Intron10-7323 − GGCAGUUUUAUUAAAAUUG 1926203 CFTR-Intron10-7324 − AGGCAGUUUUAUUAAAAUUG 20 26204CFTR-Intron10-7325 − CAGGCAGUUUUAUUAAAAUUG 21 26205 CFTR-Intron10-7326 −UCAGGCAGUUUUAUUAAAAUUG 22 26206 CFTR-Intron10-7327 −UUCAGGCAGUUUUAUUAAAAUUG 23 26207 CFTR-Intron10-7328 −UUUCAGGCAGUUUUAUUAAAAUUG 24 26208 CFTR-Intron10-7329 −GCUCUCUUUUAACUAUUG 18 26209 CFTR-Intron10-7330 − UGCUCUCUUUUAACUAUUG 1926210 CFTR-Intron10-495 − UUGCUCUCUUUUAACUAUUG 20 19381CFTR-Intron10-7331 − CUUGCUCUCUUUUAACUAUUG 21 26211 CFTR-Intron10-7332 −ACUUGCUCUCUUUUAACUAUUG 22 26212 CFTR-Intron10-7333 −AACUUGCUCUCUUUUAACUAUUG 23 26213 CFTR-Intron10-7334 −AAACUUGCUCUCUUUUAACUAUUG 24 26214 CFTR-Intron10-7335 −CAUUUGAACAAAGACUUG 18 26215 CFTR-Intron10-7336 − ACAUUUGAACAAAGACUUG 1926216 CFTR-Intron10-7337 − AACAUUUGAACAAAGACUUG 20 26217CFTR-Intron10-7338 − UAACAUUUGAACAAAGACUUG 21 26218 CFTR-Intron10-7339 −GUAACAUUUGAACAAAGACUUG 22 26219 CFTR-Intron10-7340 −GGUAACAUUUGAACAAAGACUUG 23 26220 CFTR-Intron10-7341 −AGGUAACAUUUGAACAAAGACUUG 24 26221 CFTR-Intron10-7342 −UUUAGCUGUGGUACUUUG 18 26222 CFTR-Intron10-7343 − UUUUAGCUGUGGUACUUUG 1926223 CFTR-Intron10-7344 − AUUUUAGCUGUGGUACUUUG 20 26224CFTR-Intron10-7345 − CAUUUUAGCUGUGGUACUUUG 21 26225 CFTR-Intron10-7346 −UCAUUUUAGCUGUGGUACUUUG 22 26226 CFTR-Intron10-7347 −GUCAUUUUAGCUGUGGUACUUUG 23 26227 CFTR-Intron10-7348 −UGUCAUUUUAGCUGUGGUACUUUG 24 26228 CFTR-Intron10-7349 −GAUUCAGGACAUGCUUUG 18 26229 CFTR-Intron10-7350 − AGAUUCAGGACAUGCUUUG 1926230 CFTR-Intron10-7351 − CAGAUUCAGGACAUGCUUUG 20 26231CFTR-Intron10-7352 − UCAGAUUCAGGACAUGCUUUG 21 26232 CFTR-Intron10-7353 −AUCAGAUUCAGGACAUGCUUUG 22 26233 CFTR-Intron10-7354 −GAUCAGAUUCAGGACAUGCUUUG 23 26234 CFTR-Intron10-7355 −UGAUCAGAUUCAGGACAUGCUUUG 24 26235 CFTR-Intron10-7356 −CUAUACCUGUCUGGUUUG 18 26236 CFTR-Intron10-7357 − ACUAUACCUGUCUGGUUUG 1926237 CFTR-Intron10-7358 − GACUAUACCUGUCUGGUUUG 20 26238CFTR-Intron10-7359 − UGACUAUACCUGUCUGGUUUG 21 26239 CFTR-Intron10-7360 −CUGACUAUACCUGUCUGGUUUG 22 26240 CFTR-Intron10-7361 −ACUGACUAUACCUGUCUGGUUUG 23 26241 CFTR-Intron10-7362 −GACUGACUAUACCUGUCUGGUUUG 24 26242 CFTR-Intron10-7363 −CUUACCCAAAUAUGUUUG 18 26243 CFTR-Intron10-7364 − ACUUACCCAAAUAUGUUUG 1926244 CFTR-Intron10-7365 − AACUUACCCAAAUAUGUUUG 20 26245CFTR-Intron10-7366 − UAACUUACCCAAAUAUGUUUG 21 26246 CFTR-Intron10-7367 −AUAACUUACCCAAAUAUGUUUG 22 26247 CFTR-Intron10-7368 −UAUAACUUACCCAAAUAUGUUUG 23 26248 CFTR-Intron10-7369 −CUAUAACUUACCCAAAUAUGUUUG 24 26249 CFTR-Intron10-7370 −UUACCCAAUAAAAAAAAU 18 26250 CFTR-Intron10-7371 − GUUACCCAAUAAAAAAAAU 1926251 CFTR-Intron10-7372 − UGUUACCCAAUAAAAAAAAU 20 26252CFTR-Intron10-7373 − UUGUUACCCAAUAAAAAAAAU 21 26253 CFTR-Intron10-7374 −AUUGUUACCCAAUAAAAAAAAU 22 26254 CFTR-Intron10-7375 −UAUUGUUACCCAAUAAAAAAAAU 23 26255 CFTR-Intron10-7376 −UUAUUGUUACCCAAUAAAAAAAAU 24 26256 CFTR-Intron10-7377 −UUUUGCAAAAUACAAAAU 18 26257 CFTR-Intron10-7378 − UUUUUGCAAAAUACAAAAU 1926258 CFTR-Intron10-7379 − CUUUUUGCAAAAUACAAAAU 20 26259CFTR-Intron10-7380 − ACUUUUUGCAAAAUACAAAAU 21 26260 CFTR-Intron10-7381 −CACUUUUUGCAAAAUACAAAAU 22 26261 CFTR-Intron10-7382 −GCACUUUUUGCAAAAUACAAAAU 23 26262 CFTR-Intron10-7383 −UGCACUUUUUGCAAAAUACAAAAU 24 26263 CFTR-Intron10-7384 −AACAAAAGAAAAGAAAAU 18 26264 CFTR-Intron10-7385 − UAACAAAAGAAAAGAAAAU 1926265 CFTR-Intron10-7386 − GUAACAAAAGAAAAGAAAAU 20 26266CFTR-Intron10-7387 − UGUAACAAAAGAAAAGAAAAU 21 26267 CFTR-Intron10-7388 −UUGUAACAAAAGAAAAGAAAAU 22 26268 CFTR-Intron10-7389 −GUUGUAACAAAAGAAAAGAAAAU 23 26269 CFTR-Intron10-7390 −UGUUGUAACAAAAGAAAAGAAAAU 24 26270 CFTR-Intron10-7391 −GACAUGAAAGAAUCAAAU 18 26271 CFTR-Intron10-7392 − AGACAUGAAAGAAUCAAAU 1926272 CFTR-Intron10-7393 − AAGACAUGAAAGAAUCAAAU 20 26273CFTR-Intron10-7394 − AAAGACAUGAAAGAAUCAAAU 21 26274 CFTR-Intron10-7395 −UAAAGACAUGAAAGAAUCAAAU 22 26275 CFTR-Intron10-7396 −UUAAAGACAUGAAAGAAUCAAAU 23 26276 CFTR-Intron10-7397 −UUUAAAGACAUGAAAGAAUCAAAU 24 26277 CFTR-Intron10-7398 −GUGGUACUUUGUAGAAAU 18 26278 CFTR-Intron10-7399 − UGUGGUACUUUGUAGAAAU 1926279 CFTR-Intron10-7400 − CUGUGGUACUUUGUAGAAAU 20 26280CFTR-Intron10-7401 − GCUGUGGUACUUUGUAGAAAU 21 26281 CFTR-Intron10-7402 −AGCUGUGGUACUUUGUAGAAAU 22 26282 CFTR-Intron10-7403 −UAGCUGUGGUACUUUGUAGAAAU 23 26283 CFTR-Intron10-7404 −UUAGCUGUGGUACUUUGUAGAAAU 24 26284 CFTR-Intron10-7405 −AGGAAGAAAGAAGGAAAU 18 26285 CFTR-Intron10-7406 − AAGGAAGAAAGAAGGAAAU 1926286 CFTR-Intron10-7407 − GAAGGAAGAAAGAAGGAAAU 20 26287CFTR-Intron10-7408 − GGAAGGAAGAAAGAAGGAAAU 21 26288 CFTR-Intron10-7409 −AGGAAGGAAGAAAGAAGGAAAU 22 26289 CFTR-Intron10-7410 −GAGGAAGGAAGAAAGAAGGAAAU 23 26290 CFTR-Intron10-7411 −AGAGGAAGGAAGAAAGAAGGAAAU 24 26291 CFTR-Intron10-7412 −ACUUGACCAGAAUGAAAU 18 26292 CFTR-Intron10-7413 − AACUUGACCAGAAUGAAAU 1926293 CFTR-Intron10-7414 − AAACUUGACCAGAAUGAAAU 20 26294CFTR-Intron10-7415 − CAAACUUGACCAGAAUGAAAU 21 26295 CFTR-Intron10-7416 −UCAAACUUGACCAGAAUGAAAU 22 26296 CFTR-Intron10-7417 −GUCAAACUUGACCAGAAUGAAAU 23 26297 CFTR-Intron10-7418 −GGUCAAACUUGACCAGAAUGAAAU 24 26298 CFTR-Intron10-7419 −ACCGGUGUCUUCUGAAAU 18 26299 CFTR-Intron10-7420 − AACCGGUGUCUUCUGAAAU 1926300 CFTR-Intron10-7421 − UAACCGGUGUCUUCUGAAAU 20 26301CFTR-Intron10-7422 − UUAACCGGUGUCUUCUGAAAU 21 26302 CFTR-Intron10-7423 −AUUAACCGGUGUCUUCUGAAAU 22 26303 CFTR-Intron10-7424 −AAUUAACCGGUGUCUUCUGAAAU 23 26304 CFTR-Intron10-7425 −UAAUUAACCGGUGUCUUCUGAAAU 24 26305 CFTR-Intron10-7426 −UUGGGGUUUUUUGACAAU 18 26306 CFTR-Intron10-7427 − UUUGGGGUUUUUUGACAAU 1926307 CFTR-Intron10-7428 − UUUUGGGGUUUUUUGACAAU 20 26308CFTR-Intron10-7429 − UUUUUGGGGUUUUUUGACAAU 21 26309 CFTR-Intron10-7430 −AUUUUUGGGGUUUUUUGACAAU 22 26310 CFTR-Intron10-7431 −AAUUUUUGGGGUUUUUUGACAAU 23 26311 CFTR-Intron10-7432 −AAAUUUUUGGGGUUUUUUGACAAU 24 26312 CFTR-Intron10-7433 −AAUGAAAUUAGAAAGAAU 18 26313 CFTR-Intron10-7434 − GAAUGAAAUUAGAAAGAAU 1926314 CFTR-Intron10-7435 − AGAAUGAAAUUAGAAAGAAU 20 26315CFTR-Intron10-7436 − CAGAAUGAAAUUAGAAAGAAU 21 26316 CFTR-Intron10-7437 −CCAGAAUGAAAUUAGAAAGAAU 22 26317 CFTR-Intron10-7438 −ACCAGAAUGAAAUUAGAAAGAAU 23 26318 CFTR-Intron10-7439 −GACCAGAAUGAAAUUAGAAAGAAU 24 26319 CFTR-Intron10-7440 −UAUUUUGAAGAAUUGAAU 18 26320 CFTR-Intron10-7441 − AUAUUUUGAAGAAUUGAAU 1926321 CFTR-Intron10-7442 − CAUAUUUUGAAGAAUUGAAU 20 26322CFTR-Intron10-7443 − CCAUAUUUUGAAGAAUUGAAU 21 26323 CFTR-Intron10-7444 −ACCAUAUUUUGAAGAAUUGAAU 22 26324 CFTR-Intron10-7445 −AACCAUAUUUUGAAGAAUUGAAU 23 26325 CFTR-Intron10-7446 −GAACCAUAUUUUGAAGAAUUGAAU 24 26326 CFTR-Intron10-7447 −UGGUACUACUGUAAUAAU 18 26327 CFTR-Intron10-7448 − AUGGUACUACUGUAAUAAU 1926328 CFTR-Intron10-7449 − UAUGGUACUACUGUAAUAAU 20 26329CFTR-Intron10-7450 − AUAUGGUACUACUGUAAUAAU 21 26330 CFTR-Intron10-7451 −CAUAUGGUACUACUGUAAUAAU 22 26331 CFTR-Intron10-7452 −ACAUAUGGUACUACUGUAAUAAU 23 26332 CFTR-Intron10-7453 −UACAUAUGGUACUACUGUAAUAAU 24 26333 CFTR-Intron10-7454 −GUUUACUAGAAAGAUAAU 18 26334 CFTR-Intron10-7455 − CGUUUACUAGAAAGAUAAU 1926335 CFTR-Intron10-501 − CCGUUUACUAGAAAGAUAAU 20 19387CFTR-Intron10-7456 − GCCGUUUACUAGAAAGAUAAU 21 26336 CFTR-Intron10-7457 −UGCCGUUUACUAGAAAGAUAAU 22 26337 CFTR-Intron10-7458 −GUGCCGUUUACUAGAAAGAUAAU 23 26338 CFTR-Intron10-7459 −UGUGCCGUUUACUAGAAAGAUAAU 24 26339 CFTR-Intron10-7460 −UGACUCUAGUUCACUAAU 18 26340 CFTR-Intron10-7461 − GUGACUCUAGUUCACUAAU 1926341 CFTR-Intron10-7462 − UGUGACUCUAGUUCACUAAU 20 26342CFTR-Intron10-7463 − AUGUGACUCUAGUUCACUAAU 21 26343 CFTR-Intron10-7464 −UAUGUGACUCUAGUUCACUAAU 22 26344 CFTR-Intron10-7465 −CUAUGUGACUCUAGUUCACUAAU 23 26345 CFTR-Intron10-7466 −UCUAUGUGACUCUAGUUCACUAAU 24 26346 CFTR-Intron10-7467 −AACAUUGAAAGGUAACAU 18 26347 CFTR-Intron10-7468 − AAACAUUGAAAGGUAACAU 1926348 CFTR-Intron10-7469 − UAAACAUUGAAAGGUAACAU 20 26349CFTR-Intron10-7470 − UUAAACAUUGAAAGGUAACAU 21 26350 CFTR-Intron10-7471 −UUUAAACAUUGAAAGGUAACAU 22 26351 CFTR-Intron10-7472 −CUUUAAACAUUGAAAGGUAACAU 23 26352 CFTR-Intron10-7473 −CCUUUAAACAUUGAAAGGUAACAU 24 26353 CFTR-Intron10-7474 −UUUUUUCAGUUAAUACAU 18 26354 CFTR-Intron10-7475 − UUUUUUUCAGUUAAUACAU 1926355 CFTR-Intron10-1332 − UUUUUUUUCAGUUAAUACAU 20 20217CFTR-Intron10-7476 − AUUUUUUUUCAGUUAAUACAU 21 26356 CFTR-Intron10-7477 −AAUUUUUUUUCAGUUAAUACAU 22 26357 CFTR-Intron10-7478 −GAAUUUUUUUUCAGUUAAUACAU 23 26358 CFTR-Intron10-7479 −UGAAUUUUUUUUCAGUUAAUACAU 24 26359 CFTR-Intron10-7480 −GCAUAUUUGGAGAUACAU 18 26360 CFTR-Intron10-7481 − GGCAUAUUUGGAGAUACAU 1926361 CFTR-Intron10-7482 − UGGCAUAUUUGGAGAUACAU 20 26362CFTR-Intron10-7483 − CUGGCAUAUUUGGAGAUACAU 21 26363 CFTR-Intron10-7484 −CCUGGCAUAUUUGGAGAUACAU 22 26364 CFTR-Intron10-7485 −ACCUGGCAUAUUUGGAGAUACAU 23 26365 CFTR-Intron10-7486 −AACCUGGCAUAUUUGGAGAUACAU 24 26366 CFTR-Intron10-7487 −CCAGUUGUUUUCCUACAU 18 26367 CFTR-Intron10-7488 − UCCAGUUGUUUUCCUACAU 1926368 CFTR-Intron10-7489 − CUCCAGUUGUUUUCCUACAU 20 26369CFTR-Intron10-7490 − UCUCCAGUUGUUUUCCUACAU 21 26370 CFTR-Intron10-7491 −CUCUCCAGUUGUUUUCCUACAU 22 26371 CFTR-Intron10-7492 −UCUCUCCAGUUGUUUUCCUACAU 23 26372 CFTR-Intron10-7493 −CUCUCUCCAGUUGUUUUCCUACAU 24 26373 CFTR-Intron10-7494 −CUCACCCCUUUCUGCCAU 18 26374 CFTR-Intron10-7495 − CCUCACCCCUUUCUGCCAU 1926375 CFTR-Intron10-7496 − CCCUCACCCCUUUCUGCCAU 20 26376CFTR-Intron10-7497 − ACCCUCACCCCUUUCUGCCAU 21 26377 CFTR-Intron10-7498 −GACCCUCACCCCUUUCUGCCAU 22 26378 CFTR-Intron10-7499 −AGACCCUCACCCCUUUCUGCCAU 23 26379 CFTR-Intron10-7500 −GAGACCCUCACCCCUUUCUGCCAU 24 26380 CFTR-Intron10-7501 −UAAGUUGAACAAUGGCAU 18 26381 CFTR-Intron10-7502 − AUAAGUUGAACAAUGGCAU 1926382 CFTR-Intron10-7503 − GAUAAGUUGAACAAUGGCAU 20 26383CFTR-Intron10-7504 − GGAUAAGUUGAACAAUGGCAU 21 26384 CFTR-Intron10-7505 −UGGAUAAGUUGAACAAUGGCAU 22 26385 CFTR-Intron10-7506 −AUGGAUAAGUUGAACAAUGGCAU 23 26386 CFTR-Intron10-7507 −AAUGGAUAAGUUGAACAAUGGCAU 24 26387 CFTR-Intron10-7508 −AAAAUAUCACCAACUCAU 18 26388 CFTR-Intron10-7509 − AAAAAUAUCACCAACUCAU 1926389 CFTR-Intron10-7510 − GAAAAAUAUCACCAACUCAU 20 26390CFTR-Intron10-7511 − UGAAAAAUAUCACCAACUCAU 21 26391 CFTR-Intron10-7512 −AUGAAAAAUAUCACCAACUCAU 22 26392 CFTR-Intron10-7513 −AAUGAAAAAUAUCACCAACUCAU 23 26393 CFTR-Intron10-7514 −UAAUGAAAAAUAUCACCAACUCAU 24 26394 CFTR-Intron10-7515 −UUUGUAAAUUUGUUUCAU 18 26395 CFTR-Intron10-7516 − UUUUGUAAAUUUGUUUCAU 1926396 CFTR-Intron10-7517 − AUUUUGUAAAUUUGUUUCAU 20 26397CFTR-Intron10-7518 − AAUUUUGUAAAUUUGUUUCAU 21 26398 CFTR-Intron10-7519 −UAAUUUUGUAAAUUUGUUUCAU 22 26399 CFTR-Intron10-7520 −CUAAUUUUGUAAAUUUGUUUCAU 23 26400 CFTR-Intron10-7521 −ACUAAUUUUGUAAAUUUGUUUCAU 24 26401 CFTR-Intron10-7522 −UUUAUCAAUAUCUAAGAU 18 26402 CFTR-Intron10-7523 − AUUUAUCAAUAUCUAAGAU 1926403 CFTR-Intron10-7524 − UAUUUAUCAAUAUCUAAGAU 20 26404CFTR-Intron10-7525 − UUAUUUAUCAAUAUCUAAGAU 21 26405 CFTR-Intron10-7526 −AUUAUUUAUCAAUAUCUAAGAU 22 26406 CFTR-Intron10-7527 −AAUUAUUUAUCAAUAUCUAAGAU 23 26407 CFTR-Intron10-7528 −CAAUUAUUUAUCAAUAUCUAAGAU 24 26408 CFTR-Intron10-7529 −AAGAAUCAAAUUAGAGAU 18 26409 CFTR-Intron10-7530 − AAAGAAUCAAAUUAGAGAU 1926410 CFTR-Intron10-7531 − GAAAGAAUCAAAUUAGAGAU 20 26411CFTR-Intron10-7532 − UGAAAGAAUCAAAUUAGAGAU 21 26412 CFTR-Intron10-7533 −AUGAAAGAAUCAAAUUAGAGAU 22 26413 CFTR-Intron10-7534 −CAUGAAAGAAUCAAAUUAGAGAU 23 26414 CFTR-Intron10-7535 −ACAUGAAAGAAUCAAAUUAGAGAU 24 26415 CFTR-Intron10-7536 −UUUGGAAUUUUGGGAGAU 18 26416 CFTR-Intron10-7537 − UUUUGGAAUUUUGGGAGAU 1926417 CFTR-Intron10-7538 − AUUUUGGAAUUUUGGGAGAU 20 26418CFTR-Intron10-7539 − UAUUUUGGAAUUUUGGGAGAU 21 26419 CFTR-Intron10-7540 −AUAUUUUGGAAUUUUGGGAGAU 22 26420 CFTR-Intron10-7541 −AAUAUUUUGGAAUUUUGGGAGAU 23 26421 CFTR-Intron10-7542 −CAAUAUUUUGGAAUUUUGGGAGAU 24 26422 CFTR-Intron10-7543 −UAUUUCUCUGGGUGAGAU 18 26423 CFTR-Intron10-7544 − UUAUUUCUCUGGGUGAGAU 1926424 CFTR-Intron10-7545 − CUUAUUUCUCUGGGUGAGAU 20 26425CFTR-Intron10-7546 − GCUUAUUUCUCUGGGUGAGAU 21 26426 CFTR-Intron10-7547 −GGCUUAUUUCUCUGGGUGAGAU 22 26427 CFTR-Intron10-7548 −AGGCUUAUUUCUCUGGGUGAGAU 23 26428 CFTR-Intron10-7549 −AAGGCUUAUUUCUCUGGGUGAGAU 24 26429 CFTR-Intron10-7550 −UCUGAAAAAAUAGUAGAU 18 26430 CFTR-Intron10-7551 − AUCUGAAAAAAUAGUAGAU 1926431 CFTR-Intron10-7552 − CAUCUGAAAAAAUAGUAGAU 20 26432CFTR-Intron10-7553 − ACAUCUGAAAAAAUAGUAGAU 21 26433 CFTR-Intron10-7554 −UACAUCUGAAAAAAUAGUAGAU 22 26434 CFTR-Intron10-7555 −AUACAUCUGAAAAAAUAGUAGAU 23 26435 CFTR-Intron10-7556 −GAUACAUCUGAAAAAAUAGUAGAU 24 26436 CFTR-Intron10-7557 −UUGCAGGAGGUGAGGGAU 18 26437 CFTR-Intron10-7558 − CUUGCAGGAGGUGAGGGAU 1926438 CFTR-Intron10-7559 − ACUUGCAGGAGGUGAGGGAU 20 26439CFTR-Intron10-7560 − GACUUGCAGGAGGUGAGGGAU 21 26440 CFTR-Intron10-7561 −AGACUUGCAGGAGGUGAGGGAU 22 26441 CFTR-Intron10-7562 −AAGACUUGCAGGAGGUGAGGGAU 23 26442 CFTR-Intron10-7563 −AAAGACUUGCAGGAGGUGAGGGAU 24 26443 CFTR-Intron10-7564 −AAAGGAAAGAGGGUUGAU 18 26444 CFTR-Intron10-7565 − UAAAGGAAAGAGGGUUGAU 1926445 CFTR-Intron10-7566 − CUAAAGGAAAGAGGGUUGAU 20 26446CFTR-Intron10-7567 − UCUAAAGGAAAGAGGGUUGAU 21 26447 CFTR-Intron10-7568 −UUCUAAAGGAAAGAGGGUUGAU 22 26448 CFTR-Intron10-7569 −AUUCUAAAGGAAAGAGGGUUGAU 23 26449 CFTR-Intron10-7570 −GAUUCUAAAGGAAAGAGGGUUGAU 24 26450 CFTR-Intron10-7571 −AGUUGAACAAUGGCAUAU 18 26451 CFTR-Intron10-7572 − AAGUUGAACAAUGGCAUAU 1926452 CFTR-Intron10-7573 − UAAGUUGAACAAUGGCAUAU 20 26453CFTR-Intron10-7574 − AUAAGUUGAACAAUGGCAUAU 21 26454 CFTR-Intron10-7575 −GAUAAGUUGAACAAUGGCAUAU 22 26455 CFTR-Intron10-7576 −GGAUAAGUUGAACAAUGGCAUAU 23 26456 CFTR-Intron10-7577 −UGGAUAAGUUGAACAAUGGCAUAU 24 26457 CFTR-Intron10-7578 −CAACUUAACCUGGCAUAU 18 26458 CFTR-Intron10-7579 − ACAACUUAACCUGGCAUAU 1926459 CFTR-Intron10-7580 − AACAACUUAACCUGGCAUAU 20 26460CFTR-Intron10-7581 − GAACAACUUAACCUGGCAUAU 21 26461 CFTR-Intron10-7582 −AGAACAACUUAACCUGGCAUAU 22 26462 CFTR-Intron10-7583 −AAGAACAACUUAACCUGGCAUAU 23 26463 CFTR-Intron10-7584 −UAAGAACAACUUAACCUGGCAUAU 24 26464 CFTR-Intron10-7585 −AUUAAAAAAUUAUACUAU 18 26465 CFTR-Intron10-7586 − UAUUAAAAAAUUAUACUAU 1926466 CFTR-Intron10-1337 − CUAUUAAAAAAUUAUACUAU 20 20222CFTR-Intron10-7587 − ACUAUUAAAAAAUUAUACUAU 21 26467 CFTR-Intron10-7588 −CACUAUUAAAAAAUUAUACUAU 22 26468 CFTR-Intron10-7589 −UCACUAUUAAAAAAUUAUACUAU 23 26469 CFTR-Intron10-7590 −UUCACUAUUAAAAAAUUAUACUAU 24 26470 CFTR-Intron10-7591 −UUUAUAAAGCUGUACUAU 18 26471 CFTR-Intron10-7592 − GUUUAUAAAGCUGUACUAU 1926472 CFTR-Intron10-7593 − GGUUUAUAAAGCUGUACUAU 20 26473CFTR-Intron10-7594 − AGGUUUAUAAAGCUGUACUAU 21 26474 CFTR-Intron10-7595 −UAGGUUUAUAAAGCUGUACUAU 22 26475 CFTR-Intron10-7596 −UUAGGUUUAUAAAGCUGUACUAU 23 26476 CFTR-Intron10-7597 −UUUAGGUUUAUAAAGCUGUACUAU 24 26477 CFTR-Intron10-7598 −UAAGGGCAUUCUAAGUAU 18 26478 CFTR-Intron10-7599 − CUAAGGGCAUUCUAAGUAU 1926479 CFTR-Intron10-7600 − CCUAAGGGCAUUCUAAGUAU 20 26480CFTR-Intron10-7601 − GCCUAAGGGCAUUCUAAGUAU 21 26481 CFTR-Intron10-7602 −AGCCUAAGGGCAUUCUAAGUAU 22 26482 CFTR-Intron10-7603 −UAGCCUAAGGGCAUUCUAAGUAU 23 26483 CFTR-Intron10-7604 −UUAGCCUAAGGGCAUUCUAAGUAU 24 26484 CFTR-Intron10-7605 −GCUGCCUUUUAGUAGUAU 18 26485 CFTR-Intron10-7606 − GGCUGCCUUUUAGUAGUAU 1926486 CFTR-Intron10-7607 − AGGCUGCCUUUUAGUAGUAU 20 26487CFTR-Intron10-7608 − GAGGCUGCCUUUUAGUAGUAU 21 26488 CFTR-Intron10-7609 −GGAGGCUGCCUUUUAGUAGUAU 22 26489 CFTR-Intron10-7610 −AGGAGGCUGCCUUUUAGUAGUAU 23 26490 CFTR-Intron10-7611 −UAGGAGGCUGCCUUUUAGUAGUAU 24 26491 CFTR-Intron10-7612 −CUUUUUCAUUGAAUGUAU 18 26492 CFTR-Intron10-7613 − UCUUUUUCAUUGAAUGUAU 1926493 CFTR-Intron10-7614 − UUCUUUUUCAUUGAAUGUAU 20 26494CFTR-Intron10-7615 − UUUCUUUUUCAUUGAAUGUAU 21 26495 CFTR-Intron10-7616 −UUUUCUUUUUCAUUGAAUGUAU 22 26496 CFTR-Intron10-7617 −CUUUUCUUUUUCAUUGAAUGUAU 23 26497 CFTR-Intron10-7618 −CCUUUUCUUUUUCAUUGAAUGUAU 24 26498 CFTR-Intron10-7619 −CAAUUUGGUAAUUUGUAU 18 26499 CFTR-Intron10-7620 − ACAAUUUGGUAAUUUGUAU 1926500 CFTR-Intron10-7621 − UACAAUUUGGUAAUUUGUAU 20 26501CFTR-Intron10-7622 − AUACAAUUUGGUAAUUUGUAU 21 26502 CFTR-Intron10-7623 −AAUACAAUUUGGUAAUUUGUAU 22 26503 CFTR-Intron10-7624 −CAAUACAAUUUGGUAAUUUGUAU 23 26504 CFTR-Intron10-7625 −UCAAUACAAUUUGGUAAUUUGUAU 24 26505 CFTR-Intron10-7626 −AUUUUUAACCUGGAUUAU 18 26506 CFTR-Intron10-7627 − UAUUUUUAACCUGGAUUAU 1926507 CFTR-Intron10-7628 − AUAUUUUUAACCUGGAUUAU 20 26508CFTR-Intron10-7629 − UAUAUUUUUAACCUGGAUUAU 21 26509 CFTR-Intron10-7630 −AUAUAUUUUUAACCUGGAUUAU 22 26510 CFTR-Intron10-7631 −UAUAUAUUUUUAACCUGGAUUAU 23 26511 CFTR-Intron10-7632 −AUAUAUAUUUUUAACCUGGAUUAU 24 26512 CFTR-Intron10-7633 −AAAAGUUUCUCAUCUUAU 18 26513 CFTR-Intron10-7634 − AAAAAGUUUCUCAUCUUAU 1926514 CFTR-Intron10-1339 − UAAAAAGUUUCUCAUCUUAU 20 20224CFTR-Intron10-7635 − UUAAAAAGUUUCUCAUCUUAU 21 26515 CFTR-Intron10-7636 −UUUAAAAAGUUUCUCAUCUUAU 22 26516 CFTR-Intron10-7637 −AUUUAAAAAGUUUCUCAUCUUAU 23 26517 CFTR-Intron10-7638 −AAUUUAAAAAGUUUCUCAUCUUAU 24 26518 CFTR-Intron10-7639 −UUCCCAGCCUCCAGAACU 18 26519 CFTR-Intron10-7640 − CUUCCCAGCCUCCAGAACU 1926520 CFTR-Intron10-7641 − ACUUCCCAGCCUCCAGAACU 20 26521CFTR-Intron10-7642 − GACUUCCCAGCCUCCAGAACU 21 26522 CFTR-Intron10-7643 −GGACUUCCCAGCCUCCAGAACU 22 26523 CFTR-Intron10-7644 −UGGACUUCCCAGCCUCCAGAACU 23 26524 CFTR-Intron10-7645 −UUGGACUUCCCAGCCUCCAGAACU 24 26525 CFTR-Intron10-7646 −GAUUAGGGAAUGCAGACU 18 26526 CFTR-Intron10-7647 − GGAUUAGGGAAUGCAGACU 1926527 CFTR-Intron10-7648 − GGGAUUAGGGAAUGCAGACU 20 26528CFTR-Intron10-7649 − AGGGAUUAGGGAAUGCAGACU 21 26529 CFTR-Intron10-7650 −GAGGGAUUAGGGAAUGCAGACU 22 26530 CFTR-Intron10-7651 −UGAGGGAUUAGGGAAUGCAGACU 23 26531 CFTR-Intron10-7652 −GUGAGGGAUUAGGGAAUGCAGACU 24 26532 CFTR-Intron10-7653 −AGAAUUGAAUAUGAGACU 18 26533 CFTR-Intron10-7654 − AAGAAUUGAAUAUGAGACU 1926534 CFTR-Intron10-114 − GAAGAAUUGAAUAUGAGACU 20 19000CFTR-Intron10-7655 − UGAAGAAUUGAAUAUGAGACU 21 26535 CFTR-Intron10-7656 −UUGAAGAAUUGAAUAUGAGACU 22 26536 CFTR-Intron10-7657 −UUUGAAGAAUUGAAUAUGAGACU 23 26537 CFTR-Intron10-7658 −UUUUGAAGAAUUGAAUAUGAGACU 24 26538 CFTR-Intron10-7659 −UAGAUUAGCUUAUAUACU 18 26539 CFTR-Intron10-7660 − AUAGAUUAGCUUAUAUACU 1926540 CFTR-Intron10-7661 − AAUAGAUUAGCUUAUAUACU 20 26541CFTR-Intron10-7662 − GAAUAGAUUAGCUUAUAUACU 21 26542 CFTR-Intron10-7663 −UGAAUAGAUUAGCUUAUAUACU 22 26543 CFTR-Intron10-7664 −UUGAAUAGAUUAGCUUAUAUACU 23 26544 CFTR-Intron10-7665 −UUUGAAUAGAUUAGCUUAUAUACU 24 26545 CFTR-Intron10-7666 −CCCGUAGUCCCAGCUACU 18 26546 CFTR-Intron10-7667 − GCCCGUAGUCCCAGCUACU 1926547 CFTR-Intron10-1343 − UGCCCGUAGUCCCAGCUACU 20 20228CFTR-Intron10-7668 − GUGCCCGUAGUCCCAGCUACU 21 26548 CFTR-Intron10-7669 −GGUGCCCGUAGUCCCAGCUACU 22 26549 CFTR-Intron10-7670 −GGGUGCCCGUAGUCCCAGCUACU 23 26550 CFTR-Intron10-7671 −CGGGUGCCCGUAGUCCCAGCUACU 24 26551 CFTR-Intron10-7672 −GUGCCUGUAGUCCCAGCUACU 21 26552 CFTR-Intron10-7673 −UGUGCCUGUAGUCCCAGCUACU 22 26553 CFTR-Intron10-7674 −GUGUGCCUGUAGUCCCAGCUACU 23 26554 CFTR-Intron10-7675 −UGUGUGCCUGUAGUCCCAGCUACU 24 26555 CFTR-Intron10-7676 −UCUUUAUAAAAGAAACCU 18 26556 CFTR-Intron10-7677 − GUCUUUAUAAAAGAAACCU 1926557 CFTR-Intron10-7678 − UGUCUUUAUAAAAGAAACCU 20 26558CFTR-Intron10-7679 − GUGUCUUUAUAAAAGAAACCU 21 26559 CFTR-Intron10-7680 −AGUGUCUUUAUAAAAGAAACCU 22 26560 CFTR-Intron10-7681 −UAGUGUCUUUAUAAAAGAAACCU 23 26561 CFTR-Intron10-7682 −UUAGUGUCUUUAUAAAAGAAACCU 24 26562 CFTR-Intron10-7683 −AGAGAGACCCUCACACCU 18 26563 CFTR-Intron10-7684 − UAGAGAGACCCUCACACCU 1926564 CFTR-Intron10-7685 − UUAGAGAGACCCUCACACCU 20 26565CFTR-Intron10-7686 − CUUAGAGAGACCCUCACACCU 21 26566 CFTR-Intron10-7687 −CCUUAGAGAGACCCUCACACCU 22 26567 CFTR-Intron10-7688 −ACCUUAGAGAGACCCUCACACCU 23 26568 CFTR-Intron10-7689 −AACCUUAGAGAGACCCUCACACCU 24 26569 CFTR-Intron10-7690 −UUCUCCAUAUCCCACCCU 18 26570 CFTR-Intron10-7691 − CUUCUCCAUAUCCCACCCU 1926571 CFTR-Intron10-7692 − UCUUCUCCAUAUCCCACCCU 20 26572CFTR-Intron10-7693 − CUCUUCUCCAUAUCCCACCCU 21 26573 CFTR-Intron10-7694 −CCUCUUCUCCAUAUCCCACCCU 22 26574 CFTR-Intron10-7695 −UCCUCUUCUCCAUAUCCCACCCU 23 26575 CFTR-Intron10-7696 −AUCCUCUUCUCCAUAUCCCACCCU 24 26576 CFTR-Intron10-7697 −AGGAAGGCAGUGGUCCCU 18 26577 CFTR-Intron10-7698 − GAGGAAGGCAGUGGUCCCU 1926578 CFTR-Intron10-515 − AGAGGAAGGCAGUGGUCCCU 20 19401CFTR-Intron10-7699 − UAGAGGAAGGCAGUGGUCCCU 21 26579 CFTR-Intron10-7700 −UUAGAGGAAGGCAGUGGUCCCU 22 26580 CFTR-Intron10-7701 −GUUAGAGGAAGGCAGUGGUCCCU 23 26581 CFTR-Intron10-7702 −AGUUAGAGGAAGGCAGUGGUCCCU 24 26582 CFTR-Intron10-7703 −GGAGGAUCACCUGAGCCU 18 26583 CFTR-Intron10-7704 − GGGAGGAUCACCUGAGCCU 1926584 CFTR-Intron10-7705 − UGGGAGGAUCACCUGAGCCU 20 26585CFTR-Intron10-7706 − GUGGGAGGAUCACCUGAGCCU 21 26586 CFTR-Intron10-7707 −GGUGGGAGGAUCACCUGAGCCU 22 26587 CFTR-Intron10-7708 −AGGUGGGAGGAUCACCUGAGCCU 23 26588 CFTR-Intron10-7709 −GAGGUGGGAGGAUCACCUGAGCCU 24 26589 CFTR-Intron10-7710 −GGGUGUAGGGGUUAGCCU 18 26590 CFTR-Intron10-7711 − GGGGUGUAGGGGUUAGCCU 1926591 CFTR-Intron10-7712 − AGGGGUGUAGGGGUUAGCCU 20 26592CFTR-Intron10-7713 − AAGGGGUGUAGGGGUUAGCCU 21 26593 CFTR-Intron10-7714 −AAAGGGGUGUAGGGGUUAGCCU 22 26594 CFTR-Intron10-7715 −GAAAGGGGUGUAGGGGUUAGCCU 23 26595 CFTR-Intron10-7716 −AGAAAGGGGUGUAGGGGUUAGCCU 24 26596 CFTR-Intron10-7717 −UAUUGCAGGGUGGGGCCU 18 26597 CFTR-Intron10-7718 − GUAUUGCAGGGUGGGGCCU 1926598 CFTR-Intron10-7719 − GGUAUUGCAGGGUGGGGCCU 20 26599CFTR-Intron10-7720 − UGGUAUUGCAGGGUGGGGCCU 21 26600 CFTR-Intron10-7721 −AUGGUAUUGCAGGGUGGGGCCU 22 26601 CFTR-Intron10-7722 −GAUGGUAUUGCAGGGUGGGGCCU 23 26602 CFTR-Intron10-7723 −UGAUGGUAUUGCAGGGUGGGGCCU 24 26603 CFTR-Intron10-7724 −UUUGACCUAAGAUAUCCU 18 26604 CFTR-Intron10-7725 − CUUUGACCUAAGAUAUCCU 1926605 CFTR-Intron10-7726 − UCUUUGACCUAAGAUAUCCU 20 26606CFTR-Intron10-7727 − CUCUUUGACCUAAGAUAUCCU 21 26607 CFTR-Intron10-7728 −CCUCUUUGACCUAAGAUAUCCU 22 26608 CFTR-Intron10-7729 −UCCUCUUUGACCUAAGAUAUCCU 23 26609 CFTR-Intron10-7730 −UUCCUCUUUGACCUAAGAUAUCCU 24 26610 CFTR-Intron10-7731 −AGCUUAUGAAAAGCAGCU 18 26611 CFTR-Intron10-7732 − UAGCUUAUGAAAAGCAGCU 1926612 CFTR-Intron10-7733 − AUAGCUUAUGAAAAGCAGCU 20 26613CFTR-Intron10-7734 − UAUAGCUUAUGAAAAGCAGCU 21 26614 CFTR-Intron10-7735 −UUAUAGCUUAUGAAAAGCAGCU 22 26615 CFTR-Intron10-7736 −GUUAUAGCUUAUGAAAAGCAGCU 23 26616 CFTR-Intron10-7737 −AGUUAUAGCUUAUGAAAAGCAGCU 24 26617 CFTR-Intron10-7738 −AGAUGUGCAAAAAUAGCU 18 26618 CFTR-Intron10-7739 − UAGAUGUGCAAAAAUAGCU 1926619 CFTR-Intron10-7740 − AUAGAUGUGCAAAAAUAGCU 20 26620CFTR-Intron10-7741 − GAUAGAUGUGCAAAAAUAGCU 21 26621 CFTR-Intron10-7742 −UGAUAGAUGUGCAAAAAUAGCU 22 26622 CFTR-Intron10-7743 −AUGAUAGAUGUGCAAAAAUAGCU 23 26623 CFTR-Intron10-7744 −UAUGAUAGAUGUGCAAAAAUAGCU 24 26624 CFTR-Intron10-7745 −UCAGAUUCAGGACAUGCU 18 26625 CFTR-Intron10-7746 − AUCAGAUUCAGGACAUGCU 1926626 CFTR-Intron10-7747 − GAUCAGAUUCAGGACAUGCU 20 26627CFTR-Intron10-7748 − UGAUCAGAUUCAGGACAUGCU 21 26628 CFTR-Intron10-7749 −GUGAUCAGAUUCAGGACAUGCU 22 26629 CFTR-Intron10-7750 −AGUGAUCAGAUUCAGGACAUGCU 23 26630 CFTR-Intron10-7751 −AAGUGAUCAGAUUCAGGACAUGCU 24 26631 CFTR-Intron10-7752 −AGUUUACUAACUCAAUCU 18 26632 CFTR-Intron10-7753 − GAGUUUACUAACUCAAUCU 1926633 CFTR-Intron10-118 − GGAGUUUACUAACUCAAUCU 20 19004CFTR-Intron10-7754 − CGGAGUUUACUAACUCAAUCU 21 26634 CFTR-Intron10-7755 −ACGGAGUUUACUAACUCAAUCU 22 26635 CFTR-Intron10-7756 −AACGGAGUUUACUAACUCAAUCU 23 26636 CFTR-Intron10-7757 −AAACGGAGUUUACUAACUCAAUCU 24 26637 CFTR-Intron10-7758 −UUUAUCAAGUUGUUAUCU 18 26638 CFTR-Intron10-7759 − AUUUAUCAAGUUGUUAUCU 1926639 CFTR-Intron10-7760 − AAUUUAUCAAGUUGUUAUCU 20 26640CFTR-Intron10-7761 − AAAUUUAUCAAGUUGUUAUCU 21 26641 CFTR-Intron10-7762 −UAAAUUUAUCAAGUUGUUAUCU 22 26642 CFTR-Intron10-7763 −AUAAAUUUAUCAAGUUGUUAUCU 23 26643 CFTR-Intron10-7764 −GAUAAAUUUAUCAAGUUGUUAUCU 24 26644 CFTR-Intron10-7765 −UUAGGGAAUGCAGACUCU 18 26645 CFTR-Intron10-7766 − AUUAGGGAAUGCAGACUCU 1926646 CFTR-Intron10-119 − GAUUAGGGAAUGCAGACUCU 20 19005CFTR-Intron10-7767 − GGAUUAGGGAAUGCAGACUCU 21 26647 CFTR-Intron10-7768 −GGGAUUAGGGAAUGCAGACUCU 22 26648 CFTR-Intron10-7769 −AGGGAUUAGGGAAUGCAGACUCU 23 26649 CFTR-Intron10-7770 −GAGGGAUUAGGGAAUGCAGACUCU 24 26650 CFTR-Intron10-7771 −CCAAUAAAAUAAAAGUCU 18 26651 CFTR-Intron10-7772 − CCCAAUAAAAUAAAAGUCU 1926652 CFTR-Intron10-7773 − ACCCAAUAAAAUAAAAGUCU 20 26653CFTR-Intron10-7774 − AACCCAAUAAAAUAAAAGUCU 21 26654 CFTR-Intron10-7775 −AAACCCAAUAAAAUAAAAGUCU 22 26655 CFTR-Intron10-7776 −AAAACCCAAUAAAAUAAAAGUCU 23 26656 CFTR-Intron10-7777 −GAAAACCCAAUAAAAUAAAAGUCU 24 26657 CFTR-Intron10-7778 −GAAUAUUUAAACACUUCU 18 26658 CFTR-Intron10-7779 − GGAAUAUUUAAACACUUCU 1926659 CFTR-Intron10-7780 − GGGAAUAUUUAAACACUUCU 20 26660CFTR-Intron10-7781 − UGGGAAUAUUUAAACACUUCU 21 26661 CFTR-Intron10-7782 −UUGGGAAUAUUUAAACACUUCU 22 26662 CFTR-Intron10-7783 −CUUGGGAAUAUUUAAACACUUCU 23 26663 CFTR-Intron10-7784 −CCUUGGGAAUAUUUAAACACUUCU 24 26664 CFTR-Intron10-7785 −ACCCAAUAAAAUAAAAGU 18 26665 CFTR-Intron10-7786 − AACCCAAUAAAAUAAAAGU 1926666 CFTR-Intron10-7787 − AAACCCAAUAAAAUAAAAGU 20 26667CFTR-Intron10-7788 − AAAACCCAAUAAAAUAAAAGU 21 26668 CFTR-Intron10-7789 −GAAAACCCAAUAAAAUAAAAGU 22 26669 CFTR-Intron10-7790 −AGAAAACCCAAUAAAAUAAAAGU 23 26670 CFTR-Intron10-7791 −AAGAAAACCCAAUAAAAUAAAAGU 24 26671 CFTR-Intron10-7792 −AUGAGGAAGAAAGGAAGU 18 26672 CFTR-Intron10-7793 − AAUGAGGAAGAAAGGAAGU 1926673 CFTR-Intron10-1369 − AAAUGAGGAAGAAAGGAAGU 20 20253CFTR-Intron10-7794 − GAAAUGAGGAAGAAAGGAAGU 21 26674 CFTR-Intron10-7795 −GGAAAUGAGGAAGAAAGGAAGU 22 26675 CFTR-Intron10-7796 −AGGAAAUGAGGAAGAAAGGAAGU 23 26676 CFTR-Intron10-7797 −AAGGAAAUGAGGAAGAAAGGAAGU 24 26677 CFTR-Intron10-7798 −GGAAAGAAGGAAGGAAGU 18 26678 CFTR-Intron10-7799 − AGGAAAGAAGGAAGGAAGU 1926679 CFTR-Intron10-7800 − AAGGAAAGAAGGAAGGAAGU 20 26680CFTR-Intron10-7801 − GAAGGAAAGAAGGAAGGAAGU 21 26681 CFTR-Intron10-7802 −GGAAGGAAAGAAGGAAGGAAGU 22 26682 CFTR-Intron10-7803 −AGGAAGGAAAGAAGGAAGGAAGU 23 26683 CFTR-Intron10-7804 −AAGGAAGGAAAGAAGGAAGGAAGU 24 26684 CFTR-Intron10-7805 −GGUUUGGGAAUAUUAAGU 18 26685 CFTR-Intron10-7806 − UGGUUUGGGAAUAUUAAGU 1926686 CFTR-Intron10-7807 − UUGGUUUGGGAAUAUUAAGU 20 26687CFTR-Intron10-7808 − CUUGGUUUGGGAAUAUUAAGU 21 26688 CFTR-Intron10-7809 −GCUUGGUUUGGGAAUAUUAAGU 22 26689 CFTR-Intron10-7810 −AGCUUGGUUUGGGAAUAUUAAGU 23 26690 CFTR-Intron10-7811 −GAGCUUGGUUUGGGAAUAUUAAGU 24 26691 CFTR-Intron10-7812 −UCUGGUUUGAAGAACAGU 18 26692 CFTR-Intron10-7813 − GUCUGGUUUGAAGAACAGU 1926693 CFTR-Intron10-7814 − UGUCUGGUUUGAAGAACAGU 20 26694CFTR-Intron10-7815 − CUGUCUGGUUUGAAGAACAGU 21 26695 CFTR-Intron10-7816 −CCUGUCUGGUUUGAAGAACAGU 22 26696 CFTR-Intron10-7817 −ACCUGUCUGGUUUGAAGAACAGU 23 26697 CFTR-Intron10-7818 −UACCUGUCUGGUUUGAAGAACAGU 24 26698 CFTR-Intron10-7819 −CAGCUAUGAAGGCAGAGU 18 26699 CFTR-Intron10-7820 − GCAGCUAUGAAGGCAGAGU 1926700 CFTR-Intron10-7821 − AGCAGCUAUGAAGGCAGAGU 20 26701CFTR-Intron10-7822 − AAGCAGCUAUGAAGGCAGAGU 21 26702 CFTR-Intron10-7823 −AAAGCAGCUAUGAAGGCAGAGU 22 26703 CFTR-Intron10-7824 −AAAAGCAGCUAUGAAGGCAGAGU 23 26704 CFTR-Intron10-7825 −GAAAAGCAGCUAUGAAGGCAGAGU 24 26705 CFTR-Intron10-7826 −UUGCUUGAGUCCAGGAGU 18 26706 CFTR-Intron10-7827 − AUUGCUUGAGUCCAGGAGU 1926707 CFTR-Intron10-7828 − AAUUGCUUGAGUCCAGGAGU 20 26708CFTR-Intron10-7829 − GAAUUGCUUGAGUCCAGGAGU 21 26709 CFTR-Intron10-7830 −UGAAUUGCUUGAGUCCAGGAGU 22 26710 CFTR-Intron10-7831 −GUGAAUUGCUUGAGUCCAGGAGU 23 26711 CFTR-Intron10-7832 −GGUGAAUUGCUUGAGUCCAGGAGU 24 26712 CFTR-Intron10-7833 −GGAAGCAAGGAGAUGAGU 18 26713 CFTR-Intron10-7834 − AGGAAGCAAGGAGAUGAGU 1926714 CFTR-Intron10-7835 − GAGGAAGCAAGGAGAUGAGU 20 26715CFTR-Intron10-7836 − GGAGGAAGCAAGGAGAUGAGU 21 26716 CFTR-Intron10-7837 −GGGAGGAAGCAAGGAGAUGAGU 22 26717 CFTR-Intron10-7838 −AGGGAGGAAGCAAGGAGAUGAGU 23 26718 CFTR-Intron10-7839 −AAGGGAGGAAGCAAGGAGAUGAGU 24 26719 CFTR-Intron10-7840 −UAGUGGAAGUAGUAUAGU 18 26720 CFTR-Intron10-7841 − GUAGUGGAAGUAGUAUAGU 1926721 CFTR-Intron10-533 − AGUAGUGGAAGUAGUAUAGU 20 19419CFTR-Intron10-7842 − UAGUAGUGGAAGUAGUAUAGU 21 26722 CFTR-Intron10-7843 −GUAGUAGUGGAAGUAGUAUAGU 22 26723 CFTR-Intron10-7844 −GGUAGUAGUGGAAGUAGUAUAGU 23 26724 CFTR-Intron10-7845 −AGGUAGUAGUGGAAGUAGUAUAGU 24 26725 CFTR-Intron10-7846 −GAAGAGGGGGCUGGUAGU 18 26726 CFTR-Intron10-7847 − GGAAGAGGGGGCUGGUAGU 1926727 CFTR-Intron10-7848 − AGGAAGAGGGGGCUGGUAGU 20 26728CFTR-Intron10-7849 − AAGGAAGAGGGGGCUGGUAGU 21 26729 CFTR-Intron10-7850 −CAAGGAAGAGGGGGCUGGUAGU 22 26730 CFTR-Intron10-7851 −UCAAGGAAGAGGGGGCUGGUAGU 23 26731 CFTR-Intron10-7852 −UUCAAGGAAGAGGGGGCUGGUAGU 24 26732 CFTR-Intron10-7853 −GAUGCUAAUCAUCUCCGU 18 26733 CFTR-Intron10-7854 − UGAUGCUAAUCAUCUCCGU 1926734 CFTR-Intron10-7855 − GUGAUGCUAAUCAUCUCCGU 20 26735CFTR-Intron10-7856 − CGUGAUGCUAAUCAUCUCCGU 21 26736 CFTR-Intron10-7857 −ACGUGAUGCUAAUCAUCUCCGU 22 26737 CFTR-Intron10-7858 −CACGUGAUGCUAAUCAUCUCCGU 23 26738 CFTR-Intron10-7859 −CCACGUGAUGCUAAUCAUCUCCGU 24 26739 CFTR-Intron10-7860 −GCAGCUAUGCCAGCAGGU 18 26740 CFTR-Intron10-7861 − UGCAGCUAUGCCAGCAGGU 1926741 CFTR-Intron10-7862 − GUGCAGCUAUGCCAGCAGGU 20 26742CFTR-Intron10-7863 − AGUGCAGCUAUGCCAGCAGGU 21 26743 CFTR-Intron10-7864 −CAGUGCAGCUAUGCCAGCAGGU 22 26744 CFTR-Intron10-7865 −UCAGUGCAGCUAUGCCAGCAGGU 23 26745 CFTR-Intron10-7866 −AUCAGUGCAGCUAUGCCAGCAGGU 24 26746 CFTR-Intron10-7867 −UCAGUGCUUUUUCGAGGU 18 26747 CFTR-Intron10-7868 − AUCAGUGCUUUUUCGAGGU 1926748 CFTR-Intron10-7869 − AAUCAGUGCUUUUUCGAGGU 20 26749CFTR-Intron10-7870 − AAAUCAGUGCUUUUUCGAGGU 21 26750 CFTR-Intron10-7871 −AAAAUCAGUGCUUUUUCGAGGU 22 26751 CFTR-Intron10-7872 −UAAAAUCAGUGCUUUUUCGAGGU 23 26752 CFTR-Intron10-7873 −AUAAAAUCAGUGCUUUUUCGAGGU 24 26753 CFTR-Intron10-7874 −CAAAGACUUGCAGGAGGU 18 26754 CFTR-Intron10-7875 − ACAAAGACUUGCAGGAGGU 1926755 CFTR-Intron10-7876 − AACAAAGACUUGCAGGAGGU 20 26756CFTR-Intron10-7877 − GAACAAAGACUUGCAGGAGGU 21 26757 CFTR-Intron10-7878 −UGAACAAAGACUUGCAGGAGGU 22 26758 CFTR-Intron10-7879 −UUGAACAAAGACUUGCAGGAGGU 23 26759 CFTR-Intron10-7880 −UUUGAACAAAGACUUGCAGGAGGU 24 26760 CFTR-Intron10-7881 −GUAAUCGGCGGUGGAGGU 18 26761 CFTR-Intron10-7882 − AGUAAUCGGCGGUGGAGGU 1926762 CFTR-Intron10-536 − AAGUAAUCGGCGGUGGAGGU 20 19422CFTR-Intron10-7883 − GAAGUAAUCGGCGGUGGAGGU 21 26763 CFTR-Intron10-7884 −AGAAGUAAUCGGCGGUGGAGGU 22 26764 CFTR-Intron10-7885 −GAGAAGUAAUCGGCGGUGGAGGU 23 26765 CFTR-Intron10-7886 −AGAGAAGUAAUCGGCGGUGGAGGU 24 26766 CFTR-Intron10-7887 −UACUUGGGAGGCUGAGGU 18 26767 CFTR-Intron10-7888 − CUACUUGGGAGGCUGAGGU 1926768 CFTR-Intron10-713 − GCUACUUGGGAGGCUGAGGU 20 19599CFTR-Intron10-7889 − AGCUACUUGGGAGGCUGAGGU 21 26769 CFTR-Intron10-7890 −CAGCUACUUGGGAGGCUGAGGU 22 26770 CFTR-Intron10-7891 −CCAGCUACUUGGGAGGCUGAGGU 23 26771 CFTR-Intron10-7892 −CCCAGCUACUUGGGAGGCUGAGGU 24 26772 CFTR-Intron10-7893 −AGGAGCCAAAAAUUGGGU 18 26773 CFTR-Intron10-7894 − CAGGAGCCAAAAAUUGGGU 1926774 CFTR-Intron10-537 − UCAGGAGCCAAAAAUUGGGU 20 19423CFTR-Intron10-7895 − UUCAGGAGCCAAAAAUUGGGU 21 26775 CFTR-Intron10-7896 −UUUCAGGAGCCAAAAAUUGGGU 22 26776 CFTR-Intron10-7897 −CUUUCAGGAGCCAAAAAUUGGGU 23 26777 CFTR-Intron10-7898 −GCUUUCAGGAGCCAAAAAUUGGGU 24 26778 CFTR-Intron10-7899 −UGACUAUACCUGUCUGGU 18 26779 CFTR-Intron10-7900 − CUGACUAUACCUGUCUGGU 1926780 CFTR-Intron10-7901 − ACUGACUAUACCUGUCUGGU 20 26781CFTR-Intron10-7902 − GACUGACUAUACCUGUCUGGU 21 26782 CFTR-Intron10-7903 −GGACUGACUAUACCUGUCUGGU 22 26783 CFTR-Intron10-7904 −GGGACUGACUAUACCUGUCUGGU 23 26784 CFTR-Intron10-7905 −UGGGACUGACUAUACCUGUCUGGU 24 26785 CFTR-Intron10-7906 −UUUUGGAUGGAGCUUGGU 18 26786 CFTR-Intron10-7907 − GUUUUGGAUGGAGCUUGGU 1926787 CFTR-Intron10-7908 − GGUUUUGGAUGGAGCUUGGU 20 26788CFTR-Intron10-7909 − AGGUUUUGGAUGGAGCUUGGU 21 26789 CFTR-Intron10-7910 −CAGGUUUUGGAUGGAGCUUGGU 22 26790 CFTR-Intron10-7911 −ACAGGUUUUGGAUGGAGCUUGGU 23 26791 CFTR-Intron10-7912 −AACAGGUUUUGGAUGGAGCUUGGU 24 26792 CFTR-Intron10-7913 −GGUACUUUGUAGAAAUGU 18 26793 CFTR-Intron10-7914 − UGGUACUUUGUAGAAAUGU 1926794 CFTR-Intron10-7915 − GUGGUACUUUGUAGAAAUGU 20 26795CFTR-Intron10-7916 − UGUGGUACUUUGUAGAAAUGU 21 26796 CFTR-Intron10-7917 −CUGUGGUACUUUGUAGAAAUGU 22 26797 CFTR-Intron10-7918 −GCUGUGGUACUUUGUAGAAAUGU 23 26798 CFTR-Intron10-7919 −AGCUGUGGUACUUUGUAGAAAUGU 24 26799 CFTR-Intron10-7920 −CACCCCUUUCUGCCAUGU 18 26800 CFTR-Intron10-7921 − UCACCCCUUUCUGCCAUGU 1926801 CFTR-Intron10-7922 − CUCACCCCUUUCUGCCAUGU 20 26802CFTR-Intron10-7923 − CCUCACCCCUUUCUGCCAUGU 21 26803 CFTR-Intron10-7924 −CCCUCACCCCUUUCUGCCAUGU 22 26804 CFTR-Intron10-7925 −ACCCUCACCCCUUUCUGCCAUGU 23 26805 CFTR-Intron10-7926 −GACCCUCACCCCUUUCUGCCAUGU 24 26806 CFTR-Intron10-7927 −CCCAGCCUCCAGAACUGU 18 26807 CFTR-Intron10-7928 − UCCCAGCCUCCAGAACUGU 1926808 CFTR-Intron10-7929 − UUCCCAGCCUCCAGAACUGU 20 26809CFTR-Intron10-7930 − CUUCCCAGCCUCCAGAACUGU 21 26810 CFTR-Intron10-7931 −ACUUCCCAGCCUCCAGAACUGU 22 26811 CFTR-Intron10-7932 −GACUUCCCAGCCUCCAGAACUGU 23 26812 CFTR-Intron10-7933 −GGACUUCCCAGCCUCCAGAACUGU 24 26813 CFTR-Intron10-7934 −GGGAGGGUAGAAUACUGU 18 26814 CFTR-Intron10-7935 − AGGGAGGGUAGAAUACUGU 1926815 CFTR-Intron10-7936 − CAGGGAGGGUAGAAUACUGU 20 26816CFTR-Intron10-7937 − ACAGGGAGGGUAGAAUACUGU 21 26817 CFTR-Intron10-7938 −GACAGGGAGGGUAGAAUACUGU 22 26818 CFTR-Intron10-7939 −AGACAGGGAGGGUAGAAUACUGU 23 26819 CFTR-Intron10-7940 −AAGACAGGGAGGGUAGAAUACUGU 24 26820 CFTR-Intron10-7941 −GUUUUUAGGCUAUUCUGU 18 26821 CFTR-Intron10-7942 − UGUUUUUAGGCUAUUCUGU 1926822 CFTR-Intron10-541 − AUGUUUUUAGGCUAUUCUGU 20 19427CFTR-Intron10-7943 − AAUGUUUUUAGGCUAUUCUGU 21 26823 CFTR-Intron10-7944 −UAAUGUUUUUAGGCUAUUCUGU 22 26824 CFTR-Intron10-7945 −CUAAUGUUUUUAGGCUAUUCUGU 23 26825 CFTR-Intron10-7946 −GCUAAUGUUUUUAGGCUAUUCUGU 24 26826 CFTR-Intron10-7947 −AUGGCAUCUCACCAGUGU 18 26827 CFTR-Intron10-7948 − UAUGGCAUCUCACCAGUGU 1926828 CFTR-Intron10-7949 − UUAUGGCAUCUCACCAGUGU 20 26829CFTR-Intron10-7950 − CUUAUGGCAUCUCACCAGUGU 21 26830 CFTR-Intron10-7951 −GCUUAUGGCAUCUCACCAGUGU 22 26831 CFTR-Intron10-7952 −GGCUUAUGGCAUCUCACCAGUGU 23 26832 CFTR-Intron10-7953 −UGGCUUAUGGCAUCUCACCAGUGU 24 26833 CFTR-Intron10-7954 −GGCAUCUCACCAGUGUGU 18 26834 CFTR-Intron10-7955 − UGGCAUCUCACCAGUGUGU 1926835 CFTR-Intron10-542 − AUGGCAUCUCACCAGUGUGU 20 19428CFTR-Intron10-7956 − UAUGGCAUCUCACCAGUGUGU 21 26836 CFTR-Intron10-7957 −UUAUGGCAUCUCACCAGUGUGU 22 26837 CFTR-Intron10-7958 −CUUAUGGCAUCUCACCAGUGUGU 23 26838 CFTR-Intron10-7959 −GCUUAUGGCAUCUCACCAGUGUGU 24 26839 CFTR-Intron10-7960 −GUAUGUAUAUAUGUGUGU 18 26840 CFTR-Intron10-7961 − UGUAUGUAUAUAUGUGUGU 1926841 CFTR-Intron10-7962 − AUGUAUGUAUAUAUGUGUGU 20 26842CFTR-Intron10-7963 − UAUGUAUGUAUAUAUGUGUGU 21 26843 CFTR-Intron10-7964 −AUAUGUAUGUAUAUAUGUGUGU 22 26844 CFTR-Intron10-7965 −CAUAUGUAUGUAUAUAUGUGUGU 23 26845 CFTR-Intron10-7966 −UCAUAUGUAUGUAUAUAUGUGUGU 24 26846 CFTR-Intron10-7967 −UCUAACUUUUCUUAUUGU 18 26847 CFTR-Intron10-7968 − UUCUAACUUUUCUUAUUGU 1926848 CFTR-Intron10-7969 − CUUCUAACUUUUCUUAUUGU 20 26849CFTR-Intron10-7970 − ACUUCUAACUUUUCUUAUUGU 21 26850 CFTR-Intron10-7971 −UACUUCUAACUUUUCUUAUUGU 22 26851 CFTR-Intron10-7972 −UUACUUCUAACUUUUCUUAUUGU 23 26852 CFTR-Intron10-7973 −UUUACUUCUAACUUUUCUUAUUGU 24 26853 CFTR-Intron10-7974 −GGACCAAAACUUUAUUGU 18 26854 CFTR-Intron10-7975 − AGGACCAAAACUUUAUUGU 1926855 CFTR-Intron10-7976 − AAGGACCAAAACUUUAUUGU 20 26856CFTR-Intron10-7977 − AAAGGACCAAAACUUUAUUGU 21 26857 CFTR-Intron10-7978 −AAAAGGACCAAAACUUUAUUGU 22 26858 CFTR-Intron10-7979 −CAAAAGGACCAAAACUUUAUUGU 23 26859 CFTR-Intron10-7980 −GCAAAAGGACCAAAACUUUAUUGU 24 26860 CFTR-Intron10-7981 −UACCCAAUAAAAAAAAUU 18 26861 CFTR-Intron10-7982 − UUACCCAAUAAAAAAAAUU 1926862 CFTR-Intron10-124 − GUUACCCAAUAAAAAAAAUU 20 19010CFTR-Intron10-7983 − UGUUACCCAAUAAAAAAAAUU 21 26863 CFTR-Intron10-7984 −UUGUUACCCAAUAAAAAAAAUU 22 26864 CFTR-Intron10-7985 −AUUGUUACCCAAUAAAAAAAAUU 23 26865 CFTR-Intron10-7986 −UAUUGUUACCCAAUAAAAAAAAUU 24 26866 CFTR-Intron10-7987 −AGAAAUACCGAGAAAAUU 18 26867 CFTR-Intron10-7988 − UAGAAAUACCGAGAAAAUU 1926868 CFTR-Intron10-7989 − CUAGAAAUACCGAGAAAAUU 20 26869CFTR-Intron10-7990 − CCUAGAAAUACCGAGAAAAUU 21 26870 CFTR-Intron10-7991 −GCCUAGAAAUACCGAGAAAAUU 22 26871 CFTR-Intron10-7992 −AGCCUAGAAAUACCGAGAAAAUU 23 26872 CFTR-Intron10-7993 −UAGCCUAGAAAUACCGAGAAAAUU 24 26873 CFTR-Intron10-7994 −UUAAUGAAAAUAGAAAUU 18 26874 CFTR-Intron10-7995 − GUUAAUGAAAAUAGAAAUU 1926875 CFTR-Intron10-7996 − UGUUAAUGAAAAUAGAAAUU 20 26876CFTR-Intron10-7997 − AUGUUAAUGAAAAUAGAAAUU 21 26877 CFTR-Intron10-7998 −AAUGUUAAUGAAAAUAGAAAUU 22 26878 CFTR-Intron10-7999 −AAAUGUUAAUGAAAAUAGAAAUU 23 26879 CFTR-Intron10-8000 −AAAAUGUUAAUGAAAAUAGAAAUU 24 26880 CFTR-Intron10-8001 −CUACAGUUGCCUGCAAUU 18 26881 CFTR-Intron10-8002 − GCUACAGUUGCCUGCAAUU 1926882 CFTR-Intron10-8003 − AGCUACAGUUGCCUGCAAUU 20 26883CFTR-Intron10-8004 − CAGCUACAGUUGCCUGCAAUU 21 26884 CFTR-Intron10-8005 −GCAGCUACAGUUGCCUGCAAUU 22 26885 CFTR-Intron10-8006 −UGCAGCUACAGUUGCCUGCAAUU 23 26886 CFTR-Intron10-8007 −CUGCAGCUACAGUUGCCUGCAAUU 24 26887 CFTR-Intron10-8008 −UAUCAAUAUUUUGGAAUU 18 26888 CFTR-Intron10-8009 − UUAUCAAUAUUUUGGAAUU 1926889 CFTR-Intron10-8010 − UUUAUCAAUAUUUUGGAAUU 20 26890CFTR-Intron10-8011 − UUUUAUCAAUAUUUUGGAAUU 21 26891 CFTR-Intron10-8012 −GUUUUAUCAAUAUUUUGGAAUU 22 26892 CFTR-Intron10-8013 −AGUUUUAUCAAUAUUUUGGAAUU 23 26893 CFTR-Intron10-8014 −UAGUUUUAUCAAUAUUUUGGAAUU 24 26894 CFTR-Intron10-8015 −GGUACUACUGUAAUAAUU 18 26895 CFTR-Intron10-8016 − UGGUACUACUGUAAUAAUU 1926896 CFTR-Intron10-1381 − AUGGUACUACUGUAAUAAUU 20 20265CFTR-Intron10-8017 − UAUGGUACUACUGUAAUAAUU 21 26897 CFTR-Intron10-8018 −AUAUGGUACUACUGUAAUAAUU 22 26898 CFTR-Intron10-8019 −CAUAUGGUACUACUGUAAUAAUU 23 26899 CFTR-Intron10-8020 −ACAUAUGGUACUACUGUAAUAAUU 24 26900 CFTR-Intron10-8021 −AAAUAUCACCAACUCAUU 18 26901 CFTR-Intron10-8022 − AAAAUAUCACCAACUCAUU 1926902 CFTR-Intron10-544 − AAAAAUAUCACCAACUCAUU 20 19430CFTR-Intron10-8023 − GAAAAAUAUCACCAACUCAUU 21 26903 CFTR-Intron10-8024 −UGAAAAAUAUCACCAACUCAUU 22 26904 CFTR-Intron10-8025 −AUGAAAAAUAUCACCAACUCAUU 23 26905 CFTR-Intron10-8026 −AAUGAAAAAUAUCACCAACUCAUU 24 26906 CFTR-Intron10-8027 −GUAGGAAGUGAUCAGAUU 18 26907 CFTR-Intron10-8028 − AGUAGGAAGUGAUCAGAUU 1926908 CFTR-Intron10-8029 − UAGUAGGAAGUGAUCAGAUU 20 26909CFTR-Intron10-8030 − AUAGUAGGAAGUGAUCAGAUU 21 26910 CFTR-Intron10-8031 −UAUAGUAGGAAGUGAUCAGAUU 22 26911 CFTR-Intron10-8032 −GUAUAGUAGGAAGUGAUCAGAUU 23 26912 CFTR-Intron10-8033 −AGUAUAGUAGGAAGUGAUCAGAUU 24 26913 CFTR-Intron10-8034 −AGCUGGCUAUCCAGGAUU 18 26914 CFTR-Intron10-8035 − CAGCUGGCUAUCCAGGAUU 1926915 CFTR-Intron10-8036 − ACAGCUGGCUAUCCAGGAUU 20 26916CFTR-Intron10-8037 − GACAGCUGGCUAUCCAGGAUU 21 26917 CFTR-Intron10-8038 −AGACAGCUGGCUAUCCAGGAUU 22 26918 CFTR-Intron10-8039 −AAGACAGCUGGCUAUCCAGGAUU 23 26919 CFTR-Intron10-8040 −GAAGACAGCUGGCUAUCCAGGAUU 24 26920 CFTR-Intron10-8041 −UGCAGGAGGUGAGGGAUU 18 26921 CFTR-Intron10-8042 − UUGCAGGAGGUGAGGGAUU 1926922 CFTR-Intron10-1384 − CUUGCAGGAGGUGAGGGAUU 20 20268CFTR-Intron10-8043 − ACUUGCAGGAGGUGAGGGAUU 21 26923 CFTR-Intron10-8044 −GACUUGCAGGAGGUGAGGGAUU 22 26924 CFTR-Intron10-8045 −AGACUUGCAGGAGGUGAGGGAUU 23 26925 CFTR-Intron10-8046 −AAGACUUGCAGGAGGUGAGGGAUU 24 26926 CFTR-Intron10-8047 −AAUAGUUUUAUCAAUAUU 18 26927 CFTR-Intron10-8048 − AAAUAGUUUUAUCAAUAUU 1926928 CFTR-Intron10-8049 − CAAAUAGUUUUAUCAAUAUU 20 26929CFTR-Intron10-8050 − GCAAAUAGUUUUAUCAAUAUU 21 26930 CFTR-Intron10-8051 −UGCAAAUAGUUUUAUCAAUAUU 22 26931 CFTR-Intron10-8052 −CUGCAAAUAGUUUUAUCAAUAUU 23 26932 CFTR-Intron10-8053 −UCUGCAAAUAGUUUUAUCAAUAUU 24 26933 CFTR-Intron10-8054 −GAUGAGGAGAACCAUAUU 18 26934 CFTR-Intron10-8055 − AGAUGAGGAGAACCAUAUU 1926935 CFTR-Intron10-8056 − AAGAUGAGGAGAACCAUAUU 20 26936CFTR-Intron10-8057 − UAAGAUGAGGAGAACCAUAUU 21 26937 CFTR-Intron10-8058 −CUAAGAUGAGGAGAACCAUAUU 22 26938 CFTR-Intron10-8059 −UCUAAGAUGAGGAGAACCAUAUU 23 26939 CFTR-Intron10-8060 −AUCUAAGAUGAGGAGAACCAUAUU 24 26940 CFTR-Intron10-8061 −AACUUAACCUGGCAUAUU 18 26941 CFTR-Intron10-8062 − CAACUUAACCUGGCAUAUU 1926942 CFTR-Intron10-546 − ACAACUUAACCUGGCAUAUU 20 19432CFTR-Intron10-8063 − AACAACUUAACCUGGCAUAUU 21 26943 CFTR-Intron10-8064 −GAACAACUUAACCUGGCAUAUU 22 26944 CFTR-Intron10-8065 −AGAACAACUUAACCUGGCAUAUU 23 26945 CFTR-Intron10-8066 −AAGAACAACUUAACCUGGCAUAUU 24 26946 CFTR-Intron10-8067 −UGCUCUCUUUUAACUAUU 18 26947 CFTR-Intron10-8068 − UUGCUCUCUUUUAACUAUU 1926948 CFTR-Intron10-8069 − CUUGCUCUCUUUUAACUAUU 20 26949CFTR-Intron10-8070 − ACUUGCUCUCUUUUAACUAUU 21 26950 CFTR-Intron10-8071 −AACUUGCUCUCUUUUAACUAUU 22 26951 CFTR-Intron10-8072 −AAACUUGCUCUCUUUUAACUAUU 23 26952 CFTR-Intron10-8073 −AAAACUUGCUCUCUUUUAACUAUU 24 26953 CFTR-Intron10-8074 −GUUUUUCUUUCCUUUAUU 18 26954 CFTR-Intron10-8075 − UGUUUUUCUUUCCUUUAUU 1926955 CFTR-Intron10-8076 − AUGUUUUUCUUUCCUUUAUU 20 26956CFTR-Intron10-8077 − UAUGUUUUUCUUUCCUUUAUU 21 26957 CFTR-Intron10-8078 −UUAUGUUUUUCUUUCCUUUAUU 22 26958 CFTR-Intron10-8079 −UUUAUGUUUUUCUUUCCUUUAUU 23 26959 CFTR-Intron10-8080 −UUUUAUGUUUUUCUUUCCUUUAUU 24 26960 CFTR-Intron10-8081 −GGGAAUAUUUAAACACUU 18 26961 CFTR-Intron10-8082 − UGGGAAUAUUUAAACACUU 1926962 CFTR-Intron10-8083 − UUGGGAAUAUUUAAACACUU 20 26963CFTR-Intron10-8084 − CUUGGGAAUAUUUAAACACUU 21 26964 CFTR-Intron10-8085 −CCUUGGGAAUAUUUAAACACUU 22 26965 CFTR-Intron10-8086 −CCCUUGGGAAUAUUUAAACACUU 23 26966 CFTR-Intron10-8087 −UCCCUUGGGAAUAUUUAAACACUU 24 26967 CFTR-Intron10-8088 −CUUGUAAUCCUAGCACUU 18 26968 CFTR-Intron10-8089 − ACUUGUAAUCCUAGCACUU 1926969 CFTR-Intron10-8090 − CACUUGUAAUCCUAGCACUU 20 26970CFTR-Intron10-8091 − ACACUUGUAAUCCUAGCACUU 21 26971 CFTR-Intron10-8092 −CACACUUGUAAUCCUAGCACUU 22 26972 CFTR-Intron10-8093 −UCACACUUGUAAUCCUAGCACUU 23 26973 CFTR-Intron10-8094 −CUCACACUUGUAAUCCUAGCACUU 24 26974 CFTR-Intron10-8095 −GAAUUGAAUAUGAGACUU 18 26975 CFTR-Intron10-8096 − AGAAUUGAAUAUGAGACUU 1926976 CFTR-Intron10-1394 − AAGAAUUGAAUAUGAGACUU 20 20278CFTR-Intron10-8097 − GAAGAAUUGAAUAUGAGACUU 21 26977 CFTR-Intron10-8098 −UGAAGAAUUGAAUAUGAGACUU 22 26978 CFTR-Intron10-8099 −UUGAAGAAUUGAAUAUGAGACUU 23 26979 CFTR-Intron10-8100 −UUUGAAGAAUUGAAUAUGAGACUU 24 26980 CFTR-Intron10-8101 −UGUGCCUGUAGUCCCAGCUACUU 23 26981 CFTR-Intron10-8102 −GUGUGCCUGUAGUCCCAGCUACUU 24 26982 CFTR-Intron10-8103 −AUUGCAGGGUGGGGCCUU 18 26983 CFTR-Intron10-8104 − UAUUGCAGGGUGGGGCCUU 1926984 CFTR-Intron10-721 − GUAUUGCAGGGUGGGGCCUU 20 19607CFTR-Intron10-8105 − GGUAUUGCAGGGUGGGGCCUU 21 26985 CFTR-Intron10-8106 −UGGUAUUGCAGGGUGGGGCCUU 22 26986 CFTR-Intron10-8107 −AUGGUAUUGCAGGGUGGGGCCUU 23 26987 CFTR-Intron10-8108 −GAUGGUAUUGCAGGGUGGGGCCUU 24 26988 CFTR-Intron10-8109 −ACAGUGCAGUUAUAGCUU 18 26989 CFTR-Intron10-8110 − GACAGUGCAGUUAUAGCUU 1926990 CFTR-Intron10-8111 − UGACAGUGCAGUUAUAGCUU 20 26991CFTR-Intron10-8112 − CUGACAGUGCAGUUAUAGCUU 21 26992 CFTR-Intron10-8113 −GCUGACAGUGCAGUUAUAGCUU 22 26993 CFTR-Intron10-8114 −GGCUGACAGUGCAGUUAUAGCUU 23 26994 CFTR-Intron10-8115 −UGGCUGACAGUGCAGUUAUAGCUU 24 26995 CFTR-Intron10-8116 −AUUAAAUGUCUUGCGCUU 18 26996 CFTR-Intron10-8117 − CAUUAAAUGUCUUGCGCUU 1926997 CFTR-Intron10-8118 − ACAUUAAAUGUCUUGCGCUU 20 26998CFTR-Intron10-8119 − UACAUUAAAUGUCUUGCGCUU 21 26999 CFTR-Intron10-8120 −CUACAUUAAAUGUCUUGCGCUU 22 27000 CFTR-Intron10-8121 −UCUACAUUAAAUGUCUUGCGCUU 23 27001 CFTR-Intron10-8122 −GUCUACAUUAAAUGUCUUGCGCUU 24 27002 CFTR-Intron10-8123 −GGCAAUAGGUAUUUGCUU 18 27003 CFTR-Intron10-8124 − GGGCAAUAGGUAUUUGCUU 1927004 CFTR-Intron10-8125 − AGGGCAAUAGGUAUUUGCUU 20 27005CFTR-Intron10-8126 − AAGGGCAAUAGGUAUUUGCUU 21 27006 CFTR-Intron10-8127 −AAAGGGCAAUAGGUAUUUGCUU 22 27007 CFTR-Intron10-8128 −UAAAGGGCAAUAGGUAUUUGCUU 23 27008 CFTR-Intron10-8129 −CUAAAGGGCAAUAGGUAUUUGCUU 24 27009 CFTR-Intron10-8130 −AAUUUAACUGAAUAUCUU 18 27010 CFTR-Intron10-8131 − AAAUUUAACUGAAUAUCUU 1927011 CFTR-Intron10-8132 − GAAAUUUAACUGAAUAUCUU 20 27012CFTR-Intron10-8133 − AGAAAUUUAACUGAAUAUCUU 21 27013 CFTR-Intron10-8134 −UAGAAAUUUAACUGAAUAUCUU 22 27014 CFTR-Intron10-8135 −AUAGAAAUUUAACUGAAUAUCUU 23 27015 CFTR-Intron10-8136 −UAUAGAAAUUUAACUGAAUAUCUU 24 27016 CFTR-Intron10-8137 −AUAAUUAACCGGUGUCUU 18 27017 CFTR-Intron10-8138 − UAUAAUUAACCGGUGUCUU 1927018 CFTR-Intron10-8139 − UUAUAAUUAACCGGUGUCUU 20 27019CFTR-Intron10-8140 − GUUAUAAUUAACCGGUGUCUU 21 27020 CFTR-Intron10-8141 −UGUUAUAAUUAACCGGUGUCUU 22 27021 CFTR-Intron10-8142 −CUGUUAUAAUUAACCGGUGUCUU 23 27022 CFTR-Intron10-8143 −ACUGUUAUAAUUAACCGGUGUCUU 24 27023 CFTR-Intron10-8144 −UUCUAAGUAUUAGAGGUU 18 27024 CFTR-Intron10-8145 − AUUCUAAGUAUUAGAGGUU 1927025 CFTR-Intron10-8146 − CAUUCUAAGUAUUAGAGGUU 20 27026CFTR-Intron10-8147 − GCAUUCUAAGUAUUAGAGGUU 21 27027 CFTR-Intron10-8148 −GGCAUUCUAAGUAUUAGAGGUU 22 27028 CFTR-Intron10-8149 −GGGCAUUCUAAGUAUUAGAGGUU 23 27029 CFTR-Intron10-8150 −AGGGCAUUCUAAGUAUUAGAGGUU 24 27030 CFTR-Intron10-8151 −CAGUGCUUUUUCGAGGUU 18 27031 CFTR-Intron10-8152 − UCAGUGCUUUUUCGAGGUU 1927032 CFTR-Intron10-556 − AUCAGUGCUUUUUCGAGGUU 20 19442CFTR-Intron10-8153 − AAUCAGUGCUUUUUCGAGGUU 21 27033 CFTR-Intron10-8154 −AAAUCAGUGCUUUUUCGAGGUU 22 27034 CFTR-Intron10-8155 −AAAAUCAGUGCUUUUUCGAGGUU 23 27035 CFTR-Intron10-8156 −UAAAAUCAGUGCUUUUUCGAGGUU 24 27036 CFTR-Intron10-8157 −UUUGGAUGGAGCUUGGUU 18 27037 CFTR-Intron10-8158 − UUUUGGAUGGAGCUUGGUU 1927038 CFTR-Intron10-128 − GUUUUGGAUGGAGCUUGGUU 20 19014CFTR-Intron10-8159 − GGUUUUGGAUGGAGCUUGGUU 21 27039 CFTR-Intron10-8160 −AGGUUUUGGAUGGAGCUUGGUU 22 27040 CFTR-Intron10-8161 −CAGGUUUUGGAUGGAGCUUGGUU 23 27041 CFTR-Intron10-8162 −ACAGGUUUUGGAUGGAGCUUGGUU 24 27042 CFTR-Intron10-8163 −UAAUACAUUGGAAAAUUU 18 27043 CFTR-Intron10-8164 − UUAAUACAUUGGAAAAUUU 1927044 CFTR-Intron10-8165 − GUUAAUACAUUGGAAAAUUU 20 27045CFTR-Intron10-8166 − AGUUAAUACAUUGGAAAAUUU 21 27046 CFTR-Intron10-8167 −CAGUUAAUACAUUGGAAAAUUU 22 27047 CFTR-Intron10-8168 −UCAGUUAAUACAUUGGAAAAUUU 23 27048 CFTR-Intron10-8169 −UUCAGUUAAUACAUUGGAAAAUUU 24 27049 CFTR-Intron10-8170 −AUCAAUAUUUUGGAAUUU 18 27050 CFTR-Intron10-8171 − UAUCAAUAUUUUGGAAUUU 1927051 CFTR-Intron10-1402 − UUAUCAAUAUUUUGGAAUUU 20 20286CFTR-Intron10-8172 − UUUAUCAAUAUUUUGGAAUUU 21 27052 CFTR-Intron10-8173 −UUUUAUCAAUAUUUUGGAAUUU 22 27053 CFTR-Intron10-8174 −GUUUUAUCAAUAUUUUGGAAUUU 23 27054 CFTR-Intron10-8175 −AGUUUUAUCAAUAUUUUGGAAUUU 24 27055 CFTR-Intron10-8176 −UUAAUAUUACUAUUAUUU 18 27056 CFTR-Intron10-8177 − AUUAAUAUUACUAUUAUUU 1927057 CFTR-Intron10-8178 − UAUUAAUAUUACUAUUAUUU 20 27058CFTR-Intron10-8179 − UUAUUAAUAUUACUAUUAUUU 21 27059 CFTR-Intron10-8180 −GUUAUUAAUAUUACUAUUAUUU 22 27060 CFTR-Intron10-8181 −UGUUAUUAAUAUUACUAUUAUUU 23 27061 CFTR-Intron10-8182 −UUGUUAUUAAUAUUACUAUUAUUU 24 27062 CFTR-Intron10-8183 −AAACAAGGAUGUUUAUUU 18 27063 CFTR-Intron10-8184 − UAAACAAGGAUGUUUAUUU 1927064 CFTR-Intron10-8185 − CUAAACAAGGAUGUUUAUUU 20 27065CFTR-Intron10-8186 − UCUAAACAAGGAUGUUUAUUU 21 27066 CFTR-Intron10-8187 −GUCUAAACAAGGAUGUUUAUUU 22 27067 CFTR-Intron10-8188 −GGUCUAAACAAGGAUGUUUAUUU 23 27068 CFTR-Intron10-8189 −UGGUCUAAACAAGGAUGUUUAUUU 24 27069 CFTR-Intron10-8190 −UUGUAAUCCUAGCACUUU 18 27070 CFTR-Intron10-8191 − CUUGUAAUCCUAGCACUUU 1927071 CFTR-Intron10-1408 − ACUUGUAAUCCUAGCACUUU 20 20292CFTR-Intron10-8192 − CACUUGUAAUCCUAGCACUUU 21 27072 CFTR-Intron10-8193 −ACACUUGUAAUCCUAGCACUUU 22 27073 CFTR-Intron10-8194 −CACACUUGUAAUCCUAGCACUUU 23 27074 CFTR-Intron10-8195 −UCACACUUGUAAUCCUAGCACUUU 24 27075 CFTR-Intron10-8196 −UUGCAGGGUGGGGCCUUU 18 27076 CFTR-Intron10-8197 − AUUGCAGGGUGGGGCCUUU 1927077 CFTR-Intron10-1409 − UAUUGCAGGGUGGGGCCUUU 20 20293CFTR-Intron10-8198 − GUAUUGCAGGGUGGGGCCUUU 21 27078 CFTR-Intron10-8199 −GGUAUUGCAGGGUGGGGCCUUU 22 27079 CFTR-Intron10-8200 −UGGUAUUGCAGGGUGGGGCCUUU 23 27080 CFTR-Intron10-8201 −AUGGUAUUGCAGGGUGGGGCCUUU 24 27081 CFTR-Intron10-8202 −AAGAUGAUUCCAAGCUUU 18 27082 CFTR-Intron10-8203 − AAAGAUGAUUCCAAGCUUU 1927083 CFTR-Intron10-8204 − CAAAGAUGAUUCCAAGCUUU 20 27084CFTR-Intron10-8205 − UCAAAGAUGAUUCCAAGCUUU 21 27085 CFTR-Intron10-8206 −GUCAAAGAUGAUUCCAAGCUUU 22 27086 CFTR-Intron10-8207 −AGUCAAAGAUGAUUCCAAGCUUU 23 27087 CFTR-Intron10-8208 −GAGUCAAAGAUGAUUCCAAGCUUU 24 27088 CFTR-Intron10-8209 −UCAUUAUAACACUGCUUU 18 27089 CFTR-Intron10-8210 − UUCAUUAUAACACUGCUUU 1927090 CFTR-Intron10-8211 − CUUCAUUAUAACACUGCUUU 20 27091CFTR-Intron10-8212 − UCUUCAUUAUAACACUGCUUU 21 27092 CFTR-Intron10-8213 −CUCUUCAUUAUAACACUGCUUU 22 27093 CFTR-Intron10-8214 −GCUCUUCAUUAUAACACUGCUUU 23 27094 CFTR-Intron10-8215 −AGCUCUUCAUUAUAACACUGCUUU 24 27095 CFTR-Intron10-8216 −AUUUAACUGAAUAUCUUU 18 27096 CFTR-Intron10-8217 − AAUUUAACUGAAUAUCUUU 1927097 CFTR-Intron10-1410 − AAAUUUAACUGAAUAUCUUU 20 20294CFTR-Intron10-8218 − GAAAUUUAACUGAAUAUCUUU 21 27098 CFTR-Intron10-8219 −AGAAAUUUAACUGAAUAUCUUU 22 27099 CFTR-Intron10-8220 −UAGAAAUUUAACUGAAUAUCUUU 23 27100 CFTR-Intron10-8221 −AUAGAAAUUUAACUGAAUAUCUUU 24 27101 CFTR-Intron10-8222 −UCAAUAUUUUGGAAUUUU 18 27102 CFTR-Intron10-8223 − AUCAAUAUUUUGGAAUUUU 1927103 CFTR-Intron10-1412 − UAUCAAUAUUUUGGAAUUUU 20 20296CFTR-Intron10-8224 − UUAUCAAUAUUUUGGAAUUUU 21 27104 CFTR-Intron10-8225 −UUUAUCAAUAUUUUGGAAUUUU 22 27105 CFTR-Intron10-8226 −UUUUAUCAAUAUUUUGGAAUUUU 23 27106 CFTR-Intron10-8227 −GUUUUAUCAAUAUUUUGGAAUUUU 24 27107 CFTR-Intron10-8228 −GAUAAAAUCAGUGCUUUU 18 27108 CFTR-Intron10-8229 − UGAUAAAAUCAGUGCUUUU 1927109 CFTR-Intron10-8230 − CUGAUAAAAUCAGUGCUUUU 20 27110CFTR-Intron10-8231 − UCUGAUAAAAUCAGUGCUUUU 21 27111 CFTR-Intron10-8232 −CUCUGAUAAAAUCAGUGCUUUU 22 27112 CFTR-Intron10-8233 −GCUCUGAUAAAAUCAGUGCUUUU 23 27113 CFTR-Intron10-8234 −AGCUCUGAUAAAAUCAGUGCUUUU 24 27114 CFTR-Intron10-8235 −UUAAAAUUUUAUUCUUUU 18 27115 CFTR-Intron10-8236 − UUUAAAAUUUUAUUCUUUU 1927116 CFTR-Intron10-8237 − UUUUAAAAUUUUAUUCUUUU 20 27117CFTR-Intron10-8238 − UUUUUAAAAUUUUAUUCUUUU 21 27118 CFTR-Intron10-8239 −AUUUUUAAAAUUUUAUUCUUUU 22 27119 CFTR-Intron10-8240 −AAUUUUUAAAAUUUUAUUCUUUU 23 27120 CFTR-Intron10-8241 −UAAUUUUUAAAAUUUUAUUCUUUU 24 27121 CFTR-Intron10-8242 −AUCAUUUUGACCAUUUUU 18 27122 CFTR-Intron10-8243 − UAUCAUUUUGACCAUUUUU 1927123 CFTR-Intron10-8244 − UUAUCAUUUUGACCAUUUUU 20 27124CFTR-Intron10-8245 − UUUAUCAUUUUGACCAUUUUU 21 27125 CFTR-Intron10-8246 −AUUUAUCAUUUUGACCAUUUUU 22 27126 CFTR-Intron10-8247 −AAUUUAUCAUUUUGACCAUUUUU 23 27127 CFTR-Intron10-8248 −AAAUUUAUCAUUUUGACCAUUUUU 24 27128 CFTR-Intron10-8249 −AUUAGUAGUUAAGUUUUU 18 27129 CFTR-Intron10-8250 − UAUUAGUAGUUAAGUUUUU 1927130 CFTR-Intron10-8251 − CUAUUAGUAGUUAAGUUUUU 20 27131CFTR-Intron10-8252 − GCUAUUAGUAGUUAAGUUUUU 21 27132 CFTR-Intron10-8253 −GGCUAUUAGUAGUUAAGUUUUU 22 27133 CFTR-Intron10-8254 −AGGCUAUUAGUAGUUAAGUUUUU 23 27134 CFTR-Intron10-8255 −UAGGCUAUUAGUAGUUAAGUUUUU 24 27135 CFTR-Intron10-8256 −AACACUUUAUAGUUUUUU 18 27136 CFTR-Intron10-8257 − GAACACUUUAUAGUUUUUU 1927137 CFTR-Intron10-8258 − GGAACACUUUAUAGUUUUUU 20 27138CFTR-Intron10-8259 − UGGAACACUUUAUAGUUUUUU 21 27139 CFTR-Intron10-8260 −AUGGAACACUUUAUAGUUUUUU 22 27140 CFTR-Intron10-8261 −AAUGGAACACUUUAUAGUUUUUU 23 27141 CFTR-Intron10-8262 −GAAUGGAACACUUUAUAGUUUUUU 24 27142 CFTR-Intron10-8263 −UUUUUUUUUUUUUUUUUU 18 27143 CFTR-Intron10-8264 − UUUUUUUUUUUUUUUUUUU 1927144 CFTR-Intron10-8265 − UUUUUUUUUUUUUUUUUUUU 20 27145CFTR-Intron10-8266 − UUUUUUUUUUUUUUUUUUUUU 21 27146 CFTR-Intron10-8267 −UUUUUUUUUUUUUUUUUUUUUU 22 27147 CFTR-Intron10-8268 −UUUUUUUUUUUUUUUUUUUUUUU 23 27148 CFTR-Intron10-8269 −CUUUUUUUUUUUUUUUUUUUUUUU 24 27149

Table 42A provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the first tierparameters. The targeting domains bind within intron 10, have a highlevel of orthogonality and start with a 5′G. It is contemplated hereinthat in an embodiment the targeting domain hybridizes to the targetdomain through complementary base pairing. Any of the targeting domainsin the Table can be used with a N. meningitidis Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 42A 1st Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-8270 − GGUGAAGUCUUUAGUAA 17 27150CFTR-Intron10-8271 + GUUGGUGAUAUUUUUCA 17 27151 CFTR-Intron10-8272 −GUCAAGCAUUUGUGUAC 17 27152 CFTR-Intron10-8273 − GAUACAUCUGAAAAAAU 1727153 CFTR-Intron10-8274 + GGAGUGUAAAGGAAAUU 17 27154 CFTR-Intron10-5827− GAGGGUGAAGUCUUUAGUAA 20 24707 CFTR-Intron10-8275 +GGGGAAUAAUAAAAAAUGUA 20 27155 CFTR-Intron10-8276 + GGUUUACCCCCUACCUCCAC20 27156 CFTR-Intron10-8277 − GUGGUCAAGCAUUUGUGUAC 20 27157CFTR-Intron10-8278 + GGUAGCAGAGGAAGAAAAAG 20 27158 CFTR-Intron10-8279 −GCCAUACACUCUAAAUAGAG 20 27159 CFTR-Intron10-8280 − GUUUUCUAGAAAAUCUGUAG20 27160 CFTR-Intron10-8281 − GGAGAUACAUCUGAAAAAAU 20 27161CFTR-Intron10-8282 − GCAGGAAGACAGCUGGCUAU 20 27162

Table 42B provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the secondtier parameters. The targeting domains bind within intron 10 and have ahigh level of orthogonality. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the Tablecan be used with a N. meningitidis Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 42B 2nd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-8283 + UAGAGAUUACUUGGAAA 17 27163CFTR-Intron10-8284 − AGUCACAGAGGAGUCAA 17 27164 CFTR-Intron10-8285 +AAAGGACUAUCAGUGAA 17 27165 CFTR-Intron10-8286 − ACUGAAUAUCUUUAGGA 1727166 CFTR-Intron10-8287 + UUACCCCCUACCUCCAC 17 27167 CFTR-Intron10-8288− UCAUUAGGAAAAUGUAC 17 27168 CFTR-Intron10-8289 − AAUGGUUCCUUGUUCCC 1727169 CFTR-Intron10-8290 − AAACUUGUCUUCUUUUC 17 27170CFTR-Intron10-8291 + UCCUAACCUCGAAAAAG 17 27171 CFTR-Intron10-8292 −AUACACUCUAAAUAGAG 17 27172 CFTR-Intron10-8293 − UUCUAGAAAAUCUGUAG 1727173 CFTR-Intron10-8294 − AAGGCUUAUUUCUCUGG 17 27174CFTR-Intron10-8295 + CAAAUUGUAUUGAGUGG 17 27175 CFTR-Intron10-8296 −UAUAUAUAUGACACUAU 17 27176 CFTR-Intron10-8297 + CUACUAAAAGGCAGCCU 1727177 CFTR-Intron10-8298 + UGAUCCUUUUGCAGCCU 17 27178 CFTR-Intron10-8299− CUUUCCAUGAAUUAGCU 17 27179 CFTR-Intron10-8300 − AUUUCCAAGUAAUCUCU 1727180 CFTR-Intron10-8301 − UUCGUGUAGUUUCUAUU 17 27181 CFTR-Intron10-8302− AAAAGUCACAGAGGAGUCAA 20 27182 CFTR-Intron10-8303 +ACAAAAGGACUAUCAGUGAA 20 27183 CFTR-Intron10-8304 + UGAGUUGGUGAUAUUUUUCA20 27184 CFTR-Intron10-8305 − UUAACUGAAUAUCUUUAGGA 20 27185CFTR-Intron10-8306 + AAUAAAGUAAUAGAAGCAUA 20 27186 CFTR-Intron10-8307 +AAAGCUCUUUCUCAUCUCUA 20 27187 CFTR-Intron10-3944 + AUAUUAAUAACAAAAUCUUA20 22826 CFTR-Intron10-8308 − UCUAUGAUAUAAUGAAUCAC 20 27188CFTR-Intron10-8309 − UAAAAUGGUUCCUUGUUCCC 20 27189 CFTR-Intron10-8310 −UGGAAACUUGUCUUCUUUUC 20 27190 CFTR-Intron10-8311 − UAGUGUGAAGAUGGGGCUGG20 27191 CFTR-Intron10-7212 − ACUAAGGCUUAUUUCUCUGG 20 26092CFTR-Intron10-8312 + UACCAAAUUGUAUUGAGUGG 20 27192 CFTR-Intron10-8313 +AUACUACUAAAAGGCAGCCU 20 27193 CFTR-Intron10-8314 − UAUAUUUCCAAGUAAUCUCU20 27194 CFTR-Intron10-8315 + UGUGGAGUGUAAAGGAAAUU 20 27195CFTR-Intron10-8316 − AUAUUCGUGUAGUUUCUAUU 20 27196

Table 42C provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the third tierparameters. The targeting domains bind within intron 10 and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the Table can be used with a N.meningitidis Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 42C 3rd Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-8317 + GCUCUUUCUCAUCUCUA 17 27197CFTR-Intron10-8318 + GAAUAAUAAAAAAUGUA 17 27198 CFTR-Intron10-8319 +GAUACUAAAAAAAGUUA 17 27199 CFTR-Intron10-8320 − GUGCAACUAUCACCUCC 1727200 CFTR-Intron10-8321 − GUGGAGGCUGCAGUGAG 17 27201CFTR-Intron10-8322 + GAGAACUGCUCACACGG 17 27202 CFTR-Intron10-8323 −GGAAGACAGCUGGCUAU 17 27203 CFTR-Intron10-8324 + GAAGAUACUAAAAAAAGUUA 2027204 CFTR-Intron10-8325 − GUUGUGCAACUAUCACCUCC 20 27205CFTR-Intron10-8326 − GAAGUGGAGGCUGCAGUGAG 20 27206 CFTR-Intron10-8327 +GCAUCACUAGUGGCACUUUG 20 27207 CFTR-Intron10-8328 + GAUAAAUUUUAACUUUUUAU20 27208

Table 42D provides exemplary targeting domains for correcting a mutation(e.g., 3272-26->G) in the CFTR gene selected according to the fourthtier parameters. The targeting domains bind within intron 10. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the Table can be used with a N. meningitidisCas9 molecule that generates a double stranded break (Cas9 nuclease) ora single-stranded break (Cas9 nickase).

TABLE 42D 4th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID CFTR-Intron10-8329 − CUUUGGAAUUUGUUAAA 17 27209CFTR-Intron10-8330 + ACCCAAAUGUCAAUCAA 17 27210 CFTR-Intron10-8331 +UACCAUCACCUUGGGAA 17 27211 CFTR-Intron10-8332 − UGUAUUUAUAUUCAUAA 1727212 CFTR-Intron10-8333 − AUAUAGAAAUGAGGUAA 17 27213 CFTR-Intron10-8334− CAUAUAUAUAUUUUUAA 17 27214 CFTR-Intron10-8335 − CUUUGAAGGAAGAUCCA 1727215 CFTR-Intron10-8336 + AAAGUAAUAGAAGCAUA 17 27216 CFTR-Intron10-8337− UGGAGUCAAAAAUUAUA 17 27217 CFTR-Intron10-8338 + UUAAUAACAAAAUCUUA 1727218 CFTR-Intron10-8339 − AUGAUAUAAUGAAUCAC 17 27219CFTR-Intron10-8340 + CACACAUAUAUACAUAC 17 27220 CFTR-Intron10-8341 +UCCAAGAUCAAGGUGCC 17 27221 CFTR-Intron10-8342 + CAAAUAUAAAUCAAAGC 1727222 CFTR-Intron10-8343 + AGCAGAGGAAGAAAAAG 17 27223 CFTR-Intron10-8344− AAUGUUGAAUAAUAGGG 17 27224 CFTR-Intron10-956 − AGGGUGGGGCCUUUGGG 1719841 CFTR-Intron10-8345 − UGUGAAGAUGGGGCUGG 17 27225CFTR-Intron10-8346 + CUCUGCCUCCAAAAGUG 17 27226 CFTR-Intron10-8347 −CUCGGCCUCCCAAAGUG 17 27227 CFTR-Intron10-8348 − UAGUAUAGUAGGAAGUG 1727228 CFTR-Intron10-8349 + UCACUAGUGGCACUUUG 17 27229 CFTR-Intron10-8350− UCCACAAAUAUUUUUUG 17 27230 CFTR-Intron10-8351 − AAAGAUCUAGCUAAAAU 1727231 CFTR-Intron10-8352 + AAAUUUUAACUUUUUAU 17 27232 CFTR-Intron10-8353− UUUAUUGAUACUUUUCU 17 27233 CFTR-Intron10-8354 − AAAGACUUGCAGGAGGU 1727234 CFTR-Intron10-8355 + UUUCUUUUUCUGUUUGU 17 27235 CFTR-Intron10-8356− UGGGUAUAUUUUAUAUU 17 27236 CFTR-Intron10-8357 − CAGUAGUAUUAUCUUUU 1727237 CFTR-Intron10-8358 − UAAAAUUUUAUUCUUUU 17 27238CFTR-Intron10-8359 + UUAUAGAGAUUACUUGGAAA 20 27239 CFTR-Intron10-8360 −AUACUUUGGAAUUUGUUAAA 20 27240 CFTR-Intron10-8361 + ACAACCCAAAUGUCAAUCAA20 27241 CFTR-Intron10-8362 + CAAUACCAUCACCUUGGGAA 20 27242CFTR-Intron10-8363 − UUUUGUAUUUAUAUUCAUAA 20 27243 CFTR-Intron10-8364 −UUUAUAUAGAAAUGAGGUAA 20 27244 CFTR-Intron10-8365 − AUGCAUAUAUAUAUUUUUAA20 27245 CFTR-Intron10-8366 − AUGCUUUGAAGGAAGAUCCA 20 27246CFTR-Intron10-8367 − UUGUGGAGUCAAAAAUUAUA 20 27247 CFTR-Intron10-8368 +AGACACACAUAUAUACAUAC 20 27248 CFTR-Intron10-8369 − AACUCAUUAGGAAAAUGUAC20 27249 CFTR-Intron10-8370 + AAGUCCAAGAUCAAGGUGCC 20 27250CFTR-Intron10-8371 + AAACAAAUAUAAAUCAAAGC 20 27251 CFTR-Intron10-8372 +AUCUCCUAACCUCGAAAAAG 20 27252 CFTR-Intron10-8373 + AGAGAGAACUGCUCACACGG20 27253 CFTR-Intron10-8374 − AUAAAUGUUGAAUAAUAGGG 20 27254CFTR-Intron10-1300 − UGCAGGGUGGGGCCUUUGGG 20 20185 CFTR-Intron10-8375 +UGCCUCUGCCUCCAAAAGUG 20 27255 CFTR-Intron10-7272 − CGCCUCGGCCUCCCAAAGUG20 26152 CFTR-Intron10-7277 − UGCCUCGGCCUCCCAAAGUG 20 26157CFTR-Intron10-8376 − AAGUAGUAUAGUAGGAAGUG 20 27256 CFTR-Intron10-8377 −UCCUCCACAAAUAUUUUUUG 20 27257 CFTR-Intron10-8378 − ACAAAAGAUCUAGCUAAAAU20 27258 CFTR-Intron10-8379 − ACAUAUAUAUAUGACACUAU 20 27259CFTR-Intron10-8380 + ACAUGAUCCUUUUGCAGCCU 20 27260 CFTR-Intron10-8381 −AAGCUUUCCAUGAAUUAGCU 20 27261 CFTR-Intron10-8382 − UCCUUUAUUGAUACUUUUCU20 27262 CFTR-Intron10-7876 − AACAAAGACUUGCAGGAGGU 20 26756CFTR-Intron10-8383 + CUCUUUCUUUUUCUGUUUGU 20 27263 CFTR-Intron10-8384 −UUUUGGGUAUAUUUUAUAUU 20 27264 CFTR-Intron10-8385 − AGUCAGUAGUAUUAUCUUUU20 27265 CFTR-Intron10-8237 − UUUUAAAAUUUUAUUCUUUU 20 27117

Table 43A provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the first tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon), have a high levelof orthogonality and start with a 5′G. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in thetable can be used with a S. pyogeness Cas9 molecule that generates adouble stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 43A 1st Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID SCNN1A-327 + GAUACCUCCCCUUGGAA 17 4176 SCNN1A-328 −GGGCGCAGGGUGGGACA 17 4177 SCNN1A-99 − GGCGCCCCAGCAGCCCA 17  536SCNN1A-329 − GCCUCACUCGGGUUCCA 17 4178 SCNN1A-330 − GGGAGAAUGUGGGCGCA 174179 SCNN1A-141 + GCGGUGGAACUCGAUCA 17  551 SCNN1A-80 −GCCCAUACCAGGUCUCA 17  529 SCNN1A-106 − GCACAACCGCAUGAAGA 17  540SCNN1A-132 + GGAGCACACCAGGCGGA 17  547 SCNN1A-121 + GUUGAUGUUGAGGCUGA 17 545 SCNN1A-331 + GGACUAACCGACCUGUA 17 4180 SCNN1A-332 −GCACCCUCAAUCCCUAC 17 4181 SCNN1A-93 − GAACAAGCGUGAGGAGC 17  533SCNN1A-147 + GGCUGCUGGGGCGCCGC 17  554 SCNN1A-117 + GUGCAGAUGGUCACUGC 17 544 SCNN1A-333 − GAUGGGAGAGGGCACUC 17 4182 SCNN1A-107 −GCAUGAAGACGGCCUUC 17  541 SCNN1A-334 − GACAUGGGCAUGGCCAG 17 4183SCNN1A-142 + GGCCUCCUCCUCCGCCG 17  552 SCNN1A-150 + GGGGCGCCGCAGGUUCG 17 555 SCNN1A-131 + GCUGGGAGCACACCAGG 17  546 SCNN1A-103 −GCCCACGGCGGAGGAGG 17  539 SCNN1A-102 − GCAGCCCACGGCGGAGG 17  538SCNN1A-139 + GCUCUCGGUAGGAGCGG 17  550 SCNN1A-116 + GGUGCAGAUGGUCACUG 17 543 SCNN1A-98 − GCUGGGCCCCGAACCUG 17  535 SCNN1A-335 −GGCGCAGGGUGGGACAU 17 4184 SCNN1A-336 + GGUCAAGGCUGAGCUCU 17 4185SCNN1A-143 + GCCUCCUCCUCCGCCGU 17  553 SCNN1A-337 − GAAUGUGGGCGCAGGGU 174186 SCNN1A-338 + GGGACUAACCGACCUGU 17 4187 SCNN1A-339 +GAGCCCCGGAGUGGAUU 17 4188 SCNN1A-340 − GUGGGACAUGGGCAUGGCCA 20 4189SCNN1A-341 − GCAGCCUCACUCGGGUUCCA 20 4190 SCNN1A-342 −GAGCAGUAUCAAGGUAAGCA 20 4191 SCNN1A-15 − GGGAACAAGCGUGAGGAGCA 20  507SCNN1A-62 + GGAGCGGUGGAACUCGAUCA 20  525 SCNN1A-343 −GUGAUGGGAGAGGGCACUCA 20 4192 SCNN1A-1 − GCAGCCCAUACCAGGUCUCA 20  503SCNN1A-36 + GUAGGGAUUGAGGGUGCAGA 20  516 SCNN1A-76 +GCCCUGGAGUGGACUGUGGA 20  528 SCNN1A-10 − GUCCACUCCAGGGCUCAUGA 20  505SCNN1A-42 + GAGGUUGAUGUUGAGGCUGA 20  519 SCNN1A-344 +GUAUGGGCUGCAGAGGUCUA 20 4193 SCNN1A-345 + GAGGGACUAACCGACCUGUA 20 4194SCNN1A-32 − GCACCUUUGGCAUGAUGUAC 20  514 SCNN1A-51 +GGUUGUGCUGGGAGCACACC 20  522 SCNN1A-346 + GUGCCCUCUCCCAUCACCCC 20 4195SCNN1A-347 − GGUGGGACAUGGGCAUGGCC 20 4196 SCNN1A-348 −GGCAGCCUCACUCGGGUUCC 20 4197 SCNN1A-176 − GCUCAUGAAGGGGAACAAGC 20  811SCNN1A-68 + GUGGGCUGCUGGGGCGCCGC 20  526 SCNN1A-349 −GAGUGGGAGAAUGUGGGCGC 20 4198 SCNN1A-350 − GGUGAUGGGAGAGGGCACUC 20 4199SCNN1A-351 − GGCCAGGGGCAGCCUCACUC 20 4200 SCNN1A-352 +GAUUGGGGAGAGCAAGGGUC 20 4201 SCNN1A-16 − GGAACAAGCGUGAGGAGCAG 20  508SCNN1A-44 + GGUUGAUGUUGAGGCUGACG 20  520 SCNN1A-353 −GCUCUCCCCAAUCCACUCCG 20 4202 SCNN1A-39 + GGGUGCAGAUGGUCACUGCG 20  518SCNN1A-71 + GCUGGGGCGCCGCAGGUUCG 20  527 SCNN1A-21 −GGCGCCCCAGCAGCCCACGG 20  510 SCNN1A-22 − GCCCCAGCAGCCCACGGCGG 20  511SCNN1A-354 − GGGAGAAUGUGGGCGCAGGG 20 4203 SCNN1A-2 −GCCCAUACCAGGUCUCAUGG 20  497 SCNN1A-37 + GAGGGUGCAGAUGGUCACUG 20  517SCNN1A-19 − GGGGCUGGGCCCCGAACCUG 20  509 SCNN1A-355 −GUGGGCGCAGGGUGGGACAU 20 4204 SCNN1A-356 + GGUAUGGGCUGCAGAGGUCU 20 4205SCNN1A-58 + GAACUCGAAGAGCUCUCGGU 20  524 SCNN1A-357 −GGAGAAUGUGGGCGCAGGGU 20 4206 SCNN1A-33 − GGCAUGAUGUACUGGCAAUU 20  515SCNN1A-31 − GUGCUGUGGCUCUGCACCUU 20  513

Table 43B provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the second tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon) and have a highlevel of orthogonality. It is contemplated herein that in an embodimentthe targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. pyogeness Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 43B 2nd Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID SCNN1A-125 + CCAGUACAUCAUGCCAA 17  632 SCNN1A-358 −CCAGCUGUCCCUUCCAA 17 4207 SCNN1A-359 − AGUAUCAAGGUAAGCAA 17 4208SCNN1A-90 − ACUCCAGGGCUCAUGAA 17  611 SCNN1A-360 − ACUCCGGGGCUCAUGAA 174209 SCNN1A-104 − AACAACACCACCAUCCA 17  617 SCNN1A-88 −CUCCACAGUCCACUCCA 17  609 SCNN1A-361 − CAGUAUCAAGGUAAGCA 17 4210SCNN1A-94 − AACAAGCGUGAGGAGCA 17  613 SCNN1A-362 − UAUCAUGAGCAGUAUCA 174211 SCNN1A-363 − AUGGGAGAGGGCACUCA 17 4212 SCNN1A-126 +CCACAGCACUGCCCAGA 17  633 SCNN1A-82 − AUACCAGGUCUCAUGGA 17  501SCNN1A-364 + UGAUACCUCCCCUUGGA 17 4213 SCNN1A-89 − CACUCCAGGGCUCAUGA 17 610 SCNN1A-365 − CACUCCGGGGCUCAUGA 17 4214 SCNN1A-366 −UCGGGUUCCAGGGGUGA 17 4215 SCNN1A-367 + CGACCUGUAGGGAUUGA 17 4216SCNN1A-157 + CUCCAUGAGACCUGGUA 17  502 SCNN1A-122 + UUGAUGUUGAGGCUGAC 17 629 SCNN1A-111 − CCUUUGGCAUGAUGUAC 17  622 SCNN1A-130 +UGUGCUGGGAGCACACC 17  637 SCNN1A-156 + UUCCCCUCCAUGAGACC 17  653SCNN1A-368 − CCUCUGCAGCCCAUACC 17 4217 SCNN1A-369 + CCGAGUGAGGCUGCCCC 174218 SCNN1A-370 − UCUCCCCAAUCCACUCC 17 4219 SCNN1A-87 −CCUCCACAGUCCACUCC 17 608 SCNN1A-371 − AGCCUCACUCGGGUUCC 17 4220SCNN1A-124 + AGUACUCUCCGAAAAGC 17 631 SCNN1A-260 − CAUGAAGGGGAACAAGC 17868 SCNN1A-84 − CAUGGAGGGGAACAAGC 17 607 SCNN1A-372 + CCCUUGGAAGGGACAGC17 4221 SCNN1A-373 − UGGGAGAAUGUGGGCGC 17 4222 SCNN1A-144 +CCUCCGCCGUGGGCUGC 17  643 SCNN1A-128 + UCUUCAUGCGGUUGUGC 17  635SCNN1A-140 + AGCGGUGGAACUCGAUC 17  642 SCNN1A-374 − CUCUCCCCAAUCCACUC 174223 SCNN1A-375 − CAGGGGCAGCCUCACUC 17 4224 SCNN1A-376 +UGGGGAGAGCAAGGGUC 17 4225 SCNN1A-149 + UGGGGCGCCGCAGGUUC 17  647SCNN1A-377 − CAGCUGUCCCUUCCAAG 17 4226 SCNN1A-91 − CUCCAGGGCUCAUGAAG 17 612 SCNN1A-378 − CUCCGGGGCUCAUGAAG 17 4227 SCNN1A-379 −CCUCACUCGGGUUCCAG 17 4228 SCNN1A-95 − ACAAGCGUGAGGAGCAG 17  614SCNN1A-380 + CCUGGUAUGGGCUGCAG 17 4229 SCNN1A-138 + AGAGCUCUCGGUAGGAG 17 641 SCNN1A-381 + CUUCAUGAGCCCCGGAG 17 4230 SCNN1A-152 +CUUCAUGAGCCCUGGAG 17  649 SCNN1A-123 + UGAUGUUGAGGCUGACG 17  630SCNN1A-382 − CUCCCCAAUCCACUCCG 17 4231 SCNN1A-118 + UGCAGAUGGUCACUGCG 17 626 SCNN1A-101 − CCAGCAGCCCACGGCGG 17  616 SCNN1A-383 −AGAAUGUGGGCGCAGGG 17 4232 SCNN1A-384 − CUGUCCCUUCCAAGGGG 17 4233SCNN1A-81 − CAUACCAGGUCUCAUGG 17  605 SCNN1A-127 + AGAAGGCCGUCUUCAUG 17 634 SCNN1A-146 + UCCGCCGUGGGCUGCUG 17  645 SCNN1A-385 +CCCCUGGAACCCGAGUG 17 4234 SCNN1A-386 + CCGACCUGUAGGGAUUG 17 4235SCNN1A-387 + AGCCCCGGAGUGGAUUG 17 4236 SCNN1A-119 + CGAGCUUGUCCGAGUUG 17 627 SCNN1A-120 + AGUUGAGGUUGAUGUUG 17  628 SCNN1A-388 +UGAGCCCCGGAGUGGAU 17 4237 SCNN1A-389 − CGGGUUCCAGGGGUGAU 17 4238SCNN1A-158 + UCCAUGAGACCUGGUAU 17  654 SCNN1A-114 − CAACAUCAACCUCAACU 17 625 SCNN1A-97 − CGUGAGGAGCAGGGGCU 17  615 SCNN1A-145 +CUCCGCCGUGGGCUGCU 17  644 SCNN1A-129 + CUUCAUGCGGUUGUGCU 17  636SCNN1A-136 + AGAACUCGAAGAGCUCU 17  639 SCNN1A-390 + AUGGGCUGCAGAGGUCU 174239 SCNN1A-108 − CAUGAAGACGGCCUUCU 17  619 SCNN1A-391 −CCUCAAUCCCUACAGGU 17 4240 SCNN1A-137 + CUCGAAGAGCUCUCGGU 17  640SCNN1A-112 − AUGAUGUACUGGCAAUU 17  623 SCNN1A-110 − CUGUGGCUCUGCACCUU 17 621 SCNN1A-148 + CUGGGGCGCCGCAGGUU 17  646 SCNN1A-392 −AGCAAGGGAACCUGGUU 17 4241 SCNN1A-113 − CAAUUCGGCCUGCUUUU 17  624SCNN1A-46 + UUGCCAGUACAUCAUGCCAA 20  580 SCNN1A-393 −AGCAGUAUCAAGGUAAGCAA 20 4242 SCNN1A-394 + CAUGAUACCUCCCCUUGGAA 20 4243SCNN1A-395 − UGUGGGCGCAGGGUGGGACA 20 4244 SCNN1A-20 −UGCGGCGCCCCAGCAGCCCA 20  565 SCNN1A-25 − UGCAACAACACCACCAUCCA 20  567SCNN1A-396 − AGUGGGAGAAUGUGGGCGCA 20 4245 SCNN1A-397 −AGGUAUCAUGAGCAGUAUCA 20 4246 SCNN1A-398 + AUUGGGGAGAGCAAGGGUCA 20 4247SCNN1A-27 − CCAGCACAACCGCAUGAAGA 20  569 SCNN1A-53 +CUGGGAGCACACCAGGCGGA 20  585 SCNN1A-3 − CCCAUACCAGGUCUCAUGGA 20  556SCNN1A-399 + UCAUGAUACCUCCCCUUGGA 20 4248 SCNN1A-400 −AUCCACUCCGGGGCUCAUGA 20 4249 SCNN1A-401 − CACUCGGGUUCCAGGGGUGA 20 4250SCNN1A-402 + AACCGACCUGUAGGGAUUGA 20 4251 SCNN1A-78 +CCCCUCCAUGAGACCUGGUA 20  500 SCNN1A-43 + AGGUUGAUGUUGAGGCUGAC 20  578SCNN1A-403 − UCUGCACCCUCAAUCCCUAC 20 4252 SCNN1A-404 −UCAAGGUAAGCAAGGGAACC 20 4253 SCNN1A-405 − AGACCUCUGCAGCCCAUACC 20 4254SCNN1A-406 + AACCCGAGUGAGGCUGCCCC 20 4255 SCNN1A-407 −UAGUCCCUCUGCCCCUUCCC 20 4256 SCNN1A-408 − UGCUCUCCCCAAUCCACUCC 20 4257SCNN1A-8 − AGCCCUCCACAGUCCACUCC 20  559 SCNN1A-45 + UGAAGUACUCUCCGAAAAGC20  579 SCNN1A-5 − UCUCAUGGAGGGGAACAAGC 20  557 SCNN1A-409 +CUCCCCUUGGAAGGGACAGC 20 4258 SCNN1A-17 − CAAGCGUGAGGAGCAGGGGC 20  563SCNN1A-38 + AGGGUGCAGAUGGUCACUGC 20  575 SCNN1A-65 +CCUCCUCCGCCGUGGGCUGC 20  594 SCNN1A-49 + CCGUCUUCAUGCGGUUGUGC 20  582SCNN1A-61 + AGGAGCGGUGGAACUCGAUC 20  591 SCNN1A-410 −UUGCUCUCCCCAAUCCACUC 20 4259 SCNN1A-411 + UCAGGGUCAAGGCUGAGCUC 20 4260SCNN1A-28 − ACCGCAUGAAGACGGCCUUC 20  570 SCNN1A-70 +UGCUGGGGCGCCGCAGGUUC 20  598 SCNN1A-412 − AUCCAGCUGUCCCUUCCAAG 20 4261SCNN1A-413 − UGGGACAUGGGCAUGGCCAG 20 4262 SCNN1A-414 −CAGCCUCACUCGGGUUCCAG 20 4263 SCNN1A-415 + AGACCUGGUAUGGGCUGCAG 20 4264SCNN1A-59 + CGAAGAGCUCUCGGUAGGAG 20  589 SCNN1A-4 − CCAUACCAGGUCUCAUGGAG20  498 SCNN1A-63 + CAGGGCCUCCUCCUCCGCCG 20  592 SCNN1A-52 +UGUGCUGGGAGCACACCAGG 20  584 SCNN1A-23 − CCAGCAGCCCACGGCGGAGG 20  566SCNN1A-60 + AGAGCUCUCGGUAGGAGCGG 20  590 SCNN1A-416 −CAGCUGUCCCUUCCAAGGGG 20 4265 SCNN1A-75 + AGCCCUGGAGUGGACUGUGG 20  602SCNN1A-48 + CCCAGAAGGCCGUCUUCAUG 20  581 SCNN1A-74 +AUGAGCCCUGGAGUGGACUG 20  601 SCNN1A-67 + UCCUCCGCCGUGGGCUGCUG 20  596SCNN1A-417 + UCACCCCUGGAACCCGAGUG 20 4266 SCNN1A-13 −CAUGAAGGGGAACAAGCGUG 20  562 SCNN1A-418 + UAACCGACCUGUAGGGAUUG 20 4267SCNN1A-419 + AUGAGCCCCGGAGUGGAUUG 20 4268 SCNN1A-40 +AGACGAGCUUGUCCGAGUUG 20  576 SCNN1A-41 + CCGAGUUGAGGUUGAUGUUG 20  577SCNN1A-420 + UCAUGAGCCCCGGAGUGGAU 20 4269 SCNN1A-421 −ACUCGGGUUCCAGGGGUGAU 20 4270 SCNN1A-79 + CCCUCCAUGAGACCUGGUAU 20  604SCNN1A-35 − CCUCAACAUCAACCUCAACU 20  574 SCNN1A-18 −AAGCGUGAGGAGCAGGGGCU 20  564 SCNN1A-66 + CUCCUCCGCCGUGGGCUGCU 20  595SCNN1A-50 + CGUCUUCAUGCGGUUGUGCU 20  583 SCNN1A-57 +AGAAGAACUCGAAGAGCUCU 20  588 SCNN1A-422 + CAGGGUCAAGGCUGAGCUCU 20 4271SCNN1A-29 − CCGCAUGAAGACGGCCUUCU 20  571 SCNN1A-64 +AGGGCCUCCUCCUCCGCCGU 20  593 SCNN1A-423 − CACCCUCAAUCCCUACAGGU 20 4272SCNN1A-424 + AGAGGGACUAACCGACCUGU 20 4273 SCNN1A-425 +CAUGAGCCCCGGAGUGGAUU 20 4274 SCNN1A-69 + CUGCUGGGGCGCCGCAGGUU 20  597SCNN1A-34 − UGGCAAUUCGGCCUGCUUUU 20  573

Table 43C provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the third tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon) and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the table can be used with a S.pyogeness Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 43C 3rd Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID SCNN1A-426 − GGACAUGGGCAUGGCCA 17 4275 SCNN1A-427 +GUGGAUUGGGGAGAGCA 17 4276 SCNN1A-428 + GGGGAGAGCAAGGGUCA 17 4277SCNN1A-115 + GGGAUUGAGGGUGCAGA 17  542 SCNN1A-134 + GCGGAUGGCGCCGUGGA 17 548 SCNN1A-429 − GGGACAUGGGCAUGGCC 17 4278 SCNN1A-86 −GAACAAGCUGGAGGAGC 17  531 SCNN1A-96 − GCGUGAGGAGCAGGGGC 17  534SCNN1A-430 + GGGUCAAGGCUGAGCUC 17 4279 SCNN1A-100 − GCCCCAGCAGCCCACGG 17 537 SCNN1A-135 + GAUGGCGCCGUGGAUGG 17  549 SCNN1A-431 −GAAGGGGAACAAGCUGG 17 4280 SCNN1A-85 − GGAGGGGAACAAGCUGG 17  530SCNN1A-92 − GAAGGGGAACAAGCGUG 17  532 SCNN1A-432 + GAGUGGAUUGGGGAGAGCAA20 4281 SCNN1A-9 − GCCCUCCACAGUCCACUCCA 20  499 SCNN1A-433 +GGAGUGGAUUGGGGAGAGCA 20 4282 SCNN1A-434 + GAGAGCAAGGGUCAGGGUCA 20 4283SCNN1A-47 + GAGCCACAGCACUGCCCAGA 20  521 SCNN1A-435 −GUUCCAGGGGUGAUGGGAGA 20 4284 SCNN1A-7 − GGGGAACAAGCUGGAGGAGC 20  504SCNN1A-14 − GGGGAACAAGCGUGAGGAGC 20  506 SCNN1A-436 −GGUUCCAGGGGUGAUGGGAG 20 4285 SCNN1A-24 − GCAGCCCACGGCGGAGGAGG 20  512SCNN1A-56 + GCGGAUGGCGCCGUGGAUGG 20  523 SCNN1A-437 −GUAAGCAAGGGAACCUGGUU 20 4286

Table 43D provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the fourth tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon). It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a S. pyogeness Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 43D 4th Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID SCNN1A-438 + UGGAUUGGGGAGAGCAA 17 4287 SCNN1A-439 −UCCAGCUGUCCCUUCCA 17 4288 SCNN1A-440 − AGGGUGGGACAUGGGCA 17 4289SCNN1A-441 + AGCAAGGGUCAGGGUCA 17 4290 SCNN1A-442 + ACCAGGGAAGGGGCAGA 174291 SCNN1A-443 − CCAGGGGUGAUGGGAGA 17 4292 SCNN1A-155 +CUGGAGUGGACUGUGGA 17  652 SCNN1A-444 + UGGGCUGCAGAGGUCUA 17 4293SCNN1A-445 − AGGUAAGCAAGGGAACC 17 4294 SCNN1A-446 + CCCUCUCCCAUCACCCC 174295 SCNN1A-151 + UUCCCCUUCAUGAGCCC 17  648 SCNN1A-447 −UCCCUCUGCCCCUUCCC 17 4296 SCNN1A-105 − CCACGGCGCCAUCCGCC 17  618SCNN1A-448 − UCCAGGGGUGAUGGGAG 17 4297 SCNN1A-83 − UACCAGGUCUCAUGGAG 17 606 SCNN1A-133 + CCAGGCGGAUGGCGCCG 17  638 SCNN1A-154 +CCUGGAGUGGACUGUGG 17  651 SCNN1A-153 + AGCCCUGGAGUGGACUG 17  650SCNN1A-109 − CCUUCUGGGCAGUGCUG 17  620 SCNN1A-449 − CCAGGGGCAGCCUCACU 174298 SCNN1A-450 + CUCAUGAUACCUCCCCU 17 4299 SCNN1A-11 −UCCACUCCAGGGCUCAUGAA 20  560 SCNN1A-451 − UCCACUCCGGGGCUCAUGAA 20 4300SCNN1A-452 − CGCAGGGUGGGACAUGGGCA 20 4301 SCNN1A-55 +CAGGCGGAUGGCGCCGUGGA 20  587 SCNN1A-77 + UUGUUCCCCUCCAUGAGACC 20  603SCNN1A-72 + UUGUUCCCCUUCAUGAGCCC 20  599 SCNN1A-26 −CAUCCACGGCGCCAUCCGCC 20  568 SCNN1A-12 − CCACUCCAGGGCUCAUGAAG 20  561SCNN1A-453 − CCACUCCGGGGCUCAUGAAG 20 4302 SCNN1A-454 +CCCCUUCAUGAGCCCCGGAG 20 4303 SCNN1A-73 + CCCCUUCAUGAGCCCUGGAG 20  600SCNN1A-54 + ACACCAGGCGGAUGGCGCCG 20  586 SCNN1A-455 −CAUGAAGGGGAACAAGCUGG 20 4304 SCNN1A-6 − CAUGGAGGGGAACAAGCUGG 20  558SCNN1A-30 − CGGCCUUCUGGGCAGUGCUG 20  572 SCNN1A-456 −UGGCCAGGGGCAGCCUCACU 20 4305 SCNN1A-457 + CUGCUCAUGAUACCUCCCCU 20 4306

Table 43E provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the fifth tier parameters. Thetargeting domains fall in the coding sequence of the gene, downstream ofthe first 500 bp of coding sequence (e.g., anywhere from +500 (relativeto the start codon) to the stop codon of the gene). It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a S. pyogeness Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 43E 5th Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID SCNN1A-458 − GCCCCACACCUAAGAAA 17 4307 SCNN1A-459 −AUGCCUGGAAUCAACAA 17 4308 SCNN1A-460 + ACCCUCAGGCGCUGCAA 17 4309SCNN1A-461 + CCAUUCCUAGGAAAGAA 17 4310 SCNN1A-462 − GGCGACUGCACCAAGAA 174311 SCNN1A-463 + ACGCUGGGGAUGGAGAA 17 4312 SCNN1A-464 −CCAUUCUUUCCUAGGAA 17 4313 SCNN1A-465 + AACCUGUACCCGGGGAA 17 4314SCNN1A-466 − AGGUAGAGUGUGGGGAA 17 4315 SCNN1A-467 + UGAAUACACACCUGGAA 174316 SCNN1A-468 + AUUUCCGGGUACCUGAA 17 4317 SCNN1A-469 +GCUGUGUGUACUUUGAA 17 4318 SCNN1A-470 + GCCACCAUCAUCCAUAA 17 4319SCNN1A-471 + UGUACUUUGAAGGGUAA 17 4320 SCNN1A-472 − GACUGGGGCCCGGGUAA 174321 SCNN1A-473 − AUCUCUCUGUACCCACA 17 4322 SCNN1A-474 +GGACAAGGACAGAGACA 17 4323 SCNN1A-475 + AGGGCCUGGCUGGGACA 17 4324SCNN1A-476 − AGAGGUUUCUCACACCA 17 4325 SCNN1A-477 + UCUUGUGGCUGGGACCA 174326 SCNN1A-478 + AGAUGGGCGGGGGCCCA 17 4327 SCNN1A-479 +AGGAGGGGAGGAUGCCA 17 4328 SCNN1A-480 − CCUGGGGUGAGACUCCA 17 4329SCNN1A-481 + CAGCGUGUCCUCCUCCA 17 4330 SCNN1A-482 − GCUCCCUGCUUGCUCCA 174331 SCNN1A-483 − GCCCCCGCCCAUCUCCA 17 4332 SCNN1A-484 +GCCCCCAAGUCUGUCCA 17 4333 SCNN1A-485 + GCGCCAUGGAGCAAGCA 17 4334SCNN1A-486 + AGUCACUGUGGACAGCA 17 4335 SCNN1A-487 + AGGCUGGAGAGGGAGCA 174336 SCNN1A-488 − UCAGCAUGAGGAAGGCA 17 4337 SCNN1A-489 +GUUGUUGAUUCCAGGCA 17 4338 SCNN1A-490 + CCAGGGUGGCAUAGGCA 17 4339SCNN1A-491 − UCCAGGCCGAGGGGGCA 17 4340 SCNN1A-492 + GGGGACACUAACCUGCA 174341 SCNN1A-493 + GACCCUCAGGCGCUGCA 17 4342 SCNN1A-494 −CUCCAGGGGGCUCUGCA 17 4343 SCNN1A-495 − GCCCGGGUAAUGGUGCA 17 4344SCNN1A-496 + CUCUGCGCGCAGCAUCA 17 4345 SCNN1A-497 − ACCAGACAUACUCAUCA 174346 SCNN1A-498 + GAAUGGGGGUGUCAUCA 17 4347 SCNN1A-499 −CCAGGAGAGCAUGAUCA 17 4348 SCNN1A-500 − GUCCCGCCCCCGCCUCA 17 4349SCNN1A-501 + CCUCUCCUUCCCUCUCA 17 4350 SCNN1A-502 + AGGGGGAGGGGCUGUCA 174351 SCNN1A-503 − UGAGUCUCCCUCUGUCA 17 4352 SCNN1A-504 −AGUCAACAUCUUCUUCA 17 4353 SCNN1A-505 + AAGGGGCGAGGGGAAGA 17 4354SCNN1A-506 − ACCUCUCCUCUCACAGA 17 4355 SCNN1A-507 + CGACCUACCGUGACAGA 174356 SCNN1A-508 + CUUAGGUGUGGGGCAGA 17 4357 SCNN1A-509 +CAGAGACUAGAGUCAGA 17 4358 SCNN1A-510 + GGAGGGUGGAGAGGAGA 17 4359SCNN1A-511 + GCAGAGCCCCCUGGAGA 17 4360 SCNN1A-512 + GCUGUCAAGGCUGGAGA 174361 SCNN1A-513 − GUUGUCUGUGGUGGAGA 17 4362 SCNN1A-514 −CUGGGGGGGCCCUGAGA 17 4363 SCNN1A-515 − CUGCUGGUUACUCACGA 17 4364SCNN1A-516 + GAGAGGUACAUUGACGA 17 4365 SCNN1A-517 + ACCUGGGAUGUCACCGA 174366 SCNN1A-518 − GAGGCCCGCAGCGCCGA 17 4367 SCNN1A-519 −ACUGGUCUCCAGGCCGA 17 4368 SCNN1A-520 − UCCUCAUGCUGCUCCGA 17 4369SCNN1A-521 + UCCCCCGCAGGUCGCGA 17 4370 SCNN1A-522 + GGUACCUGAAGGGGCGA 174371 SCNN1A-523 + CCACGCUACGGGCUCGA 17 4372 SCNN1A-524 +GGCAGAAGUGGGAAGGA 17 4373 SCNN1A-525 + GCCCAGGUUGGACAGGA 17 4374SCNN1A-526 + ACACCUGGAAGGGAGGA 17 4375 SCNN1A-527 − CUCCAUCAGCAUGAGGA 174376 SCNN1A-528 − AGAGUGUGGGGAAGGGA 17 4377 SCNN1A-529 +GUGUCCUCCUCCAGGGA 17 4378 SCNN1A-530 − GGGGGCCCUGAGAGGGA 17 4379SCNN1A-531 + CAACCUGUACCCGGGGA 17 4380 SCNN1A-532 + UGGCAUAGGCAGGGGGA 174381 SCNN1A-533 + GCUGGUCACGCUGGGGA 17 4382 SCNN1A-534 −CAGGUAGAGUGUGGGGA 17 4383 SCNN1A-535 + UGGGGGCAGAAGUGGGA 17 4384SCNN1A-536 − CCCCCAGGUGGACUGGA 17 4385 SCNN1A-537 + GUGAAUACACACCUGGA 174386 SCNN1A-538 − UGACUGGGAGGCCUGGA 17 4387 SCNN1A-539 −GGUAGGUCGUGCCUGGA 17 4388 SCNN1A-540 − CCUGCCUUUAUGGAUGA 17 4389SCNN1A-541 + AAUUUCCGGGUACCUGA 17 4390 SCNN1A-542 − CCCCUUGCAGCGCCUGA 174391 SCNN1A-543 + UGCCUUCCUCAUGCUGA 17 4392 SCNN1A-544 −AGGGGUGGAUGCGGUGA 17 4393 SCNN1A-545 + GGCCACGAGAGUGGUGA 17 4394SCNN1A-546 + UGACCUCUUGUUGUUGA 17 4395 SCNN1A-547 + UGCUGUGUGUACUUUGA 174396 SCNN1A-548 − CUCUCUCUUUCCUGAUA 17 4397 SCNN1A-549 +CAUCAGGGACAGACCUA 17 4398 SCNN1A-550 + AGCUGGAGGCCACGCUA 17 4399SCNN1A-551 + UCAGGAAAGAGAGAGUA 17 4400 SCNN1A-552 − UUCCACCACCCGAUGUA 174401 SCNN1A-553 − AGACUUGGGGGCGAUUA 17 4402 SCNN1A-554 −GGAUGAACCUGCCUUUA 17 4403 SCNN1A-555 + GGGUAAAGGUUCUCAAC 17 4404SCNN1A-556 + AGGACAGGUGGAGGAAC 17 4405 SCNN1A-557 + CCGAGGAGCCGAACCAC 174406 SCNN1A-558 − CAUCUCUCUGUACCCAC 17 4407 SCNN1A-559 +CGAACCACAGGCUCCAC 17 4408 SCNN1A-560 − CCCGGGUAAUGGUGCAC 17 4409SCNN1A-561 + AUUUGUUCUGGUUGCAC 17 4410 SCNN1A-562 − UCCCGCCCCCGCCUCAC 174411 SCNN1A-563 + UCUCUGGCAGCCUCGAC 17 4412 SCNN1A-564 +CACGCUACGGGCUCGAC 17 4413 SCNN1A-565 − AGGUGGACUGGAAGGAC 17 4414SCNN1A-566 + GGGCCCCCCCAGAGGAC 17 4415 SCNN1A-567 − ACAACCCCCAGGUGGAC 174416 SCNN1A-568 + GGCUGCCCAGGUUGGAC 17 4417 SCNN1A-569 −AAGGCAAGGAUGCUGAC 17 4418 SCNN1A-570 − CUGCUGUCCACAGUGAC 17 4419SCNN1A-571 − GGUUCCGAAGCCGAUAC 17 4420 SCNN1A-572 + GCUGGAGGCCACGCUAC 174421 SCNN1A-573 − UCCCCUUCCCCGGGUAC 17 4422 SCNN1A-574 +AGGAGCUGUAUUUGUAC 17 4423 SCNN1A-575 − CACCCUCCUGUCCAACC 17 4424SCNN1A-576 − CCAGGUCUCCUGCAACC 17 4425 SCNN1A-577 + CUGAGGAGAAGUCAACC 174426 SCNN1A-578 − CGCCUGCCGCUUCAACC 17 4427 SCNN1A-579 +AGGAGUGAAUACACACC 17 4428 SCNN1A-580 − CUUCUCCUCAGACCACC 17 4429SCNN1A-581 + AGUCCUUCCAGUCCACC 17 4430 SCNN1A-582 + CCUGGUUGCAGGAGACC 174431 SCNN1A-583 + CUUCCCCACACUCUACC 17 4432 SCNN1A-584 −UCGCCCCUUCAGGUACC 17 4433 SCNN1A-585 + GCCCGUGCACCAUUACC 17 4434SCNN1A-586 − GGGUUCAUAGGAAACCC 17 4435 SCNN1A-587 − CCCUGCCUAUGCCACCC 174436 SCNN1A-588 − GGAGGUAGCCUCCACCC 17 4437 SCNN1A-589 +CCCGUGCACCAUUACCC 17 4438 SCNN1A-590 + CCCUGGAGUCUCACCCC 17 4439SCNN1A-591 − GCGGGACAACAACCCCC 17 4440 SCNN1A-592 + GCCCCUGCAGAGCCCCC 174441 SCNN1A-593 − UUAGUGUCCCCUUCCCC 17 4442 SCNN1A-594 +ACUUGGUGAAACAGCCC 17 4443 SCNN1A-595 + GAGAUGGGCGGGGGCCC 17 4444SCNN1A-596 − CACAGUGACUGGGGCCC 17 4445 SCNN1A-597 − AGAGGUCAGUCCUGCCC 174446 SCNN1A-598 + GGCUCCACUGGCUGCCC 17 4447 SCNN1A-599 −GCCCUCGGUGACAUCCC 17 4448 SCNN1A-600 − AGAGACUCUGCCAUCCC 17 4449SCNN1A-601 + GCAGGGUGGGGGCUCCC 17 4450 SCNN1A-602 − GUUAGUGUCCCCUUCCC 174451 SCNN1A-603 − CUGUCCUUGUCCCAGCC 17 4452 SCNN1A-604 +AUGGAGGUCUCCACGCC 17 4453 SCNN1A-605 + CAGGACUGACUCACGCC 17 4454SCNN1A-606 − AUGCUGACUGGGAGGCC 17 4455 SCNN1A-607 − GGCUUUAACUUGCGGCC 174456 SCNN1A-608 + CCCCUGCCCCCUCGGCC 17 4457 SCNN1A-609 +GGAGAGGGAGCAGGGCC 17 4458 SCNN1A-610 − CCACAGUGACUGGGGCC 17 4459SCNN1A-611 − UGGAUGUCUUCCAUGCC 17 4460 SCNN1A-612 + AAGGAGGGGAGGAUGCC 174461 SCNN1A-613 − CGUGAGUCAGUCCUGCC 17 4462 SCNN1A-614 −UCACGGUAGGUCGUGCC 17 4463 SCNN1A-615 + CAUCACAGGCUCCAUCC 17 4464SCNN1A-616 − UCCUGGGGUGAGACUCC 17 4465 SCNN1A-617 + CCAGCGUGUCCUCCUCC 174466 SCNN1A-618 − CUGCUACUAUAAGCUCC 17 4467 SCNN1A-619 −GGCCCCCGCCCAUCUCC 17 4468 SCNN1A-620 + CCUUGAUCAUGCUCUCC 17 4469SCNN1A-621 − AGCCGAUACUGGUCUCC 17 4470 SCNN1A-622 + CGCCCCCAAGUCUGUCC 174471 SCNN1A-623 + UCACCGUUGUUGAUUCC 17 4472 SCNN1A-624 −CCACCCUCCUCCCUUCC 17 4473 SCNN1A-625 − UAUUCACUCCUGCUUCC 17 4474SCNN1A-626 − ACAGAAAGCACAGUUCC 17 4475 SCNN1A-627 + GCUCCUCUUUAAUUUCC 174476 SCNN1A-628 + GGCGCCAUGGAGCAAGC 17 4477 SCNN1A-629 +GUUGUUGUCCCGCAAGC 17 4478 SCNN1A-630 + CAUGCUCUCCUGGAAGC 17 4479SCNN1A-631 − UUCAAAGUACACACAGC 17 4480 SCNN1A-632 + CAGUCACUGUGGACAGC 174481 SCNN1A-633 + CUGCGGGCCUCACCAGC 17 4482 SCNN1A-634 +GGAACAUGAUGACCAGC 17 4483 SCNN1A-635 − GAAGAUCGGCUUCCAGC 17 4484SCNN1A-636 + AGUAACCAGCAGAGAGC 17 4485 SCNN1A-637 − GGAAAUUAAAGAGGAGC 174486 SCNN1A-638 − AGAGGAGCUGGAGGAGC 17 4487 SCNN1A-639 +AAGGCUGGAGAGGGAGC 17 4488 SCNN1A-640 + GCGACGGCUGCGGGAGC 17 4489SCNN1A-641 + AGCAGAGAGCUGGUAGC 17 4490 SCNN1A-642 − CCUGGAGGAGGACACGC 174491 SCNN1A-643 + CUGGUAGCUGGUCACGC 17 4492 SCNN1A-644 +GCGGCAGAGUCCCCCGC 17 4493 SCNN1A-645 + CCAUCAUCCAUAAAGGC 17 4494SCNN1A-646 + GGAGGGGCUGUCAAGGC 17 4495 SCNN1A-647 + AGAGCAAGGAGCCAGGC 174496 SCNN1A-648 + GACGGGCCCCGUGAGGC 17 4497 SCNN1A-649 +CCCAGGGUGGCAUAGGC 17 4498 SCNN1A-650 + GACCUGGUUGAAGCGGC 17 4499SCNN1A-651 + GUGGCUGGGACCAGGGC 17 4500 SCNN1A-652 − GGUAAUGGUGCACGGGC 174501 SCNN1A-653 − CUCCAGGCCGAGGGGGC 17 4502 SCNN1A-654 +CCCCGUGAGGCGGGGGC 17 4503 SCNN1A-655 + GCCCCCUGGAGAUGGGC 17 4504SCNN1A-656 + AGGGAGCAGGGCCUGGC 17 4505 SCNN1A-657 − UUCACCACUCUCGUGGC 174506 SCNN1A-658 − AGUGCCGGAAGCCAUGC 17 4507 SCNN1A-659 −CAGCCGUCGCGACCUGC 17 4508 SCNN1A-660 − GCUCGUCUUUGACCUGC 17 4509SCNN1A-661 + GGGCCCCUCGGCGCUGC 17 4510 SCNN1A-662 + CAGGUCGCGACGGCUGC 174511 SCNN1A-663 − UCUCCAGGGGGCUCUGC 17 4512 SCNN1A-664 −AGCUACCAGCUCUCUGC 17 4513 SCNN1A-665 − GCUGUUUCACCAAGUGC 17 4514SCNN1A-666 − CGUGGCCUCCAGCUUGC 17 4515 SCNN1A-667 + GACUCACGCCUGGUUGC 174516 SCNN1A-668 + AGCAGUUUCCAUACAUC 17 4517 SCNN1A-669 +GCUCUGCGCGCAGCAUC 17 4518 SCNN1A-670 + UCUGUCGCGAUAGCAUC 17 4519SCNN1A-671 − UACCAGACAUACUCAUC 17 4520 SCNN1A-672 + GAGAGUAAUUCCUUAUC 174521 SCNN1A-673 − AGAACAACUCCAACCUC 17 4522 SCNN1A-674 +GCGGGGGCGGGACCCUC 17 4523 SCNN1A-675 − UUCCUCCACCUGUCCUC 17 4524SCNN1A-676 − AGGGGGCAGGGGUGCUC 17 4525 SCNN1A-677 + ACCUCUCCUUCCCUCUC 174526 SCNN1A-678 + AGGGAUGGCAGAGUCUC 17 4527 SCNN1A-679 +GCGAGGGGAAGAGGGUC 17 4528 SCNN1A-680 + CCCCUGAUGAGUAUGUC 17 4529SCNN1A-681 − CUUCCCCUCGCCCCUUC 17 4530 SCNN1A-682 + CUAACCUGCAUGGCUUC 174531 SCNN1A-683 + CACAGUACUCCACGUUC 17 4532 SCNN1A-684 +AGCAGUCCGAUUUGUUC 17 4533 SCNN1A-685 + AGCUCCUCUUUAAUUUC 17 4534SCNN1A-686 − GUACCCGGAAAUUAAAG 17 4535 SCNN1A-687 − ACACCGUCAACAACAAG 174536 SCNN1A-688 + CCCUCAGGCGCUGCAAG 17 4537 SCNN1A-689 +UGGGGUGGGGGCAGAAG 17 4538 SCNN1A-690 + GAAGGGGCGAGGGGAAG 17 4539SCNN1A-691 + ACCUGUACCCGGGGAAG 17 4540 SCNN1A-692 + UGUUGAUGUAGUGGAAG 174541 SCNN1A-693 + UUUCCGGGUACCUGAAG 17 4542 SCNN1A-694 +AGGAGACCUGGUUGAAG 17 4543 SCNN1A-695 + ACGACCUACCGUGACAG 17 4544SCNN1A-696 + UCUCAGGGCCCCCCCAG 17 4545 SCNN1A-697 − CCAACCUGGGCAGCCAG 174546 SCNN1A-698 + GCAUGGAAGACAUCCAG 17 4547 SCNN1A-699 −CCCCCGCCCAUCUCCAG 17 4548 SCNN1A-700 + GUCACUGUGGACAGCAG 17 4549SCNN1A-701 + CAGGGUGGCAUAGGCAG 17 4550 SCNN1A-702 − CCAGGCCGAGGGGGCAG 174551 SCNN1A-703 + UCUUAGGUGUGGGGCAG 17 4552 SCNN1A-704 −UCCAGGGGGCUCUGCAG 17 4553 SCNN1A-705 − CCAGACAUACUCAUCAG 17 4554SCNN1A-706 + ACAGAGACUAGAGUCAG 17 4555 SCNN1A-707 + AGAGACUAGAGUCAGAG 174556 SCNN1A-708 + GGAGCCGGCCACGAGAG 17 4557 SCNN1A-709 −AGGCCCGCAGCGCCGAG 17 4558 SCNN1A-710 − CUGGUCUCCAGGCCGAG 17 4559SCNN1A-711 + GUACCUGAAGGGGCGAG 17 4560 SCNN1A-712 − CCCUGAGAGGGAAGGAG 174561 SCNN1A-713 + GCAGAAGUGGGAAGGAG 17 4562 SCNN1A-714 +AGGAGGGUGGAGAGGAG 17 4563 SCNN1A-715 + ACCAUCUGUGAGAGGAG 17 4564SCNN1A-716 − UGGAUGCGGUGAGGGAG 17 4565 SCNN1A-717 + GGCAUAGGCAGGGGGAG 174566 SCNN1A-718 − ACACCUAAGAAAUGGAG 17 4567 SCNN1A-719 +GGCUGUCAAGGCUGGAG 17 4568 SCNN1A-720 + AAGGGAGGAGGGUGGAG 17 4569SCNN1A-721 − UCUGGGGGGGCCCUGAG 17 4570 SCNN1A-722 + GGGUGACCAUCUGUGAG 174571 SCNN1A-723 + AUCAGGGACAGACCUAG 17 4572 SCNN1A-724 +ACAGGAUGUUGAUGUAG 17 4573 SCNN1A-725 − UCCGCGGCCCCAGAACG 17 4574SCNN1A-726 − CCCGCCCCCGCCUCACG 17 4575 SCNN1A-727 + CACCACAGACAACACCG 174576 SCNN1A-728 + UACCUGGGAUGUCACCG 17 4577 SCNN1A-729 −UGAGGCCCGCAGCGCCG 17 4578 SCNN1A-730 − UACUGGUCUCCAGGCCG 17 4579SCNN1A-731 + UCCACGUUCUGGGGCCG 17 4580 SCNN1A-732 − CCUACAUCUUCUAUCCG 174581 SCNN1A-733 − GGCCCAACCUGAUUCCG 17 4582 SCNN1A-734 −CCGUCGAGCCCGUAGCG 17 4583 SCNN1A-735 + ACGGGCCCCGUGAGGCG 17 4584SCNN1A-736 + GGGUACCUGAAGGGGCG 17 4585 SCNN1A-737 + CCCCCUGGAGAUGGGCG 174586 SCNN1A-738 − UAACUUGCGGCCUGGCG 17 4587 SCNN1A-739 −AGCCGUCGCGACCUGCG 17 4588 SCNN1A-740 − CUCCUUCACCACUCUCG 17 4589SCNN1A-741 − ACAUCAACAUCCUGUCG 17 4590 SCNN1A-742 + GGGCAGAAGUGGGAAGG 174591 SCNN1A-743 + CCCCCCCAGAGGACAGG 17 4592 SCNN1A-744 +UGCCCAGGUUGGACAGG 17 4593 SCNN1A-745 − GGACAACAACCCCCAGG 17 4594SCNN1A-746 + UGGUGAAACAGCCCAGG 17 4595 SCNN1A-747 − CCCCGCCCAUCUCCAGG 174596 SCNN1A-748 + AGGGUGGCAUAGGCAGG 17 4597 SCNN1A-749 −GGGCAGGGGUGCUCAGG 17 4598 SCNN1A-750 − UGGUCUCCAGGCCGAGG 17 4599SCNN1A-751 + CACACCUGGAAGGGAGG 17 4600 SCNN1A-752 − UCUGCCAUCCCUGGAGG 174601 SCNN1A-753 + CGACGGGCCCCGUGAGG 17 4602 SCNN1A-754 +CGGGCCCCGUGAGGCGG 17 4603 SCNN1A-755 + CCCCUGGAGAUGGGCGG 17 4604SCNN1A-756 − GCCGUCGCGACCUGCGG 17 4605 SCNN1A-757 + AUACACACCUGGAAGGG 174606 SCNN1A-758 + UGGGCGGGGGCCCAGGG 17 4607 SCNN1A-759 +AGGGGAGGAUGCCAGGG 17 4608 SCNN1A-760 + AGGUGUGGGGCAGAGGG 17 4609SCNN1A-761 + CCUGGAAGGGAGGAGGG 17 4610 SCNN1A-762 + AGUUUCCAUACAUCGGG 174611 SCNN1A-763 − GACAUACUCAUCAGGGG 17 4612 SCNN1A-764 +GAAGUGGGAAGGAGGGG 17 4613 SCNN1A-765 + GUGGCAUAGGCAGGGGG 17 4614SCNN1A-766 + GCCCCGUGAGGCGGGGG 17 4615 SCNN1A-767 + AGGACAGAGACAUGGGG 174616 SCNN1A-768 − CCACCUGUCCUCUGGGG 17 4617 SCNN1A-769 +AGCCCCCUGGAGAUGGG 17 4618 SCNN1A-770 − UGUGGGGAAGGGAUGGG 17 4619SCNN1A-771 − CAAGGAUGCUGACUGGG 17 4620 SCNN1A-772 − UCCACCUGUCCUCUGGG 174621 SCNN1A-773 + UUCCUAGGAAAGAAUGG 17 4622 SCNN1A-774 −GCCUUUAUGGAUGAUGG 17 4623 SCNN1A-775 + CUUCCUCAUGCUGAUGG 17 4624SCNN1A-776 + CCUUCCAGUCCACCUGG 17 4625 SCNN1A-777 − GACUCUGCCAUCCCUGG 174626 SCNN1A-778 + GUUGUCCCGCAAGCUGG 17 4627 SCNN1A-779 −AAUUAAAGAGGAGCUGG 17 4628 SCNN1A-780 − CUCCACCUGUCCUCUGG 17 4629SCNN1A-781 + CCCCAGAGGACAGGUGG 17 4630 SCNN1A-782 + GGAGGAUGCCAGGGUGG 174631 SCNN1A-783 + UUCCAUACAUCGGGUGG 17 4632 SCNN1A-784 +ACAGAGACAUGGGGUGG 17 4633 SCNN1A-785 − GGGGAAGGGAUGGGUGG 17 4634SCNN1A-786 − CUCGGUGUUGUCUGUGG 17 4635 SCNN1A-787 − ACCCUGGACAGACUUGG 174636 SCNN1A-788 + AUUCCUAGGAAAGAAUG 17 4637 SCNN1A-789 +ACAAGGACAGAGACAUG 17 4638 SCNN1A-790 + ACCUUCGGAGCAGCAUG 17 4639SCNN1A-791 − AGACCUCCAUCAGCAUG 17 4640 SCNN1A-792 − CUCAUCAGGGGUGGAUG 174641 SCNN1A-793 + GCGUCUGCUCUGUGAUG 17 4642 SCNN1A-794 −UGAUCUCUUGGUGUAUG 17 4643 SCNN1A-795 + CCGGGCCCCAGUCACUG 17 4644SCNN1A-796 − GCUGUCCACAGUGACUG 17 4645 SCNN1A-797 + UCCUUCCAGUCCACCUG 174646 SCNN1A-798 − GCAGCCGUCGCGACCUG 17 4647 SCNN1A-799 +AUAGUAGCAGUACCCUG 17 4648 SCNN1A-800 − GCAGCCAGUGGAGCCUG 17 4649SCNN1A-801 − ACCCCUUGCAGCGCCUG 17 4650 SCNN1A-802 − AGAAAGCACAGUUCCUG 174651 SCNN1A-803 + GGUAGCUGGUCACGCUG 17 4652 SCNN1A-804 +CGGGCCCCUCGGCGCUG 17 4653 SCNN1A-805 + GCAGGUCGCGACGGCUG 17 4654SCNN1A-806 − CCUCCACCUGUCCUCUG 17 4655 SCNN1A-807 + ACAGCCCAGGUGGUCUG 174656 SCNN1A-808 − CUCCUCGGUGUUGUCUG 17 4657 SCNN1A-809 +CAGUACUCCACGUUCUG 17 4658 SCNN1A-810 − ACAUCCCAGGUAGAGUG 17 4659SCNN1A-811 − AGCAUGAUCAAGGAGUG 17 4660 SCNN1A-812 + GCUCGACGGGCCCCGUG 174661 SCNN1A-813 − AGUACACACAGCAGGUG 17 4662 SCNN1A-814 +ACUCCAUUUCUUAGGUG 17 4663 SCNN1A-815 − CAGGGGUGGAUGCGGUG 17 4664SCNN1A-816 + AGGCGCUGCAAGGGGUG 17 4665 SCNN1A-817 + GACAGAGACAUGGGGUG 174666 SCNN1A-818 − UGGGGAAGGGAUGGGUG 17 4667 SCNN1A-819 −UCGGCUUCCAGCUGGUG 17 4668 SCNN1A-820 − AUCCCAGGUAGAGUGUG 17 4669SCNN1A-821 + UCCAUUUCUUAGGUGUG 17 4670 SCNN1A-822 − AUGGUGGCUUUAACUUG 174671 SCNN1A-823 − AACCCUGGACAGACUUG 17 4672 SCNN1A-824 −GCGUGGCCUCCAGCUUG 17 4673 SCNN1A-825 − GUGCAACCAGAACAAAU 17 4674SCNN1A-826 + CAUUCCUAGGAAAGAAU 17 4675 SCNN1A-827 + AGAGGGAGACUCAGAAU 174676 SCNN1A-828 − CAUUCUUUCCUAGGAAU 17 4677 SCNN1A-829 +GACAAGGACAGAGACAU 17 4678 SCNN1A-830 + UAGCAGUUUCCAUACAU 17 4679SCNN1A-831 + GGGGCCCAGGGUGGCAU 17 4680 SCNN1A-832 − GGUGUAUGUGGGUUCAU 174681 SCNN1A-833 − UGGAAGGACUGGAAGAU 17 4682 SCNN1A-834 +CAGAGCCCCCUGGAGAU 17 4683 SCNN1A-835 + AGAGGUACAUUGACGAU 17 4684SCNN1A-836 − GAGUGUGGGGAAGGGAU 17 4685 SCNN1A-837 + GGCCUGGAGACCAGUAU 174686 SCNN1A-838 + GCAUGGCUUCCGGCACU 17 4687 SCNN1A-839 −GAAACCCUGGACAGACU 17 4688 SCNN1A-840 − AGGCAAGGAUGCUGACU 17 4689SCNN1A-841 − UGCUGUCCACAGUGACU 17 4690 SCNN1A-842 − ACCCUCCUGUCCAACCU 174691 SCNN1A-843 − UUCUCCUCAGACCACCU 17 4692 SCNN1A-844 +GUCCUUCCAGUCCACCU 17 4693 SCNN1A-845 + GCAUCAGGGACAGACCU 17 4694SCNN1A-846 + UUCCCCACACUCUACCU 17 4695 SCNN1A-847 − CCUGCCUAUGCCACCCU 174696 SCNN1A-848 − GCUCUCUCUGCACCCCU 17 4697 SCNN1A-849 +GAGCACCCCUGCCCCCU 17 4698 SCNN1A-850 − UUACUCACGAUGGCCCU 17 4699SCNN1A-851 − CCUGUGGUUCGGCUCCU 17 4700 SCNN1A-852 + CUGGAAGACCCAUUCCU 174701 SCNN1A-853 − CAGAAAGCACAGUUCCU 17 4702 SCNN1A-854 −CACCCCCAUUCUUUCCU 17 4703 SCNN1A-855 − CUGGAGGAGGACACGCU 17 4704SCNN1A-856 + UGGUAGCUGGUCACGCU 17 4705 SCNN1A-857 + GGGAGCAGGGCCUGGCU 174706 SCNN1A-858 − UCCUCCACCUGUCCUCU 17 4707 SCNN1A-859 +AACAUCACUGCCAUUCU 17 4708 SCNN1A-860 + ACAGUACUCCACGUUCU 17 4709SCNN1A-861 + GGGGUGGGGGCAGAAGU 17 4710 SCNN1A-862 + UGCAGAGAGAGCAGAGU 174711 SCNN1A-863 + AUCAGGAAAGAGAGAGU 17 4712 SCNN1A-864 +CCACUGGCUGCCCAGGU 17 4713 SCNN1A-865 + CUGCCACGGAAUCAGGU 17 4714SCNN1A-866 + GGAAGACAUCCAGAGGU 17 4715 SCNN1A-867 − UCUCCCUCUGUCACGGU 174716 SCNN1A-868 + GGUGUGGGGCAGAGGGU 17 4717 SCNN1A-869 +GGACAGAGACAUGGGGU 17 4718 SCNN1A-870 − GUGGGGAAGGGAUGGGU 17 4719SCNN1A-871 + CCGCGGAUAGAAGAUGU 17 4720 SCNN1A-872 − GAUCUCUUGGUGUAUGU 174721 SCNN1A-873 + UAGUAGCAGUACCCUGU 17 4722 SCNN1A-874 +AGAAAGGUGCUCAGUGU 17 4723 SCNN1A-875 − CAUCCCAGGUAGAGUGU 17 4724SCNN1A-876 + CUCCAUUUCUUAGGUGU 17 4725 SCNN1A-877 − AAACCCUGGACAGACUU 174726 SCNN1A-878 + GAAGAAGAUGUUGACUU 17 4727 SCNN1A-879 +AUCGGCUUCGGAACCUU 17 4728 SCNN1A-880 + GAGACCAGUAUCGGCUU 17 4729SCNN1A-881 + UGGCCACUCCAUUUCUU 17 4730 SCNN1A-882 + UGCCACGGAAUCAGGUU 174731 SCNN1A-883 − CAGUGGAGCCUGUGGUU 17 4732 SCNN1A-884 −UCUGCCCCACACCUAAGAAA 20 4733 SCNN1A-885 − UCCAUGCCUGGAAUCAACAA 20 4734SCNN1A-886 + GGGACCCUCAGGCGCUGCAA 20 4735 SCNN1A-887 +GACCCAUUCCUAGGAAAGAA 20 4736 SCNN1A-888 − UAUGGCGACUGCACCAAGAA 20 4737SCNN1A-889 + GUCACGCUGGGGAUGGAGAA 20 4738 SCNN1A-890 −CCCCCAUUCUUUCCUAGGAA 20 4739 SCNN1A-891 − CCCAGGUAGAGUGUGGGGAA 20 4740SCNN1A-892 + GAGUGAAUACACACCUGGAA 20 4741 SCNN1A-893 +UUAAUUUCCGGGUACCUGAA 20 4742 SCNN1A-894 + CCUGCUGUGUGUACUUUGAA 20 4743SCNN1A-895 + AAAGCCACCAUCAUCCAUAA 20 4744 SCNN1A-896 +GUGUGUACUUUGAAGGGUAA 20 4745 SCNN1A-897 − AGUGACUGGGGCCCGGGUAA 20 4746SCNN1A-898 − GGCAUCUCUCUGUACCCACA 20 4747 SCNN1A-899 +CUGGGACAAGGACAGAGACA 20 4748 SCNN1A-900 + AGCAGGGCCUGGCUGGGACA 20 4749SCNN1A-901 − AGGAGAGGUUUCUCACACCA 20 4750 SCNN1A-902 +UGGAGAUGGGCGGGGGCCCA 20 4751 SCNN1A-903 + GGAAGGAGGGGAGGAUGCCA 20 4752SCNN1A-904 − GUUCCUGGGGUGAGACUCCA 20 4753 SCNN1A-905 +GCCCAGCGUGUCCUCCUCCA 20 4754 SCNN1A-906 − GAAGCUCCCUGCUUGCUCCA 20 4755SCNN1A-907 − UGGGCCCCCGCCCAUCUCCA 20 4756 SCNN1A-908 +AUCGCCCCCAAGUCUGUCCA 20 4757 SCNN1A-909 + AGGGCGCCAUGGAGCAAGCA 20 4758SCNN1A-910 + CCCAGUCACUGUGGACAGCA 20 4759 SCNN1A-911 +UCAAGGCUGGAGAGGGAGCA 20 4760 SCNN1A-912 − CCAUCAGCAUGAGGAAGGCA 20 4761SCNN1A-913 + ACCGUUGUUGAUUCCAGGCA 20 4762 SCNN1A-914 +GGCCCAGGGUGGCAUAGGCA 20 4763 SCNN1A-915 − GUCUCCAGGCCGAGGGGGCA 20 4764SCNN1A-916 + GAAGGGGACACUAACCUGCA 20 4765 SCNN1A-917 +CGGGACCCUCAGGCGCUGCA 20 4766 SCNN1A-918 − CAUCUCCAGGGGGCUCUGCA 20 4767SCNN1A-919 − GGGGCCCGGGUAAUGGUGCA 20 4768 SCNN1A-920 +CUGCUCUGCGCGCAGCAUCA 20 4769 SCNN1A-921 − UCUACCAGACAUACUCAUCA 20 4770SCNN1A-922 + AAAGAAUGGGGGUGUCAUCA 20 4771 SCNN1A-923 −CUUCCAGGAGAGCAUGAUCA 20 4772 SCNN1A-924 − AGGGUCCCGCCCCCGCCUCA 20 4773SCNN1A-925 + AAACCUCUCCUUCCCUCUCA 20 4774 SCNN1A-926 +GGCAGGGGGAGGGGCUGUCA 20 4775 SCNN1A-927 − UUCUGAGUCUCCCUCUGUCA 20 4776SCNN1A-928 − CAAAGUCAACAUCUUCUUCA 20 4777 SCNN1A-929 +CUGAAGGGGCGAGGGGAAGA 20 4778 SCNN1A-930 − UGUACCUCUCCUCUCACAGA 20 4779SCNN1A-931 + GCACGACCUACCGUGACAGA 20 4780 SCNN1A-932 +UUUCUUAGGUGUGGGGCAGA 20 4781 SCNN1A-933 + ACACAGAGACUAGAGUCAGA 20 4782SCNN1A-934 + GGAGGAGGGUGGAGAGGAGA 20 4783 SCNN1A-935 +CCUGCAGAGCCCCCUGGAGA 20 4784 SCNN1A-936 + GGGGCUGUCAAGGCUGGAGA 20 4785SCNN1A-937 − GGUGUUGUCUGUGGUGGAGA 20 4786 SCNN1A-938 −CCUCUGGGGGGGCCCUGAGA 20 4787 SCNN1A-939 − UCUCUGCUGGUUACUCACGA 20 4788SCNN1A-940 + GAGGAGAGGUACAUUGACGA 20 4789 SCNN1A-941 +UCUACCUGGGAUGUCACCGA 20 4790 SCNN1A-942 − GGUGAGGCCCGCAGCGCCGA 20 4791SCNN1A-943 − GAUACUGGUCUCCAGGCCGA 20 4792 SCNN1A-944 −UGUUCCUCAUGCUGCUCCGA 20 4793 SCNN1A-945 + GAGUCCCCCGCAGGUCGCGA 20 4794SCNN1A-946 + CCGGGUACCUGAAGGGGCGA 20 4795 SCNN1A-947 +AGGCCACGCUACGGGCUCGA 20 4796 SCNN1A-948 + GGGGGCAGAAGUGGGAAGGA 20 4797SCNN1A-949 + GCUGCCCAGGUUGGACAGGA 20 4798 SCNN1A-950 +UACACACCUGGAAGGGAGGA 20 4799 SCNN1A-951 − GACCUCCAUCAGCAUGAGGA 20 4800SCNN1A-952 − GGUAGAGUGUGGGGAAGGGA 20 4801 SCNN1A-953 +AGCGUGUCCUCCUCCAGGGA 20 4802 SCNN1A-954 − UGGGGGGGCCCUGAGAGGGA 20 4803SCNN1A-955 + GGGUGGCAUAGGCAGGGGGA 20 4804 SCNN1A-956 +GUAGCUGGUCACGCUGGGGA 20 4805 SCNN1A-957 − UCCCAGGUAGAGUGUGGGGA 20 4806SCNN1A-958 + GGGUGGGGGCAGAAGUGGGA 20 4807 SCNN1A-959 −CAACCCCCAGGUGGACUGGA 20 4808 SCNN1A-960 + GGAGUGAAUACACACCUGGA 20 4809SCNN1A-961 − UGCUGACUGGGAGGCCUGGA 20 4810 SCNN1A-962 −CACGGUAGGUCGUGCCUGGA 20 4811 SCNN1A-963 − GAACCUGCCUUUAUGGAUGA 20 4812SCNN1A-964 + UUUAAUUUCCGGGUACCUGA 20 4813 SCNN1A-965 −GCACCCCUUGCAGCGCCUGA 20 4814 SCNN1A-966 + CCUUGCCUUCCUCAUGCUGA 20 4815SCNN1A-967 − AUCAGGGGUGGAUGCGGUGA 20 4816 SCNN1A-968 +GCCGGCCACGAGAGUGGUGA 20 4817 SCNN1A-969 + GACUGACCUCUUGUUGUUGA 20 4818SCNN1A-970 + ACCUGCUGUGUGUACUUUGA 20 4819 SCNN1A-971 −CUACUCUCUCUUUCCUGAUA 20 4820 SCNN1A-972 + CAGCAUCAGGGACAGACCUA 20 4821SCNN1A-973 + GCAAGCUGGAGGCCACGCUA 20 4822 SCNN1A-974 +UUAUCAGGAAAGAGAGAGUA 20 4823 SCNN1A-975 − CACUUCCACCACCCGAUGUA 20 4824SCNN1A-976 − GACAGACUUGGGGGCGAUUA 20 4825 SCNN1A-977 −GCAGGAUGAACCUGCCUUUA 20 4826 SCNN1A-978 + GAAGGGUAAAGGUUCUCAAC 20 4827SCNN1A-979 + CAGAGGACAGGUGGAGGAAC 20 4828 SCNN1A-980 +ACACCGAGGAGCCGAACCAC 20 4829 SCNN1A-981 − AGGCAUCUCUCUGUACCCAC 20 4830SCNN1A-982 + AGCCGAACCACAGGCUCCAC 20 4831 SCNN1A-983 −GGGCCCGGGUAAUGGUGCAC 20 4832 SCNN1A-984 + CCGAUUUGUUCUGGUUGCAC 20 4833SCNN1A-985 − GGGUCCCGCCCCCGCCUCAC 20 4834 SCNN1A-986 +GAGUCUCUGGCAGCCUCGAC 20 4835 SCNN1A-987 + GGCCACGCUACGGGCUCGAC 20 4836SCNN1A-988 − CCCAGGUGGACUGGAAGGAC 20 4837 SCNN1A-989 +UCAGGGCCCCCCCAGAGGAC 20 4838 SCNN1A-990 − ACAACAACCCCCAGGUGGAC 20 4839SCNN1A-991 + ACUGGCUGCCCAGGUUGGAC 20 4840 SCNN1A-992 −AGGAAGGCAAGGAUGCUGAC 20 4841 SCNN1A-993 − CCCCUGCUGUCCACAGUGAC 20 4842SCNN1A-994 − GAAGGUUCCGAAGCCGAUAC 20 4843 SCNN1A-995 +CAAGCUGGAGGCCACGCUAC 20 4844 SCNN1A-996 − GUGUCCCCUUCCCCGGGUAC 20 4845SCNN1A-997 + UGAAGGAGCUGUAUUUGUAC 20 4846 SCNN1A-998 −GGUCACCCUCCUGUCCAACC 20 4847 SCNN1A-999 − CAACCAGGUCUCCUGCAACC 20 4848SCNN1A-1000 + GGUCUGAGGAGAAGUCAACC 20 4849 SCNN1A-1001 −CUUCGCCUGCCGCUUCAACC 20 4850 SCNN1A-1002 + AGCAGGAGUGAAUACACACC 20 4851SCNN1A-1003 − UGACUUCUCCUCAGACCACC 20 4852 SCNN1A-1004 +UCCAGUCCUUCCAGUCCACC 20 4853 SCNN1A-1005 + ACGCCUGGUUGCAGGAGACC 20 4854SCNN1A-1006 + UCCCUUCCCCACACUCUACC 20 4855 SCNN1A-1007 −CCCUCGCCCCUUCAGGUACC 20 4856 SCNN1A-1008 + CCUGCCCGUGCACCAUUACC 20 4857SCNN1A-1009 − UGUGGGUUCAUAGGAAACCC 20 4858 SCNN1A-1010 −UCCCCCUGCCUAUGCCACCC 20 4859 SCNN1A-1011 − UCAGGAGGUAGCCUCCACCC 20 4860SCNN1A-1012 + CUGCCCGUGCACCAUUACCC 20 4861 SCNN1A-1013 +GCUCCCUGGAGUCUCACCCC 20 4862 SCNN1A-1014 − CUUGCGGGACAACAACCCCC 20 4863SCNN1A-1015 + CUGGCCCCUGCAGAGCCCCC 20 4864 SCNN1A-1016 −AGGUUAGUGUCCCCUUCCCC 20 4865 SCNN1A-1017 + GGCACUUGGUGAAACAGCCC 20 4866SCNN1A-1018 + CUGGAGAUGGGCGGGGGCCC 20 4867 SCNN1A-1019 −GUCCACAGUGACUGGGGCCC 20 4868 SCNN1A-1020 − ACAAGAGGUCAGUCCUGCCC 20 4869SCNN1A-1021 + ACAGGCUCCACUGGCUGCCC 20 4870 SCNN1A-1022 −AUGGCCCUCGGUGACAUCCC 20 4871 SCNN1A-1023 − GCCAGAGACUCUGCCAUCCC 20 4872SCNN1A-1024 − CAGGUUAGUGUCCCCUUCCC 20 4873 SCNN1A-1025 −UCUCUGUCCUUGUCCCAGCC 20 4874 SCNN1A-1026 + CUGAUGGAGGUCUCCACGCC 20 4875SCNN1A-1027 + AGGCAGGACUGACUCACGCC 20 4876 SCNN1A-1028 −AGGAUGCUGACUGGGAGGCC 20 4877 SCNN1A-1029 − GGUGGCUUUAACUUGCGGCC 20 4878SCNN1A-1030 + GCACCCCUGCCCCCUCGGCC 20 4879 SCNN1A-1031 +GCUGGAGAGGGAGCAGGGCC 20 4880 SCNN1A-1032 − UGUCCACAGUGACUGGGGCC 20 4881SCNN1A-1033 − CUCUGGAUGUCUUCCAUGCC 20 4882 SCNN1A-1034 +GGGAAGGAGGGGAGGAUGCC 20 4883 SCNN1A-1035 − AGGCGUGAGUCAGUCCUGCC 20 4884SCNN1A-1036 − CUGUCACGGUAGGUCGUGCC 20 4885 SCNN1A-1037 −AGUUCCUGGGGUGAGACUCC 20 4886 SCNN1A-1038 + UGCCCAGCGUGUCCUCCUCC 20 4887SCNN1A-1039 − GUACUGCUACUAUAAGCUCC 20 4888 SCNN1A-1040 −CUGGGCCCCCGCCCAUCUCC 20 4889 SCNN1A-1041 + ACUCCUUGAUCAUGCUCUCC 20 4890SCNN1A-1042 − CGAAGCCGAUACUGGUCUCC 20 4891 SCNN1A-1043 +AAUCGCCCCCAAGUCUGUCC 20 4892 SCNN1A-1044 + UUCUCACCGUUGUUGAUUCC 20 4893SCNN1A-1045 − UCUCCACCCUCCUCCCUUCC 20 4894 SCNN1A-1046 −GUGUAUUCACUCCUGCUUCC 20 4895 SCNN1A-1047 − ACUACAGAAAGCACAGUUCC 20 4896SCNN1A-1048 + CCAGCUCCUCUUUAAUUUCC 20 4897 SCNN1A-1049 +GAGGGCGCCAUGGAGCAAGC 20 4898 SCNN1A-1050 + GGGGUUGUUGUCCCGCAAGC 20 4899SCNN1A-1051 + GAUCAUGCUCUCCUGGAAGC 20 4900 SCNN1A-1052 −CCCUUCAAAGUACACACAGC 20 4901 SCNN1A-1053 + CCCCAGUCACUGUGGACAGC 20 4902SCNN1A-1054 + GCGCUGCGGGCCUCACCAGC 20 4903 SCNN1A-1055 +UGAGGAACAUGAUGACCAGC 20 4904 SCNN1A-1056 − CUGGAAGAUCGGCUUCCAGC 20 4905SCNN1A-1057 + GUGAGUAACCAGCAGAGAGC 20 4906 SCNN1A-1058 −CCCGGAAAUUAAAGAGGAGC 20 4907 SCNN1A-1059 − UAAAGAGGAGCUGGAGGAGC 20 4908SCNN1A-1060 + GUCAAGGCUGGAGAGGGAGC 20 4909 SCNN1A-1061 +GUCGCGACGGCUGCGGGAGC 20 4910 SCNN1A-1062 + ACCAGCAGAGAGCUGGUAGC 20 4911SCNN1A-1063 − AUCCCUGGAGGAGGACACGC 20 4912 SCNN1A-1064 +GAGCUGGUAGCUGGUCACGC 20 4913 SCNN1A-1065 + GGUGCGGCAGAGUCCCCCGC 20 4914SCNN1A-1066 + CCACCAUCAUCCAUAAAGGC 20 4915 SCNN1A-1067 +GGGGGAGGGGCUGUCAAGGC 20 4916 SCNN1A-1068 + CUCGACGGGCCCCGUGAGGC 20 4917SCNN1A-1069 + GGGCCCAGGGUGGCAUAGGC 20 4918 SCNN1A-1070 +GGAGACCUGGUUGAAGCGGC 20 4919 SCNN1A-1071 + CUUGUGGCUGGGACCAGGGC 20 4920SCNN1A-1072 − CCGGGUAAUGGUGCACGGGC 20 4921 SCNN1A-1073 −GGUCUCCAGGCCGAGGGGGC 20 4922 SCNN1A-1074 + GGGCCCCGUGAGGCGGGGGC 20 4923SCNN1A-1075 + AGAGCCCCCUGGAGAUGGGC 20 4924 SCNN1A-1076 +GAGAGGGAGCAGGGCCUGGC 20 4925 SCNN1A-1077 − UCCUUCACCACUCUCGUGGC 20 4926SCNN1A-1078 − CCAAGUGCCGGAAGCCAUGC 20 4927 SCNN1A-1079 −CCGCAGCCGUCGCGACCUGC 20 4928 SCNN1A-1080 − UGAGCUCGUCUUUGACCUGC 20 4929SCNN1A-1081 + GGCGGGCCCCUCGGCGCUGC 20 4930 SCNN1A-1082 +CCGCAGGUCGCGACGGCUGC 20 4931 SCNN1A-1083 − CCAUCUCCAGGGGGCUCUGC 20 4932SCNN1A-1084 − ACCAGCUACCAGCUCUCUGC 20 4933 SCNN1A-1085 −UGGGCUGUUUCACCAAGUGC 20 4934 SCNN1A-1086 − UAGCGUGGCCUCCAGCUUGC 20 4935SCNN1A-1087 + ACUGACUCACGCCUGGUUGC 20 4936 SCNN1A-1088 +UAUAGCAGUUUCCAUACAUC 20 4937 SCNN1A-1089 + UCUGCUCUGCGCGCAGCAUC 20 4938SCNN1A-1090 + UGUUCUGUCGCGAUAGCAUC 20 4939 SCNN1A-1091 −UUCUACCAGACAUACUCAUC 20 4940 SCNN1A-1092 + AGUGAGAGUAAUUCCUUAUC 20 4941SCNN1A-1093 − ACAAGAACAACUCCAACCUC 20 4942 SCNN1A-1094 +GAGGCGGGGGCGGGACCCUC 20 4943 SCNN1A-1095 − CAGUUCCUCCACCUGUCCUC 20 4944SCNN1A-1096 − CCGAGGGGGCAGGGGUGCUC 20 4945 SCNN1A-1097 +GAAACCUCUCCUUCCCUCUC 20 4946 SCNN1A-1098 + UCCAGGGAUGGCAGAGUCUC 20 4947SCNN1A-1099 + GGGGCGAGGGGAAGAGGGUC 20 4948 SCNN1A-1100 +CCACCCCUGAUGAGUAUGUC 20 4949 SCNN1A-1101 − CCUCUUCCCCUCGCCCCUUC 20 4950SCNN1A-1102 + ACACUAACCUGCAUGGCUUC 20 4951 SCNN1A-1103 +AGUCACAGUACUCCACGUUC 20 4952 SCNN1A-1104 + AGAAGCAGUCCGAUUUGUUC 20 4953SCNN1A-1105 + UCCAGCUCCUCUUUAAUUUC 20 4954 SCNN1A-1106 −CAGGUACCCGGAAAUUAAAG 20 4955 SCNN1A-1107 − AUUACACCGUCAACAACAAG 20 4956SCNN1A-1108 + GGACCCUCAGGCGCUGCAAG 20 4957 SCNN1A-1109 +ACAUGGGGUGGGGGCAGAAG 20 4958 SCNN1A-1110 + CCUGAAGGGGCGAGGGGAAG 20 4959SCNN1A-1111 + GGAUGUUGAUGUAGUGGAAG 20 4960 SCNN1A-1112 +UAAUUUCCGGGUACCUGAAG 20 4961 SCNN1A-1113 + UGCAGGAGACCUGGUUGAAG 20 4962SCNN1A-1114 + GGCACGACCUACCGUGACAG 20 4963 SCNN1A-1115 +CCCUCUCAGGGCCCCCCCAG 20 4964 SCNN1A-1116 − UGUCCAACCUGGGCAGCCAG 20 4965SCNN1A-1117 + CAGGCAUGGAAGACAUCCAG 20 4966 SCNN1A-1118 −GGGCCCCCGCCCAUCUCCAG 20 4967 SCNN1A-1119 + CCAGUCACUGUGGACAGCAG 20 4968SCNN1A-1120 + GCCCAGGGUGGCAUAGGCAG 20 4969 SCNN1A-1121 −UCUCCAGGCCGAGGGGGCAG 20 4970 SCNN1A-1122 + AUUUCUUAGGUGUGGGGCAG 20 4971SCNN1A-1123 − AUCUCCAGGGGGCUCUGCAG 20 4972 SCNN1A-1124 −CUACCAGACAUACUCAUCAG 20 4973 SCNN1A-1125 + GACACAGAGACUAGAGUCAG 20 4974SCNN1A-1126 + CACAGAGACUAGAGUCAGAG 20 4975 SCNN1A-1127 +GCGGGAGCCGGCCACGAGAG 20 4976 SCNN1A-1128 − GUGAGGCCCGCAGCGCCGAG 20 4977SCNN1A-1129 − AUACUGGUCUCCAGGCCGAG 20 4978 SCNN1A-1130 +CGGGUACCUGAAGGGGCGAG 20 4979 SCNN1A-1131 − GGGCCCUGAGAGGGAAGGAG 20 4980SCNN1A-1132 + GGGGCAGAAGUGGGAAGGAG 20 4981 SCNN1A-1133 +GGGAGGAGGGUGGAGAGGAG 20 4982 SCNN1A-1134 + GUGACCAUCUGUGAGAGGAG 20 4983SCNN1A-1135 − GGGUGGAUGCGGUGAGGGAG 20 4984 SCNN1A-1136 +GGUGGCAUAGGCAGGGGGAG 20 4985 SCNN1A-1137 − CCCACACCUAAGAAAUGGAG 20 4986SCNN1A-1138 + AGGGGCUGUCAAGGCUGGAG 20 4987 SCNN1A-1139 +UGGAAGGGAGGAGGGUGGAG 20 4988 SCNN1A-1140 − UCCUCUGGGGGGGCCCUGAG 20 4989SCNN1A-1141 + GGAGGGUGACCAUCUGUGAG 20 4990 SCNN1A-1142 +AGCAUCAGGGACAGACCUAG 20 4991 SCNN1A-1143 + UCGACAGGAUGUUGAUGUAG 20 4992SCNN1A-1144 − CUAUCCGCGGCCCCAGAACG 20 4993 SCNN1A-1145 −GGUCCCGCCCCCGCCUCACG 20 4994 SCNN1A-1146 + CUCCACCACAGACAACACCG 20 4995SCNN1A-1147 + CUCUACCUGGGAUGUCACCG 20 4996 SCNN1A-1148 −UGGUGAGGCCCGCAGCGCCG 20 4997 SCNN1A-1149 − CGAUACUGGUCUCCAGGCCG 20 4998SCNN1A-1150 + UACUCCACGUUCUGGGGCCG 20 4999 SCNN1A-1151 −GUGCCUACAUCUUCUAUCCG 20 5000 SCNN1A-1152 − UGAGGCCCAACCUGAUUCCG 20 5001SCNN1A-1153 − GGCCCGUCGAGCCCGUAGCG 20 5002 SCNN1A-1154 +UCGACGGGCCCCGUGAGGCG 20 5003 SCNN1A-1155 + UCCGGGUACCUGAAGGGGCG 20 5004SCNN1A-1156 + GAGCCCCCUGGAGAUGGGCG 20 5005 SCNN1A-1157 −CUUUAACUUGCGGCCUGGCG 20 5006 SCNN1A-1158 − CGCAGCCGUCGCGACCUGCG 20 5007SCNN1A-1159 − CAGCUCCUUCACCACUCUCG 20 5008 SCNN1A-1160 −ACUACAUCAACAUCCUGUCG 20 5009 SCNN1A-1161 + UGGGGGCAGAAGUGGGAAGG 20 5010SCNN1A-1162 + GGGCCCCCCCAGAGGACAGG 20 5011 SCNN1A-1163 +GGCUGCCCAGGUUGGACAGG 20 5012 SCNN1A-1164 − GCGGGACAACAACCCCCAGG 20 5013SCNN1A-1165 + ACUUGGUGAAACAGCCCAGG 20 5014 SCNN1A-1166 −GGCCCCCGCCCAUCUCCAGG 20 5015 SCNN1A-1167 + CCCAGGGUGGCAUAGGCAGG 20 5016SCNN1A-1168 − AGGGGGCAGGGGUGCUCAGG 20 5017 SCNN1A-1169 −UACUGGUCUCCAGGCCGAGG 20 5018 SCNN1A-1170 + AUACACACCUGGAAGGGAGG 20 5019SCNN1A-1171 − GACUCUGCCAUCCCUGGAGG 20 5020 SCNN1A-1172 +GCUCGACGGGCCCCGUGAGG 20 5021 SCNN1A-1173 + CGACGGGCCCCGUGAGGCGG 20 5022SCNN1A-1174 + AGCCCCCUGGAGAUGGGCGG 20 5023 SCNN1A-1175 −GCAGCCGUCGCGACCUGCGG 20 5024 SCNN1A-1176 + UGAAUACACACCUGGAAGGG 20 5025SCNN1A-1177 + AGAUGGGCGGGGGCCCAGGG 20 5026 SCNN1A-1178 +AGGAGGGGAGGAUGCCAGGG 20 5027 SCNN1A-1179 + CUUAGGUGUGGGGCAGAGGG 20 5028SCNN1A-1180 + ACACCUGGAAGGGAGGAGGG 20 5029 SCNN1A-1181 +AGCAGUUUCCAUACAUCGGG 20 5030 SCNN1A-1182 − CCAGACAUACUCAUCAGGGG 20 5031SCNN1A-1183 + GCAGAAGUGGGAAGGAGGGG 20 5032 SCNN1A-1184 +AGGGUGGCAUAGGCAGGGGG 20 5033 SCNN1A-1185 + CGGGCCCCGUGAGGCGGGGG 20 5034SCNN1A-1186 + ACAAGGACAGAGACAUGGGG 20 5035 SCNN1A-1187 −CCUCCACCUGUCCUCUGGGG 20 5036 SCNN1A-1188 + CAGAGCCCCCUGGAGAUGGG 20 5037SCNN1A-1189 − GAGUGUGGGGAAGGGAUGGG 20 5038 SCNN1A-1190 −AGGCAAGGAUGCUGACUGGG 20 5039 SCNN1A-1191 − UCCUCCACCUGUCCUCUGGG 20 5040SCNN1A-1192 + CCAUUCCUAGGAAAGAAUGG 20 5041 SCNN1A-1193 −CCUGCCUUUAUGGAUGAUGG 20 5042 SCNN1A-1194 + UGCCUUCCUCAUGCUGAUGG 20 5043SCNN1A-1195 + AGUCCUUCCAGUCCACCUGG 20 5044 SCNN1A-1196 −AGAGACUCUGCCAUCCCUGG 20 5045 SCNN1A-1197 + GUUGUUGUCCCGCAAGCUGG 20 5046SCNN1A-1198 − GGAAAUUAAAGAGGAGCUGG 20 5047 SCNN1A-1199 −UUCCUCCACCUGUCCUCUGG 20 5048 SCNN1A-1200 + CCCCCCCAGAGGACAGGUGG 20 5049SCNN1A-1201 + AGGGGAGGAUGCCAGGGUGG 20 5050 SCNN1A-1202 +AGUUUCCAUACAUCGGGUGG 20 5051 SCNN1A-1203 + AGGACAGAGACAUGGGGUGG 20 5052SCNN1A-1204 − UGUGGGGAAGGGAUGGGUGG 20 5053 SCNN1A-1205 −CUCCUCGGUGUUGUCUGUGG 20 5054 SCNN1A-1206 − GAAACCCUGGACAGACUUGG 20 5055SCNN1A-1207 + CCCAUUCCUAGGAAAGAAUG 20 5056 SCNN1A-1208 +GGGACAAGGACAGAGACAUG 20 5057 SCNN1A-1209 + GGAACCUUCGGAGCAGCAUG 20 5058SCNN1A-1210 − UGGAGACCUCCAUCAGCAUG 20 5059 SCNN1A-1211 −AUACUCAUCAGGGGUGGAUG 20 5060 SCNN1A-1212 + AGAGCGUCUGCUCUGUGAUG 20 5061SCNN1A-1213 + UACCCGGGCCCCAGUCACUG 20 5062 SCNN1A-1214 −CCUGCUGUCCACAGUGACUG 20 5063 SCNN1A-1215 + CAGUCCUUCCAGUCCACCUG 20 5064SCNN1A-1216 − CCCGCAGCCGUCGCGACCUG 20 5065 SCNN1A-1217 +CUUAUAGUAGCAGUACCCUG 20 5066 SCNN1A-1218 − UGGGCAGCCAGUGGAGCCUG 20 5067SCNN1A-1219 − CGCACCCCUUGCAGCGCCUG 20 5068 SCNN1A-1220 −UACAGAAAGCACAGUUCCUG 20 5069 SCNN1A-1221 + GCUGGUAGCUGGUCACGCUG 20 5070SCNN1A-1222 + GGGCGGGCCCCUCGGCGCUG 20 5071 SCNN1A-1223 +CCCGCAGGUCGCGACGGCUG 20 5072 SCNN1A-1224 − GUUCCUCCACCUGUCCUCUG 20 5073SCNN1A-1225 + GAAACAGCCCAGGUGGUCUG 20 5074 SCNN1A-1226 −CGGCUCCUCGGUGUUGUCUG 20 5075 SCNN1A-1227 + UCACAGUACUCCACGUUCUG 20 5076SCNN1A-1228 − GUGACAUCCCAGGUAGAGUG 20 5077 SCNN1A-1229 −GAGAGCAUGAUCAAGGAGUG 20 5078 SCNN1A-1230 + CGGGCUCGACGGGCCCCGUG 20 5079SCNN1A-1231 − CAAAGUACACACAGCAGGUG 20 5080 SCNN1A-1232 +GCCACUCCAUUUCUUAGGUG 20 5081 SCNN1A-1233 − CAUCAGGGGUGGAUGCGGUG 20 5082SCNN1A-1234 + CUCAGGCGCUGCAAGGGGUG 20 5083 SCNN1A-1235 +AAGGACAGAGACAUGGGGUG 20 5084 SCNN1A-1236 − GUGUGGGGAAGGGAUGGGUG 20 5085SCNN1A-1237 − AGAUCGGCUUCCAGCUGGUG 20 5086 SCNN1A-1238 −GACAUCCCAGGUAGAGUGUG 20 5087 SCNN1A-1239 + CACUCCAUUUCUUAGGUGUG 20 5088SCNN1A-1240 − AUGAUGGUGGCUUUAACUUG 20 5089 SCNN1A-1241 −GGAAACCCUGGACAGACUUG 20 5090 SCNN1A-1242 − GUAGCGUGGCCUCCAGCUUG 20 5091SCNN1A-1243 − CCAGUGCAACCAGAACAAAU 20 5092 SCNN1A-1244 +ACCCAUUCCUAGGAAAGAAU 20 5093 SCNN1A-1245 + GACAGAGGGAGACUCAGAAU 20 5094SCNN1A-1246 − CCCCAUUCUUUCCUAGGAAU 20 5095 SCNN1A-1247 +UGGGACAAGGACAGAGACAU 20 5096 SCNN1A-1248 + GUAUAGCAGUUUCCAUACAU 20 5097SCNN1A-1249 + GCGGGGGCCCAGGGUGGCAU 20 5098 SCNN1A-1250 −CUUGGUGUAUGUGGGUUCAU 20 5099 SCNN1A-1251 − GACUGGAAGGACUGGAAGAU 20 5100SCNN1A-1252 + CUGCAGAGCCCCCUGGAGAU 20 5101 SCNN1A-1253 +AGGAGAGGUACAUUGACGAU 20 5102 SCNN1A-1254 − GUAGAGUGUGGGGAAGGGAU 20 5103SCNN1A-1255 + CUCGGCCUGGAGACCAGUAU 20 5104 SCNN1A-1256 +CCUGCAUGGCUUCCGGCACU 20 5105 SCNN1A-1257 − UAGGAAACCCUGGACAGACU 20 5106SCNN1A-1258 − GGAAGGCAAGGAUGCUGACU 20 5107 SCNN1A-1259 −CCCUGCUGUCCACAGUGACU 20 5108 SCNN1A-1260 − GUCACCCUCCUGUCCAACCU 20 5109SCNN1A-1261 − GACUUCUCCUCAGACCACCU 20 5110 SCNN1A-1262 +CCAGUCCUUCCAGUCCACCU 20 5111 SCNN1A-1263 + GCAGCAUCAGGGACAGACCU 20 5112SCNN1A-1264 + CCCUUCCCCACACUCUACCU 20 5113 SCNN1A-1265 −CCCCCUGCCUAUGCCACCCU 20 5114 SCNN1A-1266 − UCUGCUCUCUCUGCACCCCU 20 5115SCNN1A-1267 + CCUGAGCACCCCUGCCCCCU 20 5116 SCNN1A-1268 −UGGUUACUCACGAUGGCCCU 20 5117 SCNN1A-1269 − GAGCCUGUGGUUCGGCUCCU 20 5118SCNN1A-1270 + CAUCUGGAAGACCCAUUCCU 20 5119 SCNN1A-1271 −CUACAGAAAGCACAGUUCCU 20 5120 SCNN1A-1272 − UGACACCCCCAUUCUUUCCU 20 5121SCNN1A-1273 − UCCCUGGAGGAGGACACGCU 20 5122 SCNN1A-1274 +AGCUGGUAGCUGGUCACGCU 20 5123 SCNN1A-1275 + AGAGGGAGCAGGGCCUGGCU 20 5124SCNN1A-1276 − AGUUCCUCCACCUGUCCUCU 20 5125 SCNN1A-1277 +AGGAACAUCACUGCCAUUCU 20 5126 SCNN1A-1278 + GUCACAGUACUCCACGUUCU 20 5127SCNN1A-1279 + CAUGGGGUGGGGGCAGAAGU 20 5128 SCNN1A-1280 +GGGUGCAGAGAGAGCAGAGU 20 5129 SCNN1A-1281 + CUUAUCAGGAAAGAGAGAGU 20 5130SCNN1A-1282 + GCUCCACUGGCUGCCCAGGU 20 5131 SCNN1A-1283 +UGGCUGCCACGGAAUCAGGU 20 5132 SCNN1A-1284 + CAUGGAAGACAUCCAGAGGU 20 5133SCNN1A-1285 − GAGUCUCCCUCUGUCACGGU 20 5134 SCNN1A-1286 +UUAGGUGUGGGGCAGAGGGU 20 5135 SCNN1A-1287 + CAAGGACAGAGACAUGGGGU 20 5136SCNN1A-1288 − AGUGUGGGGAAGGGAUGGGU 20 5137 SCNN1A-1289 +GGGCCGCGGAUAGAAGAUGU 20 5138 SCNN1A-1290 − UCUGAUCUCUUGGUGUAUGU 20 5139SCNN1A-1291 + UUAUAGUAGCAGUACCCUGU 20 5140 SCNN1A-1292 +UGGAGAAAGGUGCUCAGUGU 20 5141 SCNN1A-1293 − UGACAUCCCAGGUAGAGUGU 20 5142SCNN1A-1294 + CCACUCCAUUUCUUAGGUGU 20 5143 SCNN1A-1295 −AGGAAACCCUGGACAGACUU 20 5144 SCNN1A-1296 + CUUGAAGAAGAUGUUGACUU 20 5145SCNN1A-1297 + AGUAUCGGCUUCGGAACCUU 20 5146 SCNN1A-1298 +CUGGAGACCAGUAUCGGCUU 20 5147 SCNN1A-1299 + CUUUGGCCACUCCAUUUCUU 20 5148SCNN1A-1300 + GGCUGCCACGGAAUCAGGUU 20 5149 SCNN1A-1301 −AGCCAGUGGAGCCUGUGGUU 20 5150

Table 44A provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the first tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon), have a high levelof orthogonality, start with a 5′G, and PAM is NNGRRT. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 44A  1st Tier Target  gRNA Name DNA Strand Targeting DomainSite Length Seq ID SCNN1A-1302 + GGUUGAUGUUGAGGCUGA 18 5151 SCNN1A-42 +GAGGUUGAUGUUGAGGCUGA 20  519 SCNN1A-1303 + GUUGAGGUUGAUGUUGAGGCUGA 235152 SCNN1A-1304 + GCCCUCUCCCAUCACCCCUGGAAC 24 5153 SCNN1A-1305 +GUCAAGGCUGAGCUCUGGGCC 21 5154 SCNN1A-1306 + GGUCAAGGCUGAGCUCUGGGCC 225155 SCNN1A-1307 + GGGUCAAGGCUGAGCUCUGGGCC 23 5156 SCNN1A-1308 +GAGUGGAUUGGGGAGAGC 18 5157 SCNN1A-1309 + GGAGUGGAUUGGGGAGAGC 19 5158SCNN1A-1310 + GCCCCGGAGUGGAUUGGGGAGAGC 24 5159 SCNN1A-1311 +GCCCUGGAGUGGACUGUGGAGGGC 24 5160 SCNN1A-1312 + GUAUGGGCUGCAGAGGUC 185161 SCNN1A-1313 + GGUAUGGGCUGCAGAGGUC 19 5162 SCNN1A-1314 +GACCUGGUAUGGGCUGCAGAGGUC 24 5163 SCNN1A-1315 + GAUACCUCCCCUUGGAAGGGACAG24 5164 SCNN1A-1316 + GUGCUGGGAGCACACCAG 18 5165 SCNN1A-1317 +GUUGUGCUGGGAGCACACCAG 21 5166 SCNN1A-1318 + GGUUGUGCUGGGAGCACACCAG 225167 SCNN1A-1319 + GCGGUUGUGCUGGGAGCACACCAG 24 5168 SCNN1A-1320 +GUACUCUCCGAAAAGCAGG 19 5169 SCNN1A-1321 + GAAGUACUCUCCGAAAAGCAGG 22 5170SCNN1A-1322 + GAUUGGGGAGAGCAAGGGU 19 5171 SCNN1A-1323 +GGAUUGGGGAGAGCAAGGGU 20 5172 SCNN1A-1324 + GUGGAUUGGGGAGAGCAAGGGU 225173 SCNN1A-1325 + GAGUGGAUUGGGGAGAGCAAGGGU 24 5174 SCNN1A-1326 +GAGGGACUAACCGACCUGU 19 5175 SCNN1A-1327 + GCAGAGGGACUAACCGACCUGU 22 5176SCNN1A-1328 + GGCAGAGGGACUAACCGACCUGU 23 5177 SCNN1A-1329 +GGGCAGAGGGACUAACCGACCUGU 24 5178 SCNN1A-1330 + GCGGGGAAGACGAGCUUGU 195179 SCNN1A-1331 + GACUAACCGACCUGUAGGGAUU 22 5180 SCNN1A-1332 +GGACUAACCGACCUGUAGGGAUU 23 5181 SCNN1A-1333 + GGGACUAACCGACCUGUAGGGAUU24 5182 SCNN1A-1334 − GCGGAGGAGGAGGCCCUGA 19 5183 SCNN1A-189 −GGCGGAGGAGGAGGCCCUGA 20  819 SCNN1A-1335 − GGCCAGGGGCAGCCUCAC 18 5184SCNN1A-1336 − GCAGCCUCACUCGGGUUCC 19 5185 SCNN1A-348 −GGCAGCCUCACUCGGGUUCC 20 4197 SCNN1A-197 − GCAAUUCGGCCUGCUUUUCG 20  826SCNN1A-1337 − GGCAAUUCGGCCUGCUUUUCG 21 5186 SCNN1A-1338 −GCUCCUACCGAGAGCUCU 18 5187 SCNN1A-437 − GUAAGCAAGGGAACCUGGUU 20 4286SCNN1A-1339 − GGUAAGCAAGGGAACCUGGUU 21 5188

Table 44B provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the second tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon), have a high levelof orthogonality and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 44B 2nd Tier Target gRNA Name DNA Strand Targeting DomainSite Length Seq ID SCNN1A-1340 + AGGUUGAUGUUGAGGCUGA 19 5189SCNN1A-1341 + UGAGGUUGAUGUUGAGGCUGA 21 5190 SCNN1A-1342 +UUGAGGUUGAUGUUGAGGCUGA 22 5191 SCNN1A-1343 + AGUUGAGGUUGAUGUUGAGGCUGA 245192 SCNN1A-1344 + UCCCAUCACCCCUGGAAC 18 5193 SCNN1A-1345 +CUCCCAUCACCCCUGGAAC 19 5194 SCNN1A-1346 + UCUCCCAUCACCCCUGGAAC 20 5195SCNN1A-1347 + CUCUCCCAUCACCCCUGGAAC 21 5196 SCNN1A-1348 +CCUCUCCCAUCACCCCUGGAAC 22 5197 SCNN1A-1349 + CCCUCUCCCAUCACCCCUGGAAC 235198 SCNN1A-1350 + AAGGCUGAGCUCUGGGCC 18 5199 SCNN1A-1351 +CAAGGCUGAGCUCUGGGCC 19 5200 SCNN1A-1352 + UCAAGGCUGAGCUCUGGGCC 20 5201SCNN1A-1353 + AGGGUCAAGGCUGAGCUCUGGGCC 24 5202 SCNN1A-1354 +CGGAGUGGAUUGGGGAGAGC 20 5203 SCNN1A-1355 + CCGGAGUGGAUUGGGGAGAGC 21 5204SCNN1A-1356 + CCCGGAGUGGAUUGGGGAGAGC 22 5205 SCNN1A-1357 +CCCCGGAGUGGAUUGGGGAGAGC 23 5206 SCNN1A-1358 + CUGGAGUGGACUGUGGAGGGC 215207 SCNN1A-1359 + CCUGGAGUGGACUGUGGAGGGC 22 5208 SCNN1A-1360 +CCCUGGAGUGGACUGUGGAGGGC 23 5209 SCNN1A-1361 + UGGUAUGGGCUGCAGAGGUC 205210 SCNN1A-1362 + CUGGUAUGGGCUGCAGAGGUC 21 5211 SCNN1A-1363 +CCUGGUAUGGGCUGCAGAGGUC 22 5212 SCNN1A-1364 + ACCUGGUAUGGGCUGCAGAGGUC 235213 SCNN1A-1365 + UCCCCUUGGAAGGGACAG 18 5214 SCNN1A-1366 +CUCCCCUUGGAAGGGACAG 19 5215 SCNN1A-1367 + CCUCCCCUUGGAAGGGACAG 20 5216SCNN1A-1368 + ACCUCCCCUUGGAAGGGACAG 21 5217 SCNN1A-1369 +UACCUCCCCUUGGAAGGGACAG 22 5218 SCNN1A-1370 + AUACCUCCCCUUGGAAGGGACAG 235219 SCNN1A-1371 + UGUGCUGGGAGCACACCAG 19 5220 SCNN1A-224 +UUGUGCUGGGAGCACACCAG 20  847 SCNN1A-1372 + CGGUUGUGCUGGGAGCACACCAG 235221 SCNN1A-1373 + UACUCUCCGAAAAGCAGG 18 5222 SCNN1A-230 +AGUACUCUCCGAAAAGCAGG 20  851 SCNN1A-1374 + AAGUACUCUCCGAAAAGCAGG 21 5223SCNN1A-1375 + UGAAGUACUCUCCGAAAAGCAGG 23 5224 SCNN1A-1376 +CUGAAGUACUCUCCGAAAAGCAGG 24 5225 SCNN1A-1377 + AUUGGGGAGAGCAAGGGU 185226 SCNN1A-1378 + UGGAUUGGGGAGAGCAAGGGU 21 5227 SCNN1A-1379 +AGUGGAUUGGGGAGAGCAAGGGU 23 5228 SCNN1A-1380 + AGGGACUAACCGACCUGU 18 5229SCNN1A-424 + AGAGGGACUAACCGACCUGU 20 4273 SCNN1A-1381 +CAGAGGGACUAACCGACCUGU 21 5230 SCNN1A-1382 + CGGGGAAGACGAGCUUGU 18 5231SCNN1A-237 + UGCGGGGAAGACGAGCUUGU 20  857 SCNN1A-1383 +CUGCGGGGAAGACGAGCUUGU 21 5232 SCNN1A-1384 + ACUGCGGGGAAGACGAGCUUGU 225233 SCNN1A-1385 + CACUGCGGGGAAGACGAGCUUGU 23 5234 SCNN1A-1386 +UCACUGCGGGGAAGACGAGCUUGU 24 5235 SCNN1A-1387 + AACCGACCUGUAGGGAUU 185236 SCNN1A-1388 + UAACCGACCUGUAGGGAUU 19 5237 SCNN1A-1389 +CUAACCGACCUGUAGGGAUU 20 5238 SCNN1A-1390 + ACUAACCGACCUGUAGGGAUU 21 5239SCNN1A-1391 − CGGAGGAGGAGGCCCUGA 18 5240 SCNN1A-1392 −UGGCCAGGGGCAGCCUCAC 19 5241 SCNN1A-1393 − AUGGCCAGGGGCAGCCUCAC 20 5242SCNN1A-1394 − CAGCCUCACUCGGGUUCC 18 5243 SCNN1A-1395 −AAUUCGGCCUGCUUUUCG 18 5244 SCNN1A-1396 − CAAUUCGGCCUGCUUUUCG 19 5245SCNN1A-1397 − UGGCAAUUCGGCCUGCUUUUCG 22 5246 SCNN1A-1398 −CUGGCAAUUCGGCCUGCUUUUCG 23 5247 SCNN1A-1399 − ACUGGCAAUUCGGCCUGCUUUUCG24 5248 SCNN1A-1400 − CGCUCCUACCGAGAGCUCU 19 5249 SCNN1A-192 −CCGCUCCUACCGAGAGCUCU 20  822 SCNN1A-1401 − ACCGCUCCUACCGAGAGCUCU 21 5250SCNN1A-1402 − CACCGCUCCUACCGAGAGCUCU 22 5251 SCNN1A-1403 −CCACCGCUCCUACCGAGAGCUCU 23 5252 SCNN1A-1404 − UCCACCGCUCCUACCGAGAGCUCU24 5253 SCNN1A-1405 − AAGCAAGGGAACCUGGUU 18 5254 SCNN1A-1406 −UAAGCAAGGGAACCUGGUU 19 5255 SCNN1A-1407 − AGGUAAGCAAGGGAACCUGGUU 22 5256SCNN1A-1408 − AAGGUAAGCAAGGGAACCUGGUU 23 5257 SCNN1A-1409 −CAAGGUAAGCAAGGGAACCUGGUU 24 5258

Table 44C provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the third tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon), have a high levelof orthogonality and PAM is NNGRRT. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 44C  3rd Tier Target gRNA Name DNA Strand Targeting DomainSite Length Seq ID SCNN1A-1410 + CCCUUCAUGAGCCCCGGA 18 5259SCNN1A-1411 + CCCCUUCAUGAGCCCCGGA 19 5260 SCNN1A-1412 +UCCCCUUCAUGAGCCCCGGA 20 5261 SCNN1A-1413 + UUCCCCUUCAUGAGCCCCGGA 21 5262SCNN1A-1414 + GUUCCCCUUCAUGAGCCCCGGA 22 5263 SCNN1A-1415 +UGUUCCCCUUCAUGAGCCCCGGA 23 5264 SCNN1A-1416 + UUGUUCCCCUUCAUGAGCCCCGGA24 5265 SCNN1A-1417 + GUUCCCCUUCAUGAGCCC 18 5266 SCNN1A-1418 +UGUUCCCCUUCAUGAGCCC 19 5267 SCNN1A-72 + UUGUUCCCCUUCAUGAGCCC 20  599SCNN1A-1419 + CUUGUUCCCCUUCAUGAGCCC 21 5268 SCNN1A-1420 +GCUUGUUCCCCUUCAUGAGCCC 22 5269 SCNN1A-1421 + AGCUUGUUCCCCUUCAUGAGCCC 235270 SCNN1A-1422 + CAGCUUGUUCCCCUUCAUGAGCCC 24 5271 SCNN1A-1423 +CGCUUGUUCCCCUUCAUGAGCCC 23 5272 SCNN1A-1424 + ACGCUUGUUCCCCUUCAUGAGCCC24 5273 SCNN1A-1425 + CACCAGGCGGAUGGCGCC 18 5274 SCNN1A-1426 +ACACCAGGCGGAUGGCGCC 19 5275 SCNN1A-223 + CACACCAGGCGGAUGGCGCC 20  846SCNN1A-1427 + GCACACCAGGCGGAUGGCGCC 21 5276 SCNN1A-1428 +AGCACACCAGGCGGAUGGCGCC 22 5277 SCNN1A-1429 + GAGCACACCAGGCGGAUGGCGCC 235278 SCNN1A-1430 + GGAGCACACCAGGCGGAUGGCGCC 24 5279 SCNN1A-1431 +GAGUGGACUGUGGAGGGC 18 5280 SCNN1A-1432 + GGAGUGGACUGUGGAGGGC 19 5281SCNN1A-201 + UGGAGUGGACUGUGGAGGGC 20  830 SCNN1A-1433 −CGGCGGAGGAGGAGGCCCUGA 21 5282 SCNN1A-1434 − ACGGCGGAGGAGGAGGCCCUGA 225283 SCNN1A-1435 − CACGGCGGAGGAGGAGGCCCUGA 23 5284 SCNN1A-1436 −CCACGGCGGAGGAGGAGGCCCUGA 24 5285 SCNN1A-1437 − CAUGGCCAGGGGCAGCCUCAC 215286 SCNN1A-1438 − GCAUGGCCAGGGGCAGCCUCAC 22 5287 SCNN1A-1439 −GGCAUGGCCAGGGGCAGCCUCAC 23 5288 SCNN1A-1440 − GGGCAUGGCCAGGGGCAGCCUCAC24 5289 SCNN1A-1441 − GGGCAGCCUCACUCGGGUUCC 21 5290 SCNN1A-1442 −GGGGCAGCCUCACUCGGGUUCC 22 5291 SCNN1A-1443 − AGGGGCAGCCUCACUCGGGUUCC 235292 SCNN1A-1444 − CAGGGGCAGCCUCACUCGGGUUCC 24 5293

Table 44D provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the fourth tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon), have a high levelof orthogonality and PAM is NNGRRV. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. aureus Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 44D  4th Tier Target gRNA Name DNA Strand Targeting DomainSite Length Seq ID SCNN1A-1445 + AUCACCCCUGGAACCCGA 18 5294SCNN1A-1446 + CAUCACCCCUGGAACCCGA 19 5295 SCNN1A-1447 +CCAUCACCCCUGGAACCCGA 20 5296 SCNN1A-1448 + CCCAUCACCCCUGGAACCCGA 21 5297SCNN1A-1449 + UCCCAUCACCCCUGGAACCCGA 22 5298 SCNN1A-1450 +CUCCCAUCACCCCUGGAACCCGA 23 5299 SCNN1A-1451 + UCUCCCAUCACCCCUGGAACCCGA24 5300 SCNN1A-1452 + CUAACCGACCUGUAGGGA 18 5301 SCNN1A-1453 +ACUAACCGACCUGUAGGGA 19 5302 SCNN1A-1454 + GACUAACCGACCUGUAGGGA 20 5303SCNN1A-1455 + GGACUAACCGACCUGUAGGGA 21 5304 SCNN1A-1456 +GGGACUAACCGACCUGUAGGGA 22 5305 SCNN1A-1457 + AGGGACUAACCGACCUGUAGGGA 235306 SCNN1A-1458 + GAGGGACUAACCGACCUGUAGGGA 24 5307 SCNN1A-1459 +CCCUUCAUGAGCCCUGGA 18 5308 SCNN1A-1460 + CCCCUUCAUGAGCCCUGGA 19 5309SCNN1A-205 + UCCCCUUCAUGAGCCCUGGA 20  833 SCNN1A-1461 +UUCCCCUUCAUGAGCCCUGGA 21 5310 SCNN1A-1462 + GUUCCCCUUCAUGAGCCCUGGA 225311 SCNN1A-1463 + UGUUCCCCUUCAUGAGCCCUGGA 23 5312 SCNN1A-1464 +UUGUUCCCCUUCAUGAGCCCUGGA 24 5313 SCNN1A-1465 + CAUGAGCCCCGGAGUGGA 185314 SCNN1A-1466 + UCAUGAGCCCCGGAGUGGA 19 5315 SCNN1A-1467 +UUCAUGAGCCCCGGAGUGGA 20 5316 SCNN1A-1468 + CUUCAUGAGCCCCGGAGUGGA 21 5317SCNN1A-1469 + CCUUCAUGAGCCCCGGAGUGGA 22 5318 SCNN1A-1470 +CCCUUCAUGAGCCCCGGAGUGGA 23 5319 SCNN1A-1471 + CCCCUUCAUGAGCCCCGGAGUGGA24 5320 SCNN1A-1472 + AUGAUACCUCCCCUUGGA 18 5321 SCNN1A-1473 +CAUGAUACCUCCCCUUGGA 19 5322 SCNN1A-399 + UCAUGAUACCUCCCCUUGGA 20 4248SCNN1A-1474 + CUCAUGAUACCUCCCCUUGGA 21 5323 SCNN1A-1475 +GCUCAUGAUACCUCCCCUUGGA 22 5324 SCNN1A-1476 + UGCUCAUGAUACCUCCCCUUGGA 235325 SCNN1A-1477 + CUGCUCAUGAUACCUCCCCUUGGA 24 5326 SCNN1A-1478 +GUGUUGUUGCAGAAGAAC 18 5327 SCNN1A-1479 + GGUGUUGUUGCAGAAGAAC 19 5328SCNN1A-220 + UGGUGUUGUUGCAGAAGAAC 20  843 SCNN1A-1480 +GUGGUGUUGUUGCAGAAGAAC 21 5329 SCNN1A-1481 + GGUGGUGUUGUUGCAGAAGAAC 225330 SCNN1A-1482 + UGGUGGUGUUGUUGCAGAAGAAC 23 5331 SCNN1A-1483 +AUGGUGGUGUUGUUGCAGAAGAAC 24 5332 SCNN1A-1484 + UGCCCUCUCCCAUCACCC 185333 SCNN1A-1485 + GUGCCCUCUCCCAUCACCC 19 5334 SCNN1A-1486 +AGUGCCCUCUCCCAUCACCC 20 5335 SCNN1A-1487 + GAGUGCCCUCUCCCAUCACCC 21 5336SCNN1A-1488 + UGAGUGCCCUCUCCCAUCACCC 22 5337 SCNN1A-1489 +CUGAGUGCCCUCUCCCAUCACCC 23 5338 SCNN1A-1490 + CCUGAGUGCCCUCUCCCAUCACCC24 5339 SCNN1A-1491 + GCCCUCUCCCAUCACCCC 18 5340 SCNN1A-1492 +UGCCCUCUCCCAUCACCCC 19 5341 SCNN1A-346 + GUGCCCUCUCCCAUCACCCC 20 4195SCNN1A-1493 + AGUGCCCUCUCCCAUCACCCC 21 5342 SCNN1A-1494 +GAGUGCCCUCUCCCAUCACCCC 22 5343 SCNN1A-1495 + UGAGUGCCCUCUCCCAUCACCCC 235344 SCNN1A-1496 + CUGAGUGCCCUCUCCCAUCACCCC 24 5345 SCNN1A-1497 +UGCUCAUGAUACCUCCCC 18 5346 SCNN1A-1498 + CUGCUCAUGAUACCUCCCC 19 5347SCNN1A-1499 + ACUGCUCAUGAUACCUCCCC 20 5348 SCNN1A-1500 +UACUGCUCAUGAUACCUCCCC 21 5349 SCNN1A-1501 + AUACUGCUCAUGAUACCUCCCC 225350 SCNN1A-1502 + GAUACUGCUCAUGAUACCUCCCC 23 5351 SCNN1A-1503 +UGAUACUGCUCAUGAUACCUCCCC 24 5352 SCNN1A-1504 + UGUUCCCCUUCAUGAGCC 185353 SCNN1A-1505 + UUGUUCCCCUUCAUGAGCC 19 5354 SCNN1A-207 +CUUGUUCCCCUUCAUGAGCC 20  834 SCNN1A-1506 + GCUUGUUCCCCUUCAUGAGCC 21 5355SCNN1A-1507 + AGCUUGUUCCCCUUCAUGAGCC 22 5356 SCNN1A-1508 +CAGCUUGUUCCCCUUCAUGAGCC 23 5357 SCNN1A-1509 + CCAGCUUGUUCCCCUUCAUGAGCC24 5358 SCNN1A-1510 + CGCUUGUUCCCCUUCAUGAGCC 22 5359 SCNN1A-1511 +ACGCUUGUUCCCCUUCAUGAGCC 23 5360 SCNN1A-1512 + CACGCUUGUUCCCCUUCAUGAGCC24 5361 SCNN1A-1513 + AGGGCCUCCUCCUCCGCC 18 5362 SCNN1A-1514 +CAGGGCCUCCUCCUCCGCC 19 5363 SCNN1A-213 + UCAGGGCCUCCUCCUCCGCC 20  838SCNN1A-1515 + AUCAGGGCCUCCUCCUCCGCC 21 5364 SCNN1A-1516 +GAUCAGGGCCUCCUCCUCCGCC 22 5365 SCNN1A-1517 + CGAUCAGGGCCUCCUCCUCCGCC 235366 SCNN1A-1518 + UCGAUCAGGGCCUCCUCCUCCGCC 24 5367 SCNN1A-1519 +CAGAGCCACAGCACUGCC 18 5368 SCNN1A-1520 + GCAGAGCCACAGCACUGCC 19 5369SCNN1A-228 + UGCAGAGCCACAGCACUGCC 20  849 SCNN1A-1521 +GUGCAGAGCCACAGCACUGCC 21 5370 SCNN1A-1522 + GGUGCAGAGCCACAGCACUGCC 225371 SCNN1A-1523 + AGGUGCAGAGCCACAGCACUGCC 23 5372 SCNN1A-1524 +AAGGUGCAGAGCCACAGCACUGCC 24 5373 SCNN1A-1525 + UCCAGCUUGUUCCCCUCC 185374 SCNN1A-1526 + CUCCAGCUUGUUCCCCUCC 19 5375 SCNN1A-200 +CCUCCAGCUUGUUCCCCUCC 20  829 SCNN1A-1527 + UCCUCCAGCUUGUUCCCCUCC 21 5376SCNN1A-1528 + CUCCUCCAGCUUGUUCCCCUCC 22 5377 SCNN1A-1529 +GCUCCUCCAGCUUGUUCCCCUCC 23 5378 SCNN1A-1530 + UGCUCCUCCAGCUUGUUCCCCUCC24 5379 SCNN1A-1531 + GGUGCAGAUGGUCACUGC 18 5380 SCNN1A-1532 +GGGUGCAGAUGGUCACUGC 19 5381 SCNN1A-38 + AGGGUGCAGAUGGUCACUGC 20  575SCNN1A-1533 + GAGGGUGCAGAUGGUCACUGC 21 5382 SCNN1A-1534 +UGAGGGUGCAGAUGGUCACUGC 22 5383 SCNN1A-1535 + UUGAGGGUGCAGAUGGUCACUGC 235384 SCNN1A-1536 + AUUGAGGGUGCAGAUGGUCACUGC 24 5385 SCNN1A-1537 +UCCUCCGCCGUGGGCUGC 18 5386 SCNN1A-1538 + CUCCUCCGCCGUGGGCUGC 19 5387SCNN1A-65 + CCUCCUCCGCCGUGGGCUGC 20  594 SCNN1A-1539 +UCCUCCUCCGCCGUGGGCUGC 21 5388 SCNN1A-1540 + CUCCUCCUCCGCCGUGGGCUGC 225389 SCNN1A-1541 + CCUCCUCCUCCGCCGUGGGCUGC 23 5390 SCNN1A-1542 +GCCUCCUCCUCCGCCGUGGGCUGC 24 5391 SCNN1A-1543 + GUCUUCAUGCGGUUGUGC 185392 SCNN1A-1544 + CGUCUUCAUGCGGUUGUGC 19 5393 SCNN1A-49 +CCGUCUUCAUGCGGUUGUGC 20  582 SCNN1A-1545 + GCCGUCUUCAUGCGGUUGUGC 21 5394SCNN1A-1546 + GGCCGUCUUCAUGCGGUUGUGC 22 5395 SCNN1A-1547 +AGGCCGUCUUCAUGCGGUUGUGC 23 5396 SCNN1A-1548 + AAGGCCGUCUUCAUGCGGUUGUGC24 5397 SCNN1A-1549 + UCCAGCUUGUUCCCCUUC 18 5398 SCNN1A-1550 +CUCCAGCUUGUUCCCCUUC 19 5399 SCNN1A-1551 + CCUCCAGCUUGUUCCCCUUC 20 5400SCNN1A-1552 + UCCUCCAGCUUGUUCCCCUUC 21 5401 SCNN1A-1553 +CUCCUCCAGCUUGUUCCCCUUC 22 5402 SCNN1A-1554 + GCUCCUCCAGCUUGUUCCCCUUC 235403 SCNN1A-1555 + UGCUCCUCCAGCUUGUUCCCCUUC 24 5404 SCNN1A-1556 +UCACGCUUGUUCCCCUUC 18 5405 SCNN1A-1557 + CUCACGCUUGUUCCCCUUC 19 5406SCNN1A-208 + CCUCACGCUUGUUCCCCUUC 20  835 SCNN1A-1558 +UCCUCACGCUUGUUCCCCUUC 21 5407 SCNN1A-1559 + CUCCUCACGCUUGUUCCCCUUC 225408 SCNN1A-1560 + GCUCCUCACGCUUGUUCCCCUUC 23 5409 SCNN1A-1561 +UGCUCCUCACGCUUGUUCCCCUUC 24 5410 SCNN1A-1562 + AUGGUCACUGCGGGGAAG 185411 SCNN1A-1563 + GAUGGUCACUGCGGGGAAG 19 5412 SCNN1A-238 +AGAUGGUCACUGCGGGGAAG 20  858 SCNN1A-1564 + CAGAUGGUCACUGCGGGGAAG 21 5413SCNN1A-1565 + GCAGAUGGUCACUGCGGGGAAG 22 5414 SCNN1A-1566 +UGCAGAUGGUCACUGCGGGGAAG 23 5415 SCNN1A-1567 + GUGCAGAUGGUCACUGCGGGGAAG24 5416 SCNN1A-1568 + AUGGUGGUGUUGUUGCAG 18 5417 SCNN1A-1569 +GAUGGUGGUGUUGUUGCAG 19 5418 SCNN1A-221 + GGAUGGUGGUGUUGUUGCAG 20  844SCNN1A-1570 + UGGAUGGUGGUGUUGUUGCAG 21 5419 SCNN1A-1571 +GUGGAUGGUGGUGUUGUUGCAG 22 5420 SCNN1A-1572 + CGUGGAUGGUGGUGUUGUUGCAG 235421 SCNN1A-1573 + CCGUGGAUGGUGGUGUUGUUGCAG 24 5422 SCNN1A-1574 +AAGACGAGCUUGUCCGAG 18 5423 SCNN1A-1575 + GAAGACGAGCUUGUCCGAG 19 5424SCNN1A-236 + GGAAGACGAGCUUGUCCGAG 20  856 SCNN1A-1576 +GGGAAGACGAGCUUGUCCGAG 21 5425 SCNN1A-1577 + GGGGAAGACGAGCUUGUCCGAG 225426 SCNN1A-1578 + CGGGGAAGACGAGCUUGUCCGAG 23 5427 SCNN1A-1579 +GCGGGGAAGACGAGCUUGUCCGAG 24 5428 SCNN1A-1580 + UUGAGGCUGACGGGGUAG 185429 SCNN1A-1581 + GUUGAGGCUGACGGGGUAG 19 5430 SCNN1A-232 +UGUUGAGGCUGACGGGGUAG 20  853 SCNN1A-1582 + AUGUUGAGGCUGACGGGGUAG 21 5431SCNN1A-1583 + GAUGUUGAGGCUGACGGGGUAG 22 5432 SCNN1A-1584 +UGAUGUUGAGGCUGACGGGGUAG 23 5433 SCNN1A-1585 + UUGAUGUUGAGGCUGACGGGGUAG24 5434 SCNN1A-1586 + GAGCUCUCGGUAGGAGCG 18 5435 SCNN1A-1587 +AGAGCUCUCGGUAGGAGCG 19 5436 SCNN1A-216 + AAGAGCUCUCGGUAGGAGCG 20  840SCNN1A-1588 + GAAGAGCUCUCGGUAGGAGCG 21 5437 SCNN1A-1589 +CGAAGAGCUCUCGGUAGGAGCG 22 5438 SCNN1A-1590 + UCGAAGAGCUCUCGGUAGGAGCG 235439 SCNN1A-1591 + CUCGAAGAGCUCUCGGUAGGAGCG 24 5440 SCNN1A-1592 +GUGCAGAUGGUCACUGCG 18 5441 SCNN1A-1593 + GGUGCAGAUGGUCACUGCG 19 5442SCNN1A-39 + GGGUGCAGAUGGUCACUGCG 20  518 SCNN1A-1594 +AGGGUGCAGAUGGUCACUGCG 21 5443 SCNN1A-1595 + GAGGGUGCAGAUGGUCACUGCG 225444 SCNN1A-1596 + UGAGGGUGCAGAUGGUCACUGCG 23 5445 SCNN1A-1597 +UUGAGGGUGCAGAUGGUCACUGCG 24 5446 SCNN1A-1598 + UUGUUGCAGAAGAACUCG 185447 SCNN1A-1599 + GUUGUUGCAGAAGAACUCG 19 5448 SCNN1A-219 +UGUUGUUGCAGAAGAACUCG 20  842 SCNN1A-1600 + GUGUUGUUGCAGAAGAACUCG 21 5449SCNN1A-1601 + GGUGUUGUUGCAGAAGAACUCG 22 5450 SCNN1A-1602 +UGGUGUUGUUGCAGAAGAACUCG 23 5451 SCNN1A-1603 + GUGGUGUUGUUGCAGAAGAACUCG24 5452 SCNN1A-1604 + CAAGGGUCAGGGUCAAGG 18 5453 SCNN1A-1605 +GCAAGGGUCAGGGUCAAGG 19 5454 SCNN1A-1606 + AGCAAGGGUCAGGGUCAAGG 20 5455SCNN1A-1607 + GAGCAAGGGUCAGGGUCAAGG 21 5456 SCNN1A-1608 +AGAGCAAGGGUCAGGGUCAAGG 22 5457 SCNN1A-1609 + GAGAGCAAGGGUCAGGGUCAAGG 235458 SCNN1A-1610 + GGAGAGCAAGGGUCAGGGUCAAGG 24 5459 SCNN1A-1611 +AGCUCUCGGUAGGAGCGG 18 5460 SCNN1A-1612 + GAGCUCUCGGUAGGAGCGG 19 5461SCNN1A-60 + AGAGCUCUCGGUAGGAGCGG 20  590 SCNN1A-1613 +AAGAGCUCUCGGUAGGAGCGG 21 5462 SCNN1A-1614 + GAAGAGCUCUCGGUAGGAGCGG 225463 SCNN1A-1615 + CGAAGAGCUCUCGGUAGGAGCGG 23 5464 SCNN1A-1616 +UCGAAGAGCUCUCGGUAGGAGCGG 24 5465 SCNN1A-1617 + AACUCGAAGAGCUCUCGG 185466 SCNN1A-1618 + GAACUCGAAGAGCUCUCGG 19 5467 SCNN1A-218 +AGAACUCGAAGAGCUCUCGG 20  841 SCNN1A-1619 + AAGAACUCGAAGAGCUCUCGG 21 5468SCNN1A-1620 + GAAGAACUCGAAGAGCUCUCGG 22 5469 SCNN1A-1621 +AGAAGAACUCGAAGAGCUCUCGG 23 5470 SCNN1A-1622 + CAGAAGAACUCGAAGAGCUCUCGG24 5471 SCNN1A-1623 + GCCCCGGAGUGGAUUGGG 18 5472 SCNN1A-1624 +AGCCCCGGAGUGGAUUGGG 19 5473 SCNN1A-1625 + GAGCCCCGGAGUGGAUUGGG 20 5474SCNN1A-1626 + UGAGCCCCGGAGUGGAUUGGG 21 5475 SCNN1A-1627 +AUGAGCCCCGGAGUGGAUUGGG 22 5476 SCNN1A-1628 + CAUGAGCCCCGGAGUGGAUUGGG 235477 SCNN1A-1629 + UCAUGAGCCCCGGAGUGGAUUGGG 24 5478 SCNN1A-1630 +CAUGAUACCUCCCCUUGG 18 5479 SCNN1A-1631 + UCAUGAUACCUCCCCUUGG 19 5480SCNN1A-1632 + CUCAUGAUACCUCCCCUUGG 20 5481 SCNN1A-1633 +GCUCAUGAUACCUCCCCUUGG 21 5482 SCNN1A-1634 + UGCUCAUGAUACCUCCCCUUGG 225483 SCNN1A-1635 + CUGCUCAUGAUACCUCCCCUUGG 23 5484 SCNN1A-1636 +ACUGCUCAUGAUACCUCCCCUUGG 24 5485 SCNN1A-1637 + UCCGAGUUGAGGUUGAUG 185486 SCNN1A-1638 + GUCCGAGUUGAGGUUGAUG 19 5487 SCNN1A-235 +UGUCCGAGUUGAGGUUGAUG 20  855 SCNN1A-1639 + UUGUCCGAGUUGAGGUUGAUG 21 5488SCNN1A-1640 + CUUGUCCGAGUUGAGGUUGAUG 22 5489 SCNN1A-1641 +GCUUGUCCGAGUUGAGGUUGAUG 23 5490 SCNN1A-1642 + AGCUUGUCCGAGUUGAGGUUGAUG24 5491 SCNN1A-1643 + GGGUGCAGAUGGUCACUG 18 5492 SCNN1A-1644 +AGGGUGCAGAUGGUCACUG 19 5493 SCNN1A-37 + GAGGGUGCAGAUGGUCACUG 20  517SCNN1A-1645 + UGAGGGUGCAGAUGGUCACUG 21 5494 SCNN1A-1646 +UUGAGGGUGCAGAUGGUCACUG 22 5495 SCNN1A-1647 + AUUGAGGGUGCAGAUGGUCACUG 235496 SCNN1A-1648 + GAUUGAGGGUGCAGAUGGUCACUG 24 5497 SCNN1A-1649 +GAGCCCUGGAGUGGACUG 18 5498 SCNN1A-1650 + UGAGCCCUGGAGUGGACUG 19 5499SCNN1A-74 + AUGAGCCCUGGAGUGGACUG 20  601 SCNN1A-1651 +CAUGAGCCCUGGAGUGGACUG 21 5500 SCNN1A-1652 + UCAUGAGCCCUGGAGUGGACUG 225501 SCNN1A-1653 + UUCAUGAGCCCUGGAGUGGACUG 23 5502 SCNN1A-1654 +CUUCAUGAGCCCUGGAGUGGACUG 24 5503 SCNN1A-1655 + GAGGGACUAACCGACCUG 185504 SCNN1A-1656 + AGAGGGACUAACCGACCUG 19 5505 SCNN1A-1657 +CAGAGGGACUAACCGACCUG 20 5506 SCNN1A-1658 + GCAGAGGGACUAACCGACCUG 21 5507SCNN1A-1659 + GGCAGAGGGACUAACCGACCUG 22 5508 SCNN1A-1660 +GGGCAGAGGGACUAACCGACCUG 23 5509 SCNN1A-1661 + GGGGCAGAGGGACUAACCGACCUG24 5510 SCNN1A-1662 + AGGUUGAUGUUGAGGCUG 18 5511 SCNN1A-1663 +GAGGUUGAUGUUGAGGCUG 19 5512 SCNN1A-234 + UGAGGUUGAUGUUGAGGCUG 20  854SCNN1A-1664 + UUGAGGUUGAUGUUGAGGCUG 21 5513 SCNN1A-1665 +GUUGAGGUUGAUGUUGAGGCUG 22 5514 SCNN1A-1666 + AGUUGAGGUUGAUGUUGAGGCUG 235515 SCNN1A-1667 + GAGUUGAGGUUGAUGUUGAGGCUG 24 5516 SCNN1A-1668 +GAGACCUGGUAUGGGCUG 18 5517 SCNN1A-1669 + UGAGACCUGGUAUGGGCUG 19 5518SCNN1A-1670 + AUGAGACCUGGUAUGGGCUG 20 5519 SCNN1A-1671 +CAUGAGACCUGGUAUGGGCUG 21 5520 SCNN1A-1672 + CCAUGAGACCUGGUAUGGGCUG 225521 SCNN1A-1673 + UCCAUGAGACCUGGUAUGGGCUG 23 5522 SCNN1A-1674 +CUCCAUGAGACCUGGUAUGGGCUG 24 5523 SCNN1A-1675 + CUCCUCCGCCGUGGGCUG 185524 SCNN1A-1676 + CCUCCUCCGCCGUGGGCUG 19 5525 SCNN1A-212 +UCCUCCUCCGCCGUGGGCUG 20  837 SCNN1A-1677 + CUCCUCCUCCGCCGUGGGCUG 21 5526SCNN1A-1678 + CCUCCUCCUCCGCCGUGGGCUG 22 5527 SCNN1A-1679 +GCCUCCUCCUCCGCCGUGGGCUG 23 5528 SCNN1A-1680 + GGCCUCCUCCUCCGCCGUGGGCUG24 5529 SCNN1A-1681 + UACAUCAUGCCAAAGGUG 18 5530 SCNN1A-1682 +GUACAUCAUGCCAAAGGUG 19 5531 SCNN1A-229 + AGUACAUCAUGCCAAAGGUG 20  850SCNN1A-1683 + CAGUACAUCAUGCCAAAGGUG 21 5532 SCNN1A-1684 +CCAGUACAUCAUGCCAAAGGUG 22 5533 SCNN1A-1685 + GCCAGUACAUCAUGCCAAAGGUG 235534 SCNN1A-1686 + UGCCAGUACAUCAUGCCAAAGGUG 24 5535 SCNN1A-1687 +GCCCUGGAGUGGACUGUG 18 5536 SCNN1A-1688 + AGCCCUGGAGUGGACUGUG 19 5537SCNN1A-202 + GAGCCCUGGAGUGGACUGUG 20  831 SCNN1A-1689 +UGAGCCCUGGAGUGGACUGUG 21 5538 SCNN1A-1690 + AUGAGCCCUGGAGUGGACUGUG 225539 SCNN1A-1691 + CAUGAGCCCUGGAGUGGACUGUG 23 5540 SCNN1A-1692 +UCAUGAGCCCUGGAGUGGACUGUG 24 5541 SCNN1A-1693 + CGUCUUCAUGCGGUUGUG 185542 SCNN1A-1694 + CCGUCUUCAUGCGGUUGUG 19 5543 SCNN1A-227 +GCCGUCUUCAUGCGGUUGUG 20  848 SCNN1A-1695 + GGCCGUCUUCAUGCGGUUGUG 21 5544SCNN1A-1696 + AGGCCGUCUUCAUGCGGUUGUG 22 5545 SCNN1A-1697 +AAGGCCGUCUUCAUGCGGUUGUG 23 5546 SCNN1A-1698 + GAAGGCCGUCUUCAUGCGGUUGUG24 5547 SCNN1A-1699 + GAGCCCCGGAGUGGAUUG 18 5548 SCNN1A-1700 +UGAGCCCCGGAGUGGAUUG 19 5549 SCNN1A-419 + AUGAGCCCCGGAGUGGAUUG 20 4268SCNN1A-1701 + CAUGAGCCCCGGAGUGGAUUG 21 5550 SCNN1A-1702 +UCAUGAGCCCCGGAGUGGAUUG 22 5551 SCNN1A-1703 + UUCAUGAGCCCCGGAGUGGAUUG 235552 SCNN1A-1704 + CUUCAUGAGCCCCGGAGUGGAUUG 24 5553 SCNN1A-1705 +UGGAUGGUGGUGUUGUUG 18 5554 SCNN1A-1706 + GUGGAUGGUGGUGUUGUUG 19 5555SCNN1A-222 + CGUGGAUGGUGGUGUUGUUG 20  845 SCNN1A-1707 +CCGUGGAUGGUGGUGUUGUUG 21 5556 SCNN1A-1708 + GCCGUGGAUGGUGGUGUUGUUG 225557 SCNN1A-1709 + CGCCGUGGAUGGUGGUGUUGUUG 23 5558 SCNN1A-1710 +GCGCCGUGGAUGGUGGUGUUGUUG 24 5559 SCNN1A-1711 + GGAGCGGUGGAACUCGAU 185560 SCNN1A-1712 + AGGAGCGGUGGAACUCGAU 19 5561 SCNN1A-214 +UAGGAGCGGUGGAACUCGAU 20  839 SCNN1A-1713 + GUAGGAGCGGUGGAACUCGAU 21 5562SCNN1A-1714 + GGUAGGAGCGGUGGAACUCGAU 22 5563 SCNN1A-1715 +CGGUAGGAGCGGUGGAACUCGAU 23 5564 SCNN1A-1716 + UCGGUAGGAGCGGUGGAACUCGAU24 5565 SCNN1A-1717 + AUGAGCCCCGGAGUGGAU 18 5566 SCNN1A-1718 +CAUGAGCCCCGGAGUGGAU 19 5567 SCNN1A-420 + UCAUGAGCCCCGGAGUGGAU 20 4269SCNN1A-1719 + UUCAUGAGCCCCGGAGUGGAU 21 5568 SCNN1A-1720 +CUUCAUGAGCCCCGGAGUGGAU 22 5569 SCNN1A-1721 + CCUUCAUGAGCCCCGGAGUGGAU 235570 SCNN1A-1722 + CCCUUCAUGAGCCCCGGAGUGGAU 24 5571 SCNN1A-1723 +AGGGUGCAGAUGGUCACU 18 5572 SCNN1A-1724 + GAGGGUGCAGAUGGUCACU 19 5573SCNN1A-242 + UGAGGGUGCAGAUGGUCACU 20  859 SCNN1A-1725 +UUGAGGGUGCAGAUGGUCACU 21 5574 SCNN1A-1726 + AUUGAGGGUGCAGAUGGUCACU 225575 SCNN1A-1727 + GAUUGAGGGUGCAGAUGGUCACU 23 5576 SCNN1A-1728 +GGAUUGAGGGUGCAGAUGGUCACU 24 5577 SCNN1A-1729 + UGAGCCCUGGAGUGGACU 185578 SCNN1A-1730 + AUGAGCCCUGGAGUGGACU 19 5579 SCNN1A-204 +CAUGAGCCCUGGAGUGGACU 20  832 SCNN1A-1731 + UCAUGAGCCCUGGAGUGGACU 21 5580SCNN1A-1732 + UUCAUGAGCCCUGGAGUGGACU 22 5581 SCNN1A-1733 +CUUCAUGAGCCCUGGAGUGGACU 23 5582 SCNN1A-1734 + CCUUCAUGAGCCCUGGAGUGGACU24 5583 SCNN1A-1735 + GCUCAUGAUACCUCCCCU 18 5584 SCNN1A-1736 +UGCUCAUGAUACCUCCCCU 19 5585 SCNN1A-457 + CUGCUCAUGAUACCUCCCCU 20 4306SCNN1A-1737 + ACUGCUCAUGAUACCUCCCCU 21 5586 SCNN1A-1738 +UACUGCUCAUGAUACCUCCCCU 22 5587 SCNN1A-1739 + AUACUGCUCAUGAUACCUCCCCU 235588 SCNN1A-1740 + GAUACUGCUCAUGAUACCUCCCCU 24 5589 SCNN1A-1741 +CAGGGUCAAGGCUGAGCU 18 5590 SCNN1A-1742 + UCAGGGUCAAGGCUGAGCU 19 5591SCNN1A-1743 + GUCAGGGUCAAGGCUGAGCU 20 5592 SCNN1A-1744 +GGUCAGGGUCAAGGCUGAGCU 21 5593 SCNN1A-1745 + GGGUCAGGGUCAAGGCUGAGCU 225594 SCNN1A-1746 + AGGGUCAGGGUCAAGGCUGAGCU 23 5595 SCNN1A-1747 +AAGGGUCAGGGUCAAGGCUGAGCU 24 5596 SCNN1A-1748 + UCUUCAUGCGGUUGUGCU 185597 SCNN1A-1749 + GUCUUCAUGCGGUUGUGCU 19 5598 SCNN1A-50 +CGUCUUCAUGCGGUUGUGCU 20  583 SCNN1A-1750 + CCGUCUUCAUGCGGUUGUGCU 21 5599SCNN1A-1751 + GCCGUCUUCAUGCGGUUGUGCU 22 5600 SCNN1A-1752 +GGCCGUCUUCAUGCGGUUGUGCU 23 5601 SCNN1A-1753 + AGGCCGUCUUCAUGCGGUUGUGCU24 5602 SCNN1A-1754 + GGGUAGCUGAAGUACUCU 18 5603 SCNN1A-1755 +GGGGUAGCUGAAGUACUCU 19 5604 SCNN1A-231 + CGGGGUAGCUGAAGUACUCU 20  852SCNN1A-1756 + ACGGGGUAGCUGAAGUACUCU 21 5605 SCNN1A-1757 +GACGGGGUAGCUGAAGUACUCU 22 5606 SCNN1A-1758 + UGACGGGGUAGCUGAAGUACUCU 235607 SCNN1A-1759 + CUGACGGGGUAGCUGAAGUACUCU 24 5608 SCNN1A-1760 +UGCUGGGGCGCCGCAGGU 18 5609 SCNN1A-1761 + CUGCUGGGGCGCCGCAGGU 19 5610SCNN1A-210 + GCUGCUGGGGCGCCGCAGGU 20  836 SCNN1A-1762 +GGCUGCUGGGGCGCCGCAGGU 21 5611 SCNN1A-1763 + GGGCUGCUGGGGCGCCGCAGGU 225612 SCNN1A-1764 + UGGGCUGCUGGGGCGCCGCAGGU 23 5613 SCNN1A-1765 +GUGGGCUGCUGGGGCGCCGCAGGU 24 5614 SCNN1A-1766 + ACUCGAAGAGCUCUCGGU 185615 SCNN1A-1767 + AACUCGAAGAGCUCUCGGU 19 5616 SCNN1A-58 +GAACUCGAAGAGCUCUCGGU 20  524 SCNN1A-1768 + AGAACUCGAAGAGCUCUCGGU 21 5617SCNN1A-1769 + AAGAACUCGAAGAGCUCUCGGU 22 5618 SCNN1A-1770 +GAAGAACUCGAAGAGCUCUCGGU 23 5619 SCNN1A-1771 + AGAAGAACUCGAAGAGCUCUCGGU24 5620 SCNN1A-1772 + CCCUCCAUGAGACCUGGU 18 5621 SCNN1A-1773 +CCCCUCCAUGAGACCUGGU 19 5622 SCNN1A-199 + UCCCCUCCAUGAGACCUGGU 20  828SCNN1A-1774 + UUCCCCUCCAUGAGACCUGGU 21 5623 SCNN1A-1775 +GUUCCCCUCCAUGAGACCUGGU 22 5624 SCNN1A-1776 + UGUUCCCCUCCAUGAGACCUGGU 235625 SCNN1A-1777 + UUGUUCCCCUCCAUGAGACCUGGU 24 5626 SCNN1A-1778 +UGAGCCCCGGAGUGGAUU 18 5627 SCNN1A-1779 + AUGAGCCCCGGAGUGGAUU 19 5628SCNN1A-425 + CAUGAGCCCCGGAGUGGAUU 20 4274 SCNN1A-1780 +UCAUGAGCCCCGGAGUGGAUU 21 5629 SCNN1A-1781 + UUCAUGAGCCCCGGAGUGGAUU 225630 SCNN1A-1782 + CUUCAUGAGCCCCGGAGUGGAUU 23 5631 SCNN1A-1783 +CCUUCAUGAGCCCCGGAGUGGAUU 24 5632 SCNN1A-1784 + GCUGGGGCGCCGCAGGUU 185633 SCNN1A-1785 + UGCUGGGGCGCCGCAGGUU 19 5634 SCNN1A-69 +CUGCUGGGGCGCCGCAGGUU 20  597 SCNN1A-1786 + GCUGCUGGGGCGCCGCAGGUU 21 5635SCNN1A-1787 + GGCUGCUGGGGCGCCGCAGGUU 22 5636 SCNN1A-1788 +GGGCUGCUGGGGCGCCGCAGGUU 23 5637 SCNN1A-1789 + UGGGCUGCUGGGGCGCCGCAGGUU24 5638 SCNN1A-1790 − CAGUAUCAAGGUAAGCAA 18 5639 SCNN1A-1791 −GCAGUAUCAAGGUAAGCAA 19 5640 SCNN1A-393 − AGCAGUAUCAAGGUAAGCAA 20 4242SCNN1A-1792 − GAGCAGUAUCAAGGUAAGCAA 21 5641 SCNN1A-1793 −UGAGCAGUAUCAAGGUAAGCAA 22 5642 SCNN1A-1794 − AUGAGCAGUAUCAAGGUAAGCAA 235643 SCNN1A-1795 − CAUGAGCAGUAUCAAGGUAAGCAA 24 5644 SCNN1A-1796 −CACUCCAGGGCUCAUGAA 18 5645 SCNN1A-1797 − CCACUCCAGGGCUCAUGAA 19 5646SCNN1A-11 − UCCACUCCAGGGCUCAUGAA 20  560 SCNN1A-1798 −GUCCACUCCAGGGCUCAUGAA 21 5647 SCNN1A-1799 − AGUCCACUCCAGGGCUCAUGAA 225648 SCNN1A-1800 − CAGUCCACUCCAGGGCUCAUGAA 23 5649 SCNN1A-1801 −ACAGUCCACUCCAGGGCUCAUGAA 24 5650 SCNN1A-1802 − CACUCCGGGGCUCAUGAA 185651 SCNN1A-1803 − CCACUCCGGGGCUCAUGAA 19 5652 SCNN1A-451 −UCCACUCCGGGGCUCAUGAA 20 4300 SCNN1A-1804 − AUCCACUCCGGGGCUCAUGAA 21 5653SCNN1A-1805 − AAUCCACUCCGGGGCUCAUGAA 22 5654 SCNN1A-1806 −CAAUCCACUCCGGGGCUCAUGAA 23 5655 SCNN1A-1807 − CCAAUCCACUCCGGGGCUCAUGAA24 5656 SCNN1A-1808 − GCAGUAUCAAGGUAAGCA 18 5657 SCNN1A-1809 −AGCAGUAUCAAGGUAAGCA 19 5658 SCNN1A-342 − GAGCAGUAUCAAGGUAAGCA 20 4191SCNN1A-1810 − UGAGCAGUAUCAAGGUAAGCA 21 5659 SCNN1A-1811 −AUGAGCAGUAUCAAGGUAAGCA 22 5660 SCNN1A-1812 − CAUGAGCAGUAUCAAGGUAAGCA 235661 SCNN1A-1813 − UCAUGAGCAGUAUCAAGGUAAGCA 24 5662 SCNN1A-1814 −AGCCCAUACCAGGUCUCA 18 5663 SCNN1A-1815 − CAGCCCAUACCAGGUCUCA 19 5664SCNN1A-1 − GCAGCCCAUACCAGGUCUCA 20  503 SCNN1A-1816 −UGCAGCCCAUACCAGGUCUCA 21 5665 SCNN1A-1817 − CUGCAGCCCAUACCAGGUCUCA 225666 SCNN1A-1818 − UCUGCAGCCCAUACCAGGUCUCA 23 5667 SCNN1A-1819 −CUCUGCAGCCCAUACCAGGUCUCA 24 5668 SCNN1A-1820 − GUUCCAGGGGUGAUGGGA 185669 SCNN1A-1821 − GGUUCCAGGGGUGAUGGGA 19 5670 SCNN1A-1822 −GGGUUCCAGGGGUGAUGGGA 20 5671 SCNN1A-1823 − CGGGUUCCAGGGGUGAUGGGA 21 5672SCNN1A-1824 − UCGGGUUCCAGGGGUGAUGGGA 22 5673 SCNN1A-1825 −CUCGGGUUCCAGGGGUGAUGGGA 23 5674 SCNN1A-1826 − ACUCGGGUUCCAGGGGUGAUGGGA24 5675 SCNN1A-1827 − CAUACCAGGUCUCAUGGA 18 5676 SCNN1A-1828 −CCAUACCAGGUCUCAUGGA 19 5677 SCNN1A-3 − CCCAUACCAGGUCUCAUGGA 20  556SCNN1A-1829 − GCCCAUACCAGGUCUCAUGGA 21 5678 SCNN1A-1830 −AGCCCAUACCAGGUCUCAUGGA 22 5679 SCNN1A-1831 − CAGCCCAUACCAGGUCUCAUGGA 235680 SCNN1A-1832 − GCAGCCCAUACCAGGUCUCAUGGA 24 5681 SCNN1A-1833 −CCACUCCAGGGCUCAUGA 18 5682 SCNN1A-1834 − UCCACUCCAGGGCUCAUGA 19 5683SCNN1A-10 − GUCCACUCCAGGGCUCAUGA 20  505 SCNN1A-1835 −AGUCCACUCCAGGGCUCAUGA 21 5684 SCNN1A-1836 − CAGUCCACUCCAGGGCUCAUGA 225685 SCNN1A-1837 − ACAGUCCACUCCAGGGCUCAUGA 23 5686 SCNN1A-1838 −CACAGUCCACUCCAGGGCUCAUGA 24 5687 SCNN1A-1839 − CCACUCCGGGGCUCAUGA 185688 SCNN1A-1840 − UCCACUCCGGGGCUCAUGA 19 5689 SCNN1A-400 −AUCCACUCCGGGGCUCAUGA 20 4249 SCNN1A-1841 − AAUCCACUCCGGGGCUCAUGA 21 5690SCNN1A-1842 − CAAUCCACUCCGGGGCUCAUGA 22 5691 SCNN1A-1843 −CCAAUCCACUCCGGGGCUCAUGA 23 5692 SCNN1A-1844 − CCCAAUCCACUCCGGGGCUCAUGA24 5693 SCNN1A-1845 − CUCGGGUUCCAGGGGUGA 18 5694 SCNN1A-1846 −ACUCGGGUUCCAGGGGUGA 19 5695 SCNN1A-401 − CACUCGGGUUCCAGGGGUGA 20 4250SCNN1A-1847 − UCACUCGGGUUCCAGGGGUGA 21 5696 SCNN1A-1848 −CUCACUCGGGUUCCAGGGGUGA 22 5697 SCNN1A-1849 − CCUCACUCGGGUUCCAGGGGUGA 235698 SCNN1A-1850 − GCCUCACUCGGGUUCCAGGGGUGA 24 5699 SCNN1A-1851 −CGAGUUCCACCGCUCCUA 18 5700 SCNN1A-1852 − UCGAGUUCCACCGCUCCUA 19 5701SCNN1A-190 − AUCGAGUUCCACCGCUCCUA 20  820 SCNN1A-1853 −GAUCGAGUUCCACCGCUCCUA 21 5702 SCNN1A-1854 − UGAUCGAGUUCCACCGCUCCUA 225703 SCNN1A-1855 − CUGAUCGAGUUCCACCGCUCCUA 23 5704 SCNN1A-1856 −CCUGAUCGAGUUCCACCGCUCCUA 24 5705 SCNN1A-1857 − CUCAACAUCAACCUCAAC 185706 SCNN1A-1858 − CCUCAACAUCAACCUCAAC 19 5707 SCNN1A-198 −GCCUCAACAUCAACCUCAAC 20  827 SCNN1A-1859 − AGCCUCAACAUCAACCUCAAC 21 5708SCNN1A-1860 − CAGCCUCAACAUCAACCUCAAC 22 5709 SCNN1A-1861 −UCAGCCUCAACAUCAACCUCAAC 23 5710 SCNN1A-1862 − GUCAGCCUCAACAUCAACCUCAAC24 5711 SCNN1A-1863 − GUGGGCGCAGGGUGGGAC 18 5712 SCNN1A-1864 −UGUGGGCGCAGGGUGGGAC 19 5713 SCNN1A-1865 − AUGUGGGCGCAGGGUGGGAC 20 5714SCNN1A-1866 − AAUGUGGGCGCAGGGUGGGAC 21 5715 SCNN1A-1867 −GAAUGUGGGCGCAGGGUGGGAC 22 5716 SCNN1A-1868 − AGAAUGUGGGCGCAGGGUGGGAC 235717 SCNN1A-1869 − GAGAAUGUGGGCGCAGGGUGGGAC 24 5718 SCNN1A-1870 −AGUUCCACCGCUCCUACC 18 5719 SCNN1A-1871 − GAGUUCCACCGCUCCUACC 19 5720SCNN1A-191 − CGAGUUCCACCGCUCCUACC 20  821 SCNN1A-1872 −UCGAGUUCCACCGCUCCUACC 21 5721 SCNN1A-1873 − AUCGAGUUCCACCGCUCCUACC 225722 SCNN1A-1874 − GAUCGAGUUCCACCGCUCCUACC 23 5723 SCNN1A-1875 −UGAUCGAGUUCCACCGCUCCUACC 24 5724 SCNN1A-1876 − GAGAGGGCACUCAGGGCC 185725 SCNN1A-1877 − GGAGAGGGCACUCAGGGCC 19 5726 SCNN1A-1878 −GGGAGAGGGCACUCAGGGCC 20 5727 SCNN1A-1879 − UGGGAGAGGGCACUCAGGGCC 21 5728SCNN1A-1880 − AUGGGAGAGGGCACUCAGGGCC 22 5729 SCNN1A-1881 −GAUGGGAGAGGGCACUCAGGGCC 23 5730 SCNN1A-1882 − UGAUGGGAGAGGGCACUCAGGGCC24 5731 SCNN1A-1883 − AGGAGCAGGGGCUGGGCC 18 5732 SCNN1A-1884 −GAGGAGCAGGGGCUGGGCC 19 5733 SCNN1A-182 − UGAGGAGCAGGGGCUGGGCC 20  815SCNN1A-1885 − GUGAGGAGCAGGGGCUGGGCC 21 5734 SCNN1A-1886 −CGUGAGGAGCAGGGGCUGGGCC 22 5735 SCNN1A-1887 − GCGUGAGGAGCAGGGGCUGGGCC 235736 SCNN1A-1888 − AGCGUGAGGAGCAGGGGCUGGGCC 24 5737 SCNN1A-1889 −UGGGACAUGGGCAUGGCC 18 5738 SCNN1A-1890 − GUGGGACAUGGGCAUGGCC 19 5739SCNN1A-347 − GGUGGGACAUGGGCAUGGCC 20 4196 SCNN1A-1891 −GGGUGGGACAUGGGCAUGGCC 21 5740 SCNN1A-1892 − AGGGUGGGACAUGGGCAUGGCC 225741 SCNN1A-1893 − CAGGGUGGGACAUGGGCAUGGCC 23 5742 SCNN1A-1894 −GCAGGGUGGGACAUGGGCAUGGCC 24 5743 SCNN1A-1895 − UCAUGAAGGGGAACAAGC 185744 SCNN1A-1896 − CUCAUGAAGGGGAACAAGC 19 5745 SCNN1A-176 −GCUCAUGAAGGGGAACAAGC 20  811 SCNN1A-1897 − GGCUCAUGAAGGGGAACAAGC 21 5746SCNN1A-1898 − GGGCUCAUGAAGGGGAACAAGC 22 5747 SCNN1A-1899 −AGGGCUCAUGAAGGGGAACAAGC 23 5748 SCNN1A-1900 − CAGGGCUCAUGAAGGGGAACAAGC24 5749 SCNN1A-1901 − GGGGCUCAUGAAGGGGAACAAGC 23 5750 SCNN1A-1902 −CGGGGCUCAUGAAGGGGAACAAGC 24 5751 SCNN1A-1903 − UCAUGGAGGGGAACAAGC 185752 SCNN1A-1904 − CUCAUGGAGGGGAACAAGC 19 5753 SCNN1A-5 −UCUCAUGGAGGGGAACAAGC 20  557 SCNN1A-1905 − GUCUCAUGGAGGGGAACAAGC 21 5754SCNN1A-1906 − GGUCUCAUGGAGGGGAACAAGC 22 5755 SCNN1A-1907 −AGGUCUCAUGGAGGGGAACAAGC 23 5756 SCNN1A-1908 − CAGGUCUCAUGGAGGGGAACAAGC24 5757 SCNN1A-1909 − AGCAGUAUCAAGGUAAGC 18 5758 SCNN1A-1910 −GAGCAGUAUCAAGGUAAGC 19 5759 SCNN1A-1911 − UGAGCAGUAUCAAGGUAAGC 20 5760SCNN1A-1912 − AUGAGCAGUAUCAAGGUAAGC 21 5761 SCNN1A-1913 −CAUGAGCAGUAUCAAGGUAAGC 22 5762 SCNN1A-1914 − UCAUGAGCAGUAUCAAGGUAAGC 235763 SCNN1A-1915 − AUCAUGAGCAGUAUCAAGGUAAGC 24 5764 SCNN1A-1916 −GGAACAAGCGUGAGGAGC 18 5765 SCNN1A-1917 − GGGAACAAGCGUGAGGAGC 19 5766SCNN1A-14 − GGGGAACAAGCGUGAGGAGC 20  506 SCNN1A-1918 −AGGGGAACAAGCGUGAGGAGC 21 5767 SCNN1A-1919 − AAGGGGAACAAGCGUGAGGAGC 225768 SCNN1A-1920 − GAAGGGGAACAAGCGUGAGGAGC 23 5769 SCNN1A-1921 −UGAAGGGGAACAAGCGUGAGGAGC 24 5770 SCNN1A-1922 − UGCUCCCAGCACAACCGC 185771 SCNN1A-1923 − GUGCUCCCAGCACAACCGC 19 5772 SCNN1A-193 −UGUGCUCCCAGCACAACCGC 20  823 SCNN1A-1924 − GUGUGCUCCCAGCACAACCGC 21 5773SCNN1A-1925 − GGUGUGCUCCCAGCACAACCGC 22 5774 SCNN1A-1926 −UGGUGUGCUCCCAGCACAACCGC 23 5775 SCNN1A-1927 − CUGGUGUGCUCCCAGCACAACCGC24 5776 SCNN1A-1928 − GUGGGACAUGGGCAUGGC 18 5777 SCNN1A-1929 −GGUGGGACAUGGGCAUGGC 19 5778 SCNN1A-1930 − GGGUGGGACAUGGGCAUGGC 20 5779SCNN1A-1931 − AGGGUGGGACAUGGGCAUGGC 21 5780 SCNN1A-1932 −CAGGGUGGGACAUGGGCAUGGC 22 5781 SCNN1A-1933 − GCAGGGUGGGACAUGGGCAUGGC 235782 SCNN1A-1934 − CGCAGGGUGGGACAUGGGCAUGGC 24 5783 SCNN1A-1935 −CUUCCAAGGGGAGGUAUC 18 5784 SCNN1A-1936 − CCUUCCAAGGGGAGGUAUC 19 5785SCNN1A-1937 − CCCUUCCAAGGGGAGGUAUC 20 5786 SCNN1A-1938 −UCCCUUCCAAGGGGAGGUAUC 21 5787 SCNN1A-1939 − GUCCCUUCCAAGGGGAGGUAUC 225788 SCNN1A-1940 − UGUCCCUUCCAAGGGGAGGUAUC 23 5789 SCNN1A-1941 −CUGUCCCUUCCAAGGGGAGGUAUC 24 5790 SCNN1A-1942 − GCUCUCCCCAAUCCACUC 185791 SCNN1A-1943 − UGCUCUCCCCAAUCCACUC 19 5792 SCNN1A-410 −UUGCUCUCCCCAAUCCACUC 20 4259 SCNN1A-1944 − CUUGCUCUCCCCAAUCCACUC 21 5793SCNN1A-1945 − CCUUGCUCUCCCCAAUCCACUC 22 5794 SCNN1A-1946 −CCCUUGCUCUCCCCAAUCCACUC 23 5795 SCNN1A-1947 − ACCCUUGCUCUCCCCAAUCCACUC24 5796 SCNN1A-1948 − GCCCUCCACAGUCCACUC 18 5797 SCNN1A-1949 −AGCCCUCCACAGUCCACUC 19 5798 SCNN1A-170 − UAGCCCUCCACAGUCCACUC 20  808SCNN1A-1950 − CUAGCCCUCCACAGUCCACUC 21 5799 SCNN1A-1951 −UCUAGCCCUCCACAGUCCACUC 22 5800 SCNN1A-1952 − CUCUAGCCCUCCACAGUCCACUC 235801 SCNN1A-1953 − ACUCUAGCCCUCCACAGUCCACUC 24 5802 SCNN1A-1954 −CAGUCCACUCCAGGGCUC 18 5803 SCNN1A-1955 − ACAGUCCACUCCAGGGCUC 19 5804SCNN1A-171 − CACAGUCCACUCCAGGGCUC 20  809 SCNN1A-1956 −CCACAGUCCACUCCAGGGCUC 21 5805 SCNN1A-1957 − UCCACAGUCCACUCCAGGGCUC 225806 SCNN1A-1958 − CUCCACAGUCCACUCCAGGGCUC 23 5807 SCNN1A-1959 −CCUCCACAGUCCACUCCAGGGCUC 24 5808 SCNN1A-1960 − CAAUCCACUCCGGGGCUC 185809 SCNN1A-1961 − CCAAUCCACUCCGGGGCUC 19 5810 SCNN1A-1962 −CCCAAUCCACUCCGGGGCUC 20 5811 SCNN1A-1963 − CCCCAAUCCACUCCGGGGCUC 21 5812SCNN1A-1964 − UCCCCAAUCCACUCCGGGGCUC 22 5813 SCNN1A-1965 −CUCCCCAAUCCACUCCGGGGCUC 23 5814 SCNN1A-1966 − UCUCCCCAAUCCACUCCGGGGCUC24 5815 SCNN1A-1967 − CAGCCCAUACCAGGUCUC 18 5816 SCNN1A-1968 −GCAGCCCAUACCAGGUCUC 19 5817 SCNN1A-159 − UGCAGCCCAUACCAGGUCUC 20  803SCNN1A-1969 − CUGCAGCCCAUACCAGGUCUC 21 5818 SCNN1A-1970 −UCUGCAGCCCAUACCAGGUCUC 22 5819 SCNN1A-1971 − CUCUGCAGCCCAUACCAGGUCUC 235820 SCNN1A-1972 − CCUCUGCAGCCCAUACCAGGUCUC 24 5821 SCNN1A-1973 −GCAGCCUCACUCGGGUUC 18 5822 SCNN1A-1974 − GGCAGCCUCACUCGGGUUC 19 5823SCNN1A-1975 − GGGCAGCCUCACUCGGGUUC 20 5824 SCNN1A-1976 −GGGGCAGCCUCACUCGGGUUC 21 5825 SCNN1A-1977 − AGGGGCAGCCUCACUCGGGUUC 225826 SCNN1A-1978 − CAGGGGCAGCCUCACUCGGGUUC 23 5827 SCNN1A-1979 −CCAGGGGCAGCCUCACUCGGGUUC 24 5828 SCNN1A-1980 − CUCAUGAAGGGGAACAAG 185829 SCNN1A-1981 − GCUCAUGAAGGGGAACAAG 19 5830 SCNN1A-1982 −GGCUCAUGAAGGGGAACAAG 20 5831 SCNN1A-1983 − GGGCUCAUGAAGGGGAACAAG 21 5832SCNN1A-1984 − GGGGCUCAUGAAGGGGAACAAG 22 5833 SCNN1A-1985 −CGGGGCUCAUGAAGGGGAACAAG 23 5834 SCNN1A-1986 − CCGGGGCUCAUGAAGGGGAACAAG24 5835 SCNN1A-1987 − CUCAUGGAGGGGAACAAG 18 5836 SCNN1A-1988 −UCUCAUGGAGGGGAACAAG 19 5837 SCNN1A-165 − GUCUCAUGGAGGGGAACAAG 20  805SCNN1A-1989 − GGUCUCAUGGAGGGGAACAAG 21 5838 SCNN1A-1990 −AGGUCUCAUGGAGGGGAACAAG 22 5839 SCNN1A-1991 − CAGGUCUCAUGGAGGGGAACAAG 235840 SCNN1A-1992 − CCAGGUCUCAUGGAGGGGAACAAG 24 5841 SCNN1A-1993 −CCAGCUGUCCCUUCCAAG 18 5842 SCNN1A-1994 − UCCAGCUGUCCCUUCCAAG 19 5843SCNN1A-412 − AUCCAGCUGUCCCUUCCAAG 20 4261 SCNN1A-1995 −ACUCCAGGGCUCAUGAAG 18 5844 SCNN1A-1996 − CACUCCAGGGCUCAUGAAG 19 5845SCNN1A-12 − CCACUCCAGGGCUCAUGAAG 20  561 SCNN1A-1997 −UCCACUCCAGGGCUCAUGAAG 21 5846 SCNN1A-1998 − GUCCACUCCAGGGCUCAUGAAG 225847 SCNN1A-1999 − AGUCCACUCCAGGGCUCAUGAAG 23 5848 SCNN1A-2000 −CAGUCCACUCCAGGGCUCAUGAAG 24 5849 SCNN1A-2001 − ACUCCGGGGCUCAUGAAG 185850 SCNN1A-2002 − CACUCCGGGGCUCAUGAAG 19 5851 SCNN1A-453 −CCACUCCGGGGCUCAUGAAG 20 4302 SCNN1A-2003 − UCCACUCCGGGGCUCAUGAAG 21 5852SCNN1A-2004 − AUCCACUCCGGGGCUCAUGAAG 22 5853 SCNN1A-2005 −AAUCCACUCCGGGGCUCAUGAAG 23 5854 SCNN1A-2006 − CAAUCCACUCCGGGGCUCAUGAAG24 5855 SCNN1A-2007 − GGGAACAAGCUGGAGGAG 18 5856 SCNN1A-2008 −GGGGAACAAGCUGGAGGAG 19 5857 SCNN1A-169 − AGGGGAACAAGCUGGAGGAG 20  807SCNN1A-2009 − AAGGGGAACAAGCUGGAGGAG 21 5858 SCNN1A-2010 −GAAGGGGAACAAGCUGGAGGAG 22 5859 SCNN1A-2011 − UGAAGGGGAACAAGCUGGAGGAG 235860 SCNN1A-2012 − AUGAAGGGGAACAAGCUGGAGGAG 24 5861 SCNN1A-2013 −GAGGGGAACAAGCUGGAGGAG 21 5862 SCNN1A-2014 − GGAGGGGAACAAGCUGGAGGAG 225863 SCNN1A-2015 − UGGAGGGGAACAAGCUGGAGGAG 23 5864 SCNN1A-2016 −AUGGAGGGGAACAAGCUGGAGGAG 24 5865 SCNN1A-2017 − GGGAACAAGCGUGAGGAG 185866 SCNN1A-2018 − GGGGAACAAGCGUGAGGAG 19 5867 SCNN1A-179 −AGGGGAACAAGCGUGAGGAG 20  813 SCNN1A-2019 − AAGGGGAACAAGCGUGAGGAG 21 5868SCNN1A-2020 − GAAGGGGAACAAGCGUGAGGAG 22 5869 SCNN1A-2021 −UGAAGGGGAACAAGCGUGAGGAG 23 5870 SCNN1A-2022 − AUGAAGGGGAACAAGCGUGAGGAG24 5871 SCNN1A-2023 − CAGCAGCCCACGGCGGAG 18 5872 SCNN1A-2024 −CCAGCAGCCCACGGCGGAG 19 5873 SCNN1A-187 − CCCAGCAGCCCACGGCGGAG 20  818SCNN1A-2025 − CCCCAGCAGCCCACGGCGGAG 21 5874 SCNN1A-2026 −GCCCCAGCAGCCCACGGCGGAG 22 5875 SCNN1A-2027 − CGCCCCAGCAGCCCACGGCGGAG 235876 SCNN1A-2028 − GCGCCCCAGCAGCCCACGGCGGAG 24 5877 SCNN1A-2029 −AUACCAGGUCUCAUGGAG 18 5878 SCNN1A-2030 − CAUACCAGGUCUCAUGGAG 19 5879SCNN1A-4 − CCAUACCAGGUCUCAUGGAG 20  498 SCNN1A-2031 −CCCAUACCAGGUCUCAUGGAG 21 5880 SCNN1A-2032 − GCCCAUACCAGGUCUCAUGGAG 225881 SCNN1A-2033 − AGCCCAUACCAGGUCUCAUGGAG 23 5882 SCNN1A-2034 −CAGCCCAUACCAGGUCUCAUGGAG 24 5883 SCNN1A-2035 − GCGCCCCAGCAGCCCACG 185884 SCNN1A-2036 − GGCGCCCCAGCAGCCCACG 19 5885 SCNN1A-183 −CGGCGCCCCAGCAGCCCACG 20  816 SCNN1A-2037 − GCGGCGCCCCAGCAGCCCACG 21 5886SCNN1A-2038 − UGCGGCGCCCCAGCAGCCCACG 22 5887 SCNN1A-2039 −CUGCGGCGCCCCAGCAGCCCACG 23 5888 SCNN1A-2040 − CCUGCGGCGCCCCAGCAGCCCACG24 5889 SCNN1A-2041 − CCCCAGCAGCCCACGGCG 18 5890 SCNN1A-2042 −GCCCCAGCAGCCCACGGCG 19 5891 SCNN1A-185 − CGCCCCAGCAGCCCACGGCG 20  817SCNN1A-2043 − GCGCCCCAGCAGCCCACGGCG 21 5892 SCNN1A-2044 −GGCGCCCCAGCAGCCCACGGCG 22 5893 SCNN1A-2045 − CGGCGCCCCAGCAGCCCACGGCG 235894 SCNN1A-2046 − GCGGCGCCCCAGCAGCCCACGGCG 24 5895 SCNN1A-2047 −GGAGAAUGUGGGCGCAGG 18 5896 SCNN1A-2048 − GGGAGAAUGUGGGCGCAGG 19 5897SCNN1A-2049 − UGGGAGAAUGUGGGCGCAGG 20 5898 SCNN1A-2050 −AGCAGCCCACGGCGGAGG 18 5899 SCNN1A-2051 − CAGCAGCCCACGGCGGAGG 19 5900SCNN1A-23 CCAGCAGCCCACGGCGGAGG 20  566 SCNN1A-2052 −CCCAGCAGCCCACGGCGGAGG 21 5901 SCNN1A-2053 − CCCCAGCAGCCCACGGCGGAGG 225902 SCNN1A-2054 − GCCCCAGCAGCCCACGGCGGAGG 23 5903 SCNN1A-2055 −CGCCCCAGCAGCCCACGGCGGAGG 24 5904 SCNN1A-2056 − CGCCCCAGCAGCCCACGG 185905 SCNN1A-2057 − GCGCCCCAGCAGCCCACGG 19 5906 SCNN1A-21GGCGCCCCAGCAGCCCACGG 20  510 SCNN1A-2058 − CGGCGCCCCAGCAGCCCACGG 21 5907SCNN1A-2059 − GCGGCGCCCCAGCAGCCCACGG 22 5908 SCNN1A-2060 −UGCGGCGCCCCAGCAGCCCACGG 23 5909 SCNN1A-2061 − CUGCGGCGCCCCAGCAGCCCACGG24 5910 SCNN1A-2062 − CCCAGCAGCCCACGGCGG 18 5911 SCNN1A-2063 −CCCCAGCAGCCCACGGCGG 19 5912 SCNN1A-22 − GCCCCAGCAGCCCACGGCGG 20  511SCNN1A-2064 − CGCCCCAGCAGCCCACGGCGG 21 5913 SCNN1A-2065 −GCGCCCCAGCAGCCCACGGCGG 22 5914 SCNN1A-2066 − GGCGCCCCAGCAGCCCACGGCGG 235915 SCNN1A-2067 − CGGCGCCCCAGCAGCCCACGGCGG 24 5916 SCNN1A-2068 −GAGAAUGUGGGCGCAGGG 18 5917 SCNN1A-2069 − GGAGAAUGUGGGCGCAGGG 19 5918SCNN1A-354 − GGGAGAAUGUGGGCGCAGGG 20 4203 SCNN1A-2070 −UGGGAGAAUGUGGGCGCAGGG 21 5919 SCNN1A-2071 − GUGGGAGAAUGUGGGCGCAGGG 225920 SCNN1A-2072 − AGUGGGAGAAUGUGGGCGCAGGG 23 5921 SCNN1A-2073 −GAGUGGGAGAAUGUGGGCGCAGGG 24 5922 SCNN1A-2074 − AAGCGUGAGGAGCAGGGG 185923 SCNN1A-2075 − CAAGCGUGAGGAGCAGGGG 19 5924 SCNN1A-181ACAAGCGUGAGGAGCAGGGG 20  814 SCNN1A-2076 − AACAAGCGUGAGGAGCAGGGG 21 5925SCNN1A-2077 − GAACAAGCGUGAGGAGCAGGGG 22 5926 SCNN1A-2078 −GGAACAAGCGUGAGGAGCAGGGG 23 5927 SCNN1A-2079 − GGGAACAAGCGUGAGGAGCAGGGG24 5928 SCNN1A-2080 − CCAUACCAGGUCUCAUGG 18 5929 SCNN1A-2081 −CCCAUACCAGGUCUCAUGG 19 5930 SCNN1A-2 − GCCCAUACCAGGUCUCAUGG 20  497SCNN1A-2082 − AGCCCAUACCAGGUCUCAUGG 21 5931 SCNN1A-2083 −CAGCCCAUACCAGGUCUCAUGG 22 5932 SCNN1A-2084 − GCAGCCCAUACCAGGUCUCAUGG 235933 SCNN1A-2085 − UGCAGCCCAUACCAGGUCUCAUGG 24 5934 SCNN1A-2086 −GGGUUCCAGGGGUGAUGG 18 5935 SCNN1A-2087 − CGGGUUCCAGGGGUGAUGG 19 5936SCNN1A-2088 − UCGGGUUCCAGGGGUGAUGG 20 5937 SCNN1A-2089 −CUCGGGUUCCAGGGGUGAUGG 21 5938 SCNN1A-2090 − ACUCGGGUUCCAGGGGUGAUGG 225939 SCNN1A-2091 − CACUCGGGUUCCAGGGGUGAUGG 23 5940 SCNN1A-2092 −UCACUCGGGUUCCAGGGGUGAUGG 24 5941 SCNN1A-2093 − UGAAGGGGAACAAGCUGG 185942 SCNN1A-2094 − AUGAAGGGGAACAAGCUGG 19 5943 SCNN1A-455 −CAUGAAGGGGAACAAGCUGG 20 4304 SCNN1A-2095 − UCAUGAAGGGGAACAAGCUGG 21 5944SCNN1A-2096 − CUCAUGAAGGGGAACAAGCUGG 22 5945 SCNN1A-2097 −GCUCAUGAAGGGGAACAAGCUGG 23 5946 SCNN1A-2098 − GGCUCAUGAAGGGGAACAAGCUGG24 5947 SCNN1A-2099 − UGGAGGGGAACAAGCUGG 18 5948 SCNN1A-2100 −AUGGAGGGGAACAAGCUGG 19 5949 SCNN1A-6 − CAUGGAGGGGAACAAGCUGG 20  558SCNN1A-2101 − UCAUGGAGGGGAACAAGCUGG 21 5950 SCNN1A-2102 −CUCAUGGAGGGGAACAAGCUGG 22 5951 SCNN1A-2103 − UCUCAUGGAGGGGAACAAGCUGG 235952 SCNN1A-2104 − GUCUCAUGGAGGGGAACAAGCUGG 24 5953 SCNN1A-2105 −UCCACUCCAGGGCUCAUG 18 5954 SCNN1A-2106 − GUCCACUCCAGGGCUCAUG 19 5955SCNN1A-172 − AGUCCACUCCAGGGCUCAUG 20  810 SCNN1A-2107 −CAGUCCACUCCAGGGCUCAUG 21 5956 SCNN1A-2108 − ACAGUCCACUCCAGGGCUCAUG 225957 SCNN1A-2109 − CACAGUCCACUCCAGGGCUCAUG 23 5958 SCNN1A-2110 −CCACAGUCCACUCCAGGGCUCAUG 24 5959 SCNN1A-2111 − UCCACUCCGGGGCUCAUG 185960 SCNN1A-2112 − AUCCACUCCGGGGCUCAUG 19 5961 SCNN1A-2113 −AAUCCACUCCGGGGCUCAUG 20 5962 SCNN1A-2114 − CAAUCCACUCCGGGGCUCAUG 21 5963SCNN1A-2115 − CCAAUCCACUCCGGGGCUCAUG 22 5964 SCNN1A-2116 −CCCAAUCCACUCCGGGGCUCAUG 23 5965 SCNN1A-2117 − CCCCAAUCCACUCCGGGGCUCAUG24 5966 SCNN1A-2118 − CCCAUACCAGGUCUCAUG 18 5967 SCNN1A-2119 −GCCCAUACCAGGUCUCAUG 19 5968 SCNN1A-161 − AGCCCAUACCAGGUCUCAUG 20  804SCNN1A-2120 − CAGCCCAUACCAGGUCUCAUG 21 5969 SCNN1A-2121 −GCAGCCCAUACCAGGUCUCAUG 22 5970 SCNN1A-2122 − UGCAGCCCAUACCAGGUCUCAUG 235971 SCNN1A-2123 − CUGCAGCCCAUACCAGGUCUCAUG 24 5972 SCNN1A-2124 −AUGAAGGGGAACAAGCUG 18 5973 SCNN1A-2125 − CAUGAAGGGGAACAAGCUG 19 5974SCNN1A-2126 − UCAUGAAGGGGAACAAGCUG 20 5975 SCNN1A-2127 −CUCAUGAAGGGGAACAAGCUG 21 5976 SCNN1A-2128 − GCUCAUGAAGGGGAACAAGCUG 225977 SCNN1A-2129 − GGCUCAUGAAGGGGAACAAGCUG 23 5978 SCNN1A-2130 −GGGCUCAUGAAGGGGAACAAGCUG 24 5979 SCNN1A-2131 − AUGGAGGGGAACAAGCUG 185980 SCNN1A-2132 − CAUGGAGGGGAACAAGCUG 19 5981 SCNN1A-167 −UCAUGGAGGGGAACAAGCUG 20  806 SCNN1A-2133 − CUCAUGGAGGGGAACAAGCUG 21 5982SCNN1A-2134 − UCUCAUGGAGGGGAACAAGCUG 22 5983 SCNN1A-2135 −GUCUCAUGGAGGGGAACAAGCUG 23 5984 SCNN1A-2136 − GGUCUCAUGGAGGGGAACAAGCUG24 5985 SCNN1A-2137 − UGAAGGGGAACAAGCGUG 18 5986 SCNN1A-2138 −AUGAAGGGGAACAAGCGUG 19 5987 SCNN1A-13 − CAUGAAGGGGAACAAGCGUG 20  562SCNN1A-2139 − UCAUGAAGGGGAACAAGCGUG 21 5988 SCNN1A-2140 −CUCAUGAAGGGGAACAAGCGUG 22 5989 SCNN1A-2141 − GCUCAUGAAGGGGAACAAGCGUG 235990 SCNN1A-2142 − GGCUCAUGAAGGGGAACAAGCGUG 24 5991 SCNN1A-2143 −ACUCGGGUUCCAGGGGUG 18 5992 SCNN1A-2144 − CACUCGGGUUCCAGGGGUG 19 5993SCNN1A-2145 − UCACUCGGGUUCCAGGGGUG 20 5994 SCNN1A-2146 −CUCACUCGGGUUCCAGGGGUG 21 5995 SCNN1A-2147 − CCUCACUCGGGUUCCAGGGGUG 225996 SCNN1A-2148 − GCCUCACUCGGGUUCCAGGGGUG 23 5997 SCNN1A-2149 −AGCCUCACUCGGGUUCCAGGGGUG 24 5998 SCNN1A-2150 − UCGGGUUCCAGGGGUGAU 185999 SCNN1A-2151 − CUCGGGUUCCAGGGGUGAU 19 6000 SCNN1A-421 −ACUCGGGUUCCAGGGGUGAU 20 4270 SCNN1A-2152 − CACUCGGGUUCCAGGGGUGAU 21 6001SCNN1A-2153 − UCACUCGGGUUCCAGGGGUGAU 22 6002 SCNN1A-2154 −CUCACUCGGGUUCCAGGGGUGAU 23 6003 SCNN1A-2155 − CCUCACUCGGGUUCCAGGGGUGAU24 6004 SCNN1A-2156 − UGCUCUCCCCAAUCCACU 18 6005 SCNN1A-2157 −UUGCUCUCCCCAAUCCACU 19 6006 SCNN1A-2158 − CUUGCUCUCCCCAAUCCACU 20 6007SCNN1A-2159 − CCUUGCUCUCCCCAAUCCACU 21 6008 SCNN1A-2160 −CCCUUGCUCUCCCCAAUCCACU 22 6009 SCNN1A-2161 − ACCCUUGCUCUCCCCAAUCCACU 236010 SCNN1A-2162 − GACCCUUGCUCUCCCCAAUCCACU 24 6011 SCNN1A-2163 −GUGAUGGGAGAGGGCACU 18 6012 SCNN1A-2164 − GGUGAUGGGAGAGGGCACU 19 6013SCNN1A-2165 − GGGUGAUGGGAGAGGGCACU 20 6014 SCNN1A-2166 −GGGGUGAUGGGAGAGGGCACU 21 6015 SCNN1A-2167 − AGGGGUGAUGGGAGAGGGCACU 226016 SCNN1A-2168 − CAGGGGUGAUGGGAGAGGGCACU 23 6017 SCNN1A-2169 −CCAGGGGUGAUGGGAGAGGGCACU 24 6018 SCNN1A-2170 − AUGAAGGGGAACAAGCGU 186019 SCNN1A-2171 − CAUGAAGGGGAACAAGCGU 19 6020 SCNN1A-177 −UCAUGAAGGGGAACAAGCGU 20  812 SCNN1A-2172 − CUCAUGAAGGGGAACAAGCGU 21 6021SCNN1A-2173 − GCUCAUGAAGGGGAACAAGCGU 22 6022 SCNN1A-2174 −GGCUCAUGAAGGGGAACAAGCGU 23 6023 SCNN1A-2175 − GGGCUCAUGAAGGGGAACAAGCGU24 6024 SCNN1A-2176 − UAAGCAAGGGAACCUGGU 18 6025 SCNN1A-2177 −GUAAGCAAGGGAACCUGGU 19 6026 SCNN1A-2178 − GGUAAGCAAGGGAACCUGGU 20 6027SCNN1A-2179 − AGGUAAGCAAGGGAACCUGGU 21 6028 SCNN1A-2180 −AAGGUAAGCAAGGGAACCUGGU 22 6029 SCNN1A-2181 − CAAGGUAAGCAAGGGAACCUGGU 236030 SCNN1A-2182 − UCAAGGUAAGCAAGGGAACCUGGU 24 6031 SCNN1A-2183 −CCGCAUGAAGACGGCCUU 18 6032 SCNN1A-2184 − ACCGCAUGAAGACGGCCUU 19 6033SCNN1A-194 − AACCGCAUGAAGACGGCCUU 20  824 SCNN1A-2185 −CAACCGCAUGAAGACGGCCUU 21 6034 SCNN1A-2186 − ACAACCGCAUGAAGACGGCCUU 226035 SCNN1A-2187 − CACAACCGCAUGAAGACGGCCUU 23 6036 SCNN1A-2188 −GCACAACCGCAUGAAGACGGCCUU 24 6037 SCNN1A-2189 − GGCAAUUCGGCCUGCUUU 186038 SCNN1A-2190 − UGGCAAUUCGGCCUGCUUU 19 6039 SCNN1A-195 −CUGGCAAUUCGGCCUGCUUU 20  825 SCNN1A-2191 − ACUGGCAAUUCGGCCUGCUUU 21 6040SCNN1A-2192 − UACUGGCAAUUCGGCCUGCUUU 22 6041 SCNN1A-2193 −GUACUGGCAAUUCGGCCUGCUUU 23 6042 SCNN1A-2194 − UGUACUGGCAAUUCGGCCUGCUUU24 6043 SCNN1A-2195 − GCAAUUCGGCCUGCUUUU 18 6044 SCNN1A-2196 −GGCAAUUCGGCCUGCUUUU 19 6045 SCNN1A-34 − UGGCAAUUCGGCCUGCUUUU 20  573SCNN1A-2197 − CUGGCAAUUCGGCCUGCUUUU 21 6046 SCNN1A-2198 −ACUGGCAAUUCGGCCUGCUUUU 22 6047 SCNN1A-2199 − UACUGGCAAUUCGGCCUGCUUUU 236048 SCNN1A-2200 − GUACUGGCAAUUCGGCCUGCUUUU 24 6049

Table 44E provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the fifth tier parameters. Thetargeting domains fall in the coding sequence of the gene, downstream ofthe first 500 bp of coding sequence (e.g., anywhere from +500 (relativeto the start codon) to the stop codon of the gene), starts with a 5′Gand PAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the table can be used witha S. aureus Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 44E 5th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-2201 + GUACCUGAAGGGGCGAGGGGAA 22 6050 SCNN1A-2202 +GGUACCUGAAGGGGCGAGGGGAA 23 6051 SCNN1A-2203 + GGGUACCUGAAGGGGCGAGGGGAA24 6052 SCNN1A-2204 + GGGACAAGGACAGAGACA 18 6053 SCNN1A-2205 +GCUGGGACAAGGACAGAGACA 21 6054 SCNN1A-2206 + GGCUGGGACAAGGACAGAGACA 226055 SCNN1A-2207 + GUAUAGCAGUUUCCAUACA 19 6056 SCNN1A-2208 +GAAAGUAUAGCAGUUUCCAUACA 23 6057 SCNN1A-2209 + GGACCCUCAGGCGCUGCA 18 6058SCNN1A-2210 + GGGACCCUCAGGCGCUGCA 19 6059 SCNN1A-2211 +GCGGGACCCUCAGGCGCUGCA 21 6060 SCNN1A-2212 + GGCGGGACCCUCAGGCGCUGCA 226061 SCNN1A-2213 + GGGCGGGACCCUCAGGCGCUGCA 23 6062 SCNN1A-2214 +GGGGCGGGACCCUCAGGCGCUGCA 24 6063 SCNN1A-2215 + GUAAUUCCUUAUCAGGAAAGA 216064 SCNN1A-2216 + GAGUAAUUCCUUAUCAGGAAAGA 23 6065 SCNN1A-2217 +GAGUCUCUGGCAGCCUCGA 19 6066 SCNN1A-2218 + GCAGAGUCUCUGGCAGCCUCGA 22 6067SCNN1A-2219 + GGCAGAGUCUCUGGCAGCCUCGA 23 6068 SCNN1A-2220 +GCUCUCCUGGAAGCAGGA 18 6069 SCNN1A-2221 + GAUCAUGCUCUCCUGGAAGCAGGA 246070 SCNN1A-2222 + GAAGACCCAUUCCUAGGA 18 6071 SCNN1A-2223 +GGAAGACCCAUUCCUAGGA 19 6072 SCNN1A-2224 + GCUGCGGGAGCCGGCCAC 18 6073SCNN1A-2225 + GGCUGCGGGAGCCGGCCAC 19 6074 SCNN1A-2226 +GACGGCUGCGGGAGCCGGCCAC 22 6075 SCNN1A-2227 + GCGACGGCUGCGGGAGCCGGCCAC 246076 SCNN1A-2228 + GUUGCACUGGACACAGAGAC 20 6077 SCNN1A-2229 +GGUUGCACUGGACACAGAGAC 21 6078 SCNN1A-2230 + GCCCCCUGGAGAUGGGCGGGGGCC 246079 SCNN1A-2231 + GUACUCCACGUUCUGGGGCC 20 6080 SCNN1A-2232 +GCCCAGCGUGUCCUCCUCC 19 6081 SCNN1A-2233 + GUUGCCCAGCGUGUCCUCCUCC 22 6082SCNN1A-1051 + GAUCAUGCUCUCCUGGAAGC 20 4900 SCNN1A-2234 +GGAAGGAGGGGAGGAUGC 18 6083 SCNN1A-2235 + GGGAAGGAGGGGAGGAUGC 19 6084SCNN1A-2236 + GUGGGAAGGAGGGGAGGAUGC 21 6085 SCNN1A-2237 +GAAGUGGGAAGGAGGGGAGGAUGC 24 6086 SCNN1A-2238 + GAUGUCACCGAGGGCCAUC 196087 SCNN1A-2239 + GGAUGUCACCGAGGGCCAUC 20 6088 SCNN1A-2240 +GGGAUGUCACCGAGGGCCAUC 21 6089 SCNN1A-2241 + GCCAUAAUCGCCCCCAAGUCUGUC 246090 SCNN1A-2242 + GCUGCCCAGGUUGGACAG 18 6091 SCNN1A-2243 +GGCUGCCCAGGUUGGACAG 19 6092 SCNN1A-2244 + GCCCCAGUCACUGUGGACAGCAG 236093 SCNN1A-2245 + GGCCCCAGUCACUGUGGACAGCAG 24 6094 SCNN1A-2246 +GACCUAGGGGUGCAGAGAGAG 21 6095 SCNN1A-2247 + GAAUACACACCUGGAAGGGAG 216096 SCNN1A-2248 + GUGAAUACACACCUGGAAGGGAG 23 6097 SCNN1A-2249 +GCGCUGCAAGGGGUGCGG 18 6098 SCNN1A-2250 + GGCGCUGCAAGGGGUGCGG 19 6099SCNN1A-2251 + GCAGAAGUGGGAAGGAGGG 19 6100 SCNN1A-2252 +GGCAGAAGUGGGAAGGAGGG 20 6101 SCNN1A-2253 + GGGCAGAAGUGGGAAGGAGGG 21 6102SCNN1A-2254 + GGGGCAGAAGUGGGAAGGAGGG 22 6103 SCNN1A-2255 +GGGGGCAGAAGUGGGAAGGAGGG 23 6104 SCNN1A-2256 + GUCCUCCUCCAGGGAUGG 18 6105SCNN1A-2257 + GUGUCCUCCUCCAGGGAUGG 20 6106 SCNN1A-2258 +GCGUGUCCUCCUCCAGGGAUGG 22 6107 SCNN1A-2259 + GCCUCACCUGCUGUGUGUACUUUG 246108 SCNN1A-2260 + GACCCAUUCCUAGGAAAGAAU 21 6109 SCNN1A-2261 +GAAGACCCAUUCCUAGGAAAGAAU 24 6110 SCNN1A-2262 + GACCUACCGUGACAGAGGGAGACU24 6111 SCNN1A-1263 + GCAGCAUCAGGGACAGACCU 20 5112 SCNN1A-2263 +GCGCAGCAUCAGGGACAGACCU 22 6112 SCNN1A-2264 + GCGCGCAGCAUCAGGGACAGACCU 246113 SCNN1A-2265 + GCUUAUAGUAGCAGUACCCU 20 6114 SCNN1A-2266 +GAGCUUAUAGUAGCAGUACCCU 22 6115 SCNN1A-2267 + GGAGCUUAUAGUAGCAGUACCCU 236116 SCNN1A-2268 + GCUGGUAGCUGGUCACGCU 19 6117 SCNN1A-2269 +GAGCUGGUAGCUGGUCACGCU 21 6118 SCNN1A-2270 + GAGAGCUGGUAGCUGGUCACGCU 236119 SCNN1A-2271 + GCAUGGAAGACAUCCAGAGGU 21 6120 SCNN1A-2272 +GGCAUGGAAGACAUCCAGAGGU 22 6121 SCNN1A-2273 + GCUCCUCCAGCUCCUCUUUAAUUU 246122 SCNN1A-2274 − GGCAUCUCUCUGUACCCA 18 6123 SCNN1A-2275 −GAACAGGCAUCUCUCUGUACCCA 23 6124 SCNN1A-2276 − GCUUCCAGGAGAGCAUGAUCA 216125 SCNN1A-2277 − GACACCCCCAUUCUUUCCUAGGA 23 6126 SCNN1A-2278 −GACAUCCCAGGUAGAGUGUGGGGA 24 6127 SCNN1A-2279 − GACCCUACUCUCUCUUUCCUGAUA24 6128 SCNN1A-2280 − GAUUAUGGCGACUGCACC 18 6129 SCNN1A-2281 −GCGAUUAUGGCGACUGCACC 20 6130 SCNN1A-2282 − GGCGAUUAUGGCGACUGCACC 21 6131SCNN1A-2283 − GGGCGAUUAUGGCGACUGCACC 22 6132 SCNN1A-2284 −GGGGCGAUUAUGGCGACUGCACC 23 6133 SCNN1A-2285 − GGGGGCGAUUAUGGCGACUGCACC24 6134 SCNN1A-2286 − GCAGGUUAGUGUCCCCUUCC 20 6135 SCNN1A-2287 −GACUACAGAAAGCACAGUUCC 21 6136 SCNN1A-2288 − GUGACUACAGAAAGCACAGUUCC 236137 SCNN1A-2289 − GACCUCCAUCAGCAUGAGGAAGGC 24 6138 SCNN1A-2290 −GGUCUCCUGCAACCAGGC 18 6139 SCNN1A-2291 − GUCUCCAGGCCGAGGGGGC 19 6140SCNN1A-1073 − GGUCUCCAGGCCGAGGGGGC 20 4922 SCNN1A-2292 −GUCCACAGUGACUGGGGC 18 6141 SCNN1A-2293 − GCUGUCCACAGUGACUGGGGC 21 6142SCNN1A-2294 − GCUUCUACCAGACAUACUCAUC 22 6143 SCNN1A-2295 −GUCCCUGAUGCUGCGCGCAGAG 22 6144 SCNN1A-2296 − GCCCUCGGUGACAUCCCAGG 206145 SCNN1A-2297 − GGCCCUCGGUGACAUCCCAGG 21 6146 SCNN1A-2298 −GAUGGCCCUCGGUGACAUCCCAGG 24 6147 SCNN1A-2299 − GUAGAGUGUGGGGAAGGG 186148 SCNN1A-2300 − GGUAGAGUGUGGGGAAGGG 19 6149 SCNN1A-2301 −GCCCGGGUAAUGGUGCACGGG 21 6150 SCNN1A-2302 − GGCCCGGGUAAUGGUGCACGGG 226151 SCNN1A-2303 − GGGCCCGGGUAAUGGUGCACGGG 23 6152 SCNN1A-2304 −GGGGCCCGGGUAAUGGUGCACGGG 24 6153 SCNN1A-2305 − GUGGGGAAGGGAUGGGUG 186154 SCNN1A-1236 − GUGUGGGGAAGGGAUGGGUG 20 5085 SCNN1A-2306 −GAGUGUGGGGAAGGGAUGGGUG 22 6155 SCNN1A-2307 − GACAAGAACAACUCCAACCU 206156 SCNN1A-2308 − GCACCCCUUGCAGCGCCU 18 6157 SCNN1A-2309 −GCCGCACCCCUUGCAGCGCCU 21 6158 SCNN1A-2310 − GACACCCCCAUUCUUUCCU 19 6159SCNN1A-2311 − GAUGACACCCCCAUUCUUUCCU 22 6160 SCNN1A-2312 −GCUGAACUACAAAACCAAUU 20 6161 SCNN1A-2313 − GAGCUGAACUACAAAACCAAUU 226162 SCNN1A-2314 − GGAGCUGAACUACAAAACCAAUU 23 6163 SCNN1A-2315 −GCAGGAUGAACCUGCCUUU 19 6164 SCNN1A-2316 − GGCAGGAUGAACCUGCCUUU 20 6165SCNN1A-2317 − GGGCAGGAUGAACCUGCCUUU 21 6166

Table 44F provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the six tier parameters. The targetingdomains fall in the coding sequence of the gene, downstream of the first500 bp of coding sequence (e.g., anywhere from +500 (relative to thestart codon) to the stop codon of the gene) and PAM is NNGRRT. It iscontemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 44F 6th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-2318 + CUGAAGGGGCGAGGGGAA 18 6167 SCNN1A-2319 +CCUGAAGGGGCGAGGGGAA 19 6168 SCNN1A-2320 + ACCUGAAGGGGCGAGGGGAA 20 6169SCNN1A-2321 + UACCUGAAGGGGCGAGGGGAA 21 6170 SCNN1A-2322 +UGGGACAAGGACAGAGACA 19 6171 SCNN1A-899 + CUGGGACAAGGACAGAGACA 20 4748SCNN1A-2323 + UGGCUGGGACAAGGACAGAGACA 23 6172 SCNN1A-2324 +CUGGCUGGGACAAGGACAGAGACA 24 6173 SCNN1A-2325 + UAUAGCAGUUUCCAUACA 186174 SCNN1A-2326 + AGUAUAGCAGUUUCCAUACA 20 6175 SCNN1A-2327 +AAGUAUAGCAGUUUCCAUACA 21 6176 SCNN1A-2328 + AAAGUAUAGCAGUUUCCAUACA 226177 SCNN1A-2329 + UGAAAGUAUAGCAGUUUCCAUACA 24 6178 SCNN1A-2330 +UUUCUUAGGUGUGGGGCA 18 6179 SCNN1A-2331 + AUUUCUUAGGUGUGGGGCA 19 6180SCNN1A-2332 + CAUUUCUUAGGUGUGGGGCA 20 6181 SCNN1A-2333 +CCAUUUCUUAGGUGUGGGGCA 21 6182 SCNN1A-2334 + UCCAUUUCUUAGGUGUGGGGCA 226183 SCNN1A-2335 + CUCCAUUUCUUAGGUGUGGGGCA 23 6184 SCNN1A-2336 +ACUCCAUUUCUUAGGUGUGGGGCA 24 6185 SCNN1A-917 + CGGGACCCUCAGGCGCUGCA 204766 SCNN1A-2337 + AUUCCUUAUCAGGAAAGA 18 6186 SCNN1A-2338 +AAUUCCUUAUCAGGAAAGA 19 6187 SCNN1A-2339 + UAAUUCCUUAUCAGGAAAGA 20 6188SCNN1A-2340 + AGUAAUUCCUUAUCAGGAAAGA 22 6189 SCNN1A-2341 +AGAGUAAUUCCUUAUCAGGAAAGA 24 6190 SCNN1A-2342 + AGUCUCUGGCAGCCUCGA 186191 SCNN1A-2343 + AGAGUCUCUGGCAGCCUCGA 20 6192 SCNN1A-2344 +CAGAGUCUCUGGCAGCCUCGA 21 6193 SCNN1A-2345 + UGGCAGAGUCUCUGGCAGCCUCGA 246194 SCNN1A-2346 + UGCUCUCCUGGAAGCAGGA 19 6195 SCNN1A-2347 +AUGCUCUCCUGGAAGCAGGA 20 6196 SCNN1A-2348 + CAUGCUCUCCUGGAAGCAGGA 21 6197SCNN1A-2349 + UCAUGCUCUCCUGGAAGCAGGA 22 6198 SCNN1A-2350 +AUCAUGCUCUCCUGGAAGCAGGA 23 6199 SCNN1A-2351 + UGGAAGACCCAUUCCUAGGA 206200 SCNN1A-2352 + CUGGAAGACCCAUUCCUAGGA 21 6201 SCNN1A-2353 +UCUGGAAGACCCAUUCCUAGGA 22 6202 SCNN1A-2354 + AUCUGGAAGACCCAUUCCUAGGA 236203 SCNN1A-2355 + CAUCUGGAAGACCCAUUCCUAGGA 24 6204 SCNN1A-2356 +CGGCUGCGGGAGCCGGCCAC 20 6205 SCNN1A-2357 + ACGGCUGCGGGAGCCGGCCAC 21 6206SCNN1A-2358 + CGACGGCUGCGGGAGCCGGCCAC 23 6207 SCNN1A-2359 +UGCACUGGACACAGAGAC 18 6208 SCNN1A-2360 + UUGCACUGGACACAGAGAC 19 6209SCNN1A-2361 + UGGUUGCACUGGACACAGAGAC 22 6210 SCNN1A-2362 +CUGGUUGCACUGGACACAGAGAC 23 6211 SCNN1A-2363 + UCUGGUUGCACUGGACACAGAGAC24 6212 SCNN1A-2364 + CCUUCCCCACACUCUACC 18 6213 SCNN1A-2365 +CCCUUCCCCACACUCUACC 19 6214 SCNN1A-1006 + UCCCUUCCCCACACUCUACC 20 4855SCNN1A-2366 + AUCCCUUCCCCACACUCUACC 21 6215 SCNN1A-2367 +CAUCCCUUCCCCACACUCUACC 22 6216 SCNN1A-2368 + CCAUCCCUUCCCCACACUCUACC 236217 SCNN1A-2369 + CCCAUCCCUUCCCCACACUCUACC 24 6218 SCNN1A-2370 +UGGAGAUGGGCGGGGGCC 18 6219 SCNN1A-2371 + CUGGAGAUGGGCGGGGGCC 19 6220SCNN1A-2372 + CCUGGAGAUGGGCGGGGGCC 20 6221 SCNN1A-2373 +CCCUGGAGAUGGGCGGGGGCC 21 6222 SCNN1A-2374 + CCCCUGGAGAUGGGCGGGGGCC 226223 SCNN1A-2375 + CCCCCUGGAGAUGGGCGGGGGCC 23 6224 SCNN1A-2376 +ACUCCACGUUCUGGGGCC 18 6225 SCNN1A-2377 + UACUCCACGUUCUGGGGCC 19 6226SCNN1A-2378 + AGUACUCCACGUUCUGGGGCC 21 6227 SCNN1A-2379 +CAGUACUCCACGUUCUGGGGCC 22 6228 SCNN1A-2380 + ACAGUACUCCACGUUCUGGGGCC 236229 SCNN1A-2381 + CACAGUACUCCACGUUCUGGGGCC 24 6230 SCNN1A-2382 +CCCAGCGUGUCCUCCUCC 18 6231 SCNN1A-1038 + UGCCCAGCGUGUCCUCCUCC 20 4887SCNN1A-2383 + UUGCCCAGCGUGUCCUCCUCC 21 6232 SCNN1A-2384 +AGUUGCCCAGCGUGUCCUCCUCC 23 6233 SCNN1A-2385 + AAGUUGCCCAGCGUGUCCUCCUCC24 6234 SCNN1A-2386 + UCAUGCUCUCCUGGAAGC 18 6235 SCNN1A-2387 +AUCAUGCUCUCCUGGAAGC 19 6236 SCNN1A-2388 + UGAUCAUGCUCUCCUGGAAGC 21 6237SCNN1A-2389 + UUGAUCAUGCUCUCCUGGAAGC 22 6238 SCNN1A-2390 +CUUGAUCAUGCUCUCCUGGAAGC 23 6239 SCNN1A-2391 + CCUUGAUCAUGCUCUCCUGGAAGC24 6240 SCNN1A-2392 + UGGGAAGGAGGGGAGGAUGC 20 6241 SCNN1A-2393 +AGUGGGAAGGAGGGGAGGAUGC 22 6242 SCNN1A-2394 + AAGUGGGAAGGAGGGGAGGAUGC 236243 SCNN1A-2395 + AUGUCACCGAGGGCCAUC 18 6244 SCNN1A-2396 +UGGGAUGUCACCGAGGGCCAUC 22 6245 SCNN1A-2397 + CUGGGAUGUCACCGAGGGCCAUC 236246 SCNN1A-2398 + CCUGGGAUGUCACCGAGGGCCAUC 24 6247 SCNN1A-2399 +AUCGCCCCCAAGUCUGUC 18 6248 SCNN1A-2400 + AAUCGCCCCCAAGUCUGUC 19 6249SCNN1A-2401 + UAAUCGCCCCCAAGUCUGUC 20 6250 SCNN1A-2402 +AUAAUCGCCCCCAAGUCUGUC 21 6251 SCNN1A-2403 + CAUAAUCGCCCCCAAGUCUGUC 226252 SCNN1A-2404 + CCAUAAUCGCCCCCAAGUCUGUC 23 6253 SCNN1A-2405 +UGGCUGCCCAGGUUGGACAG 20 6254 SCNN1A-2406 + CUGGCUGCCCAGGUUGGACAG 21 6255SCNN1A-2407 + ACUGGCUGCCCAGGUUGGACAG 22 6256 SCNN1A-2408 +CACUGGCUGCCCAGGUUGGACAG 23 6257 SCNN1A-2409 + CCACUGGCUGCCCAGGUUGGACAG24 6258 SCNN1A-2410 + AGUCACUGUGGACAGCAG 18 6259 SCNN1A-2411 +CAGUCACUGUGGACAGCAG 19 6260 SCNN1A-1119 + CCAGUCACUGUGGACAGCAG 20 4968SCNN1A-2412 + CCCAGUCACUGUGGACAGCAG 21 6261 SCNN1A-2413 +CCCCAGUCACUGUGGACAGCAG 22 6262 SCNN1A-2414 + UUAUCAGGAAAGAGAGAG 18 6263SCNN1A-2415 + CUUAUCAGGAAAGAGAGAG 19 6264 SCNN1A-2416 +CCUUAUCAGGAAAGAGAGAG 20 6265 SCNN1A-2417 + UCCUUAUCAGGAAAGAGAGAG 21 6266SCNN1A-2418 + UUCCUUAUCAGGAAAGAGAGAG 22 6267 SCNN1A-2419 +AUUCCUUAUCAGGAAAGAGAGAG 23 6268 SCNN1A-2420 + AAUUCCUUAUCAGGAAAGAGAGAG24 6269 SCNN1A-2421 + CUAGGGGUGCAGAGAGAG 18 6270 SCNN1A-2422 +CCUAGGGGUGCAGAGAGAG 19 6271 SCNN1A-2423 + ACCUAGGGGUGCAGAGAGAG 20 6272SCNN1A-2424 + AGACCUAGGGGUGCAGAGAGAG 22 6273 SCNN1A-2425 +CAGACCUAGGGGUGCAGAGAGAG 23 6274 SCNN1A-2426 + ACAGACCUAGGGGUGCAGAGAGAG24 6275 SCNN1A-2427 + UACACACCUGGAAGGGAG 18 6276 SCNN1A-2428 +AUACACACCUGGAAGGGAG 19 6277 SCNN1A-2429 + AAUACACACCUGGAAGGGAG 20 6278SCNN1A-2430 + UGAAUACACACCUGGAAGGGAG 22 6279 SCNN1A-2431 +AGUGAAUACACACCUGGAAGGGAG 24 6280 SCNN1A-2432 + AGGCGCUGCAAGGGGUGCGG 206281 SCNN1A-2433 + CAGGCGCUGCAAGGGGUGCGG 21 6282 SCNN1A-2434 +UCAGGCGCUGCAAGGGGUGCGG 22 6283 SCNN1A-2435 + CUCAGGCGCUGCAAGGGGUGCGG 236284 SCNN1A-2436 + CCUCAGGCGCUGCAAGGGGUGCGG 24 6285 SCNN1A-2437 +CAGAAGUGGGAAGGAGGG 18 6286 SCNN1A-2438 + UGGGGGCAGAAGUGGGAAGGAGGG 246287 SCNN1A-2439 + UGUCCUCCUCCAGGGAUGG 19 6288 SCNN1A-2440 +CGUGUCCUCCUCCAGGGAUGG 21 6289 SCNN1A-2441 + AGCGUGUCCUCCUCCAGGGAUGG 236290 SCNN1A-2442 + CAGCGUGUCCUCCUCCAGGGAUGG 24 6291 SCNN1A-2443 +UCACCGCAUCCACCCCUG 18 6292 SCNN1A-2444 + CUCACCGCAUCCACCCCUG 19 6293SCNN1A-2445 + CCUCACCGCAUCCACCCCUG 20 6294 SCNN1A-2446 +CCCUCACCGCAUCCACCCCUG 21 6295 SCNN1A-2447 + UCCCUCACCGCAUCCACCCCUG 226296 SCNN1A-2448 + CUCCCUCACCGCAUCCACCCCUG 23 6297 SCNN1A-2449 +ACUCCCUCACCGCAUCCACCCCUG 24 6298 SCNN1A-2450 + CCUGCUGUGUGUACUUUG 186299 SCNN1A-2451 + ACCUGCUGUGUGUACUUUG 19 6300 SCNN1A-2452 +CACCUGCUGUGUGUACUUUG 20 6301 SCNN1A-2453 + UCACCUGCUGUGUGUACUUUG 21 6302SCNN1A-2454 + CUCACCUGCUGUGUGUACUUUG 22 6303 SCNN1A-2455 +CCUCACCUGCUGUGUGUACUUUG 23 6304 SCNN1A-2456 + CCAUUCCUAGGAAAGAAU 18 6305SCNN1A-2457 + CCCAUUCCUAGGAAAGAAU 19 6306 SCNN1A-1244 +ACCCAUUCCUAGGAAAGAAU 20 5093 SCNN1A-2458 + AGACCCAUUCCUAGGAAAGAAU 226307 SCNN1A-2459 + AAGACCCAUUCCUAGGAAAGAAU 23 6308 SCNN1A-2460 +CCGUGACAGAGGGAGACU 18 6309 SCNN1A-2461 + ACCGUGACAGAGGGAGACU 19 6310SCNN1A-2462 + UACCGUGACAGAGGGAGACU 20 6311 SCNN1A-2463 +CUACCGUGACAGAGGGAGACU 21 6312 SCNN1A-2464 + CCUACCGUGACAGAGGGAGACU 226313 SCNN1A-2465 + ACCUACCGUGACAGAGGGAGACU 23 6314 SCNN1A-2466 +AGUCCUUCCAGUCCACCU 18 6315 SCNN1A-2467 + CAGUCCUUCCAGUCCACCU 19 6316SCNN1A-1262 + CCAGUCCUUCCAGUCCACCU 20 5111 SCNN1A-2468 +UCCAGUCCUUCCAGUCCACCU 21 6317 SCNN1A-2469 + UUCCAGUCCUUCCAGUCCACCU 226318 SCNN1A-2470 + CUUCCAGUCCUUCCAGUCCACCU 23 6319 SCNN1A-2471 +UCUUCCAGUCCUUCCAGUCCACCU 24 6320 SCNN1A-2472 + AGCAUCAGGGACAGACCU 186321 SCNN1A-2473 + CAGCAUCAGGGACAGACCU 19 6322 SCNN1A-2474 +CGCAGCAUCAGGGACAGACCU 21 6323 SCNN1A-2475 + CGCGCAGCAUCAGGGACAGACCU 236324 SCNN1A-2476 + UUAUAGUAGCAGUACCCU 18 6325 SCNN1A-2477 +CUUAUAGUAGCAGUACCCU 19 6326 SCNN1A-2478 + AGCUUAUAGUAGCAGUACCCU 21 6327SCNN1A-2479 + UGGAGCUUAUAGUAGCAGUACCCU 24 6328 SCNN1A-2480 +CUGGUAGCUGGUCACGCU 18 6329 SCNN1A-1274 + AGCUGGUAGCUGGUCACGCU 20 5123SCNN1A-2481 + AGAGCUGGUAGCUGGUCACGCU 22 6330 SCNN1A-2482 +AGAGAGCUGGUAGCUGGUCACGCU 24 6331 SCNN1A-2483 + ACAUCGGGUGGUGGAAGU 186332 SCNN1A-2484 + UACAUCGGGUGGUGGAAGU 19 6333 SCNN1A-2485 +AUACAUCGGGUGGUGGAAGU 20 6334 SCNN1A-2486 + CAUACAUCGGGUGGUGGAAGU 21 6335SCNN1A-2487 + CCAUACAUCGGGUGGUGGAAGU 22 6336 SCNN1A-2488 +UCCAUACAUCGGGUGGUGGAAGU 23 6337 SCNN1A-2489 + UUCCAUACAUCGGGUGGUGGAAGU24 6338 SCNN1A-2490 + UGGAAGACAUCCAGAGGU 18 6339 SCNN1A-2491 +AUGGAAGACAUCCAGAGGU 19 6340 SCNN1A-1284 + CAUGGAAGACAUCCAGAGGU 20 5133SCNN1A-2492 + AGGCAUGGAAGACAUCCAGAGGU 23 6341 SCNN1A-2493 +CAGGCAUGGAAGACAUCCAGAGGU 24 6342 SCNN1A-2494 + CCAGCUCCUCUUUAAUUU 186343 SCNN1A-2495 + UCCAGCUCCUCUUUAAUUU 19 6344 SCNN1A-2496 +CUCCAGCUCCUCUUUAAUUU 20 6345 SCNN1A-2497 + CCUCCAGCUCCUCUUUAAUUU 21 6346SCNN1A-2498 + UCCUCCAGCUCCUCUUUAAUUU 22 6347 SCNN1A-2499 +CUCCUCCAGCUCCUCUUUAAUUU 23 6348 SCNN1A-2500 − UGCCCCACACCUAAGAAA 18 6349SCNN1A-2501 − CUGCCCCACACCUAAGAAA 19 6350 SCNN1A-884 −UCUGCCCCACACCUAAGAAA 20 4733 SCNN1A-2502 − CUCUGCCCCACACCUAAGAAA 21 6351SCNN1A-2503 − CCUCUGCCCCACACCUAAGAAA 22 6352 SCNN1A-2504 −CCCUCUGCCCCACACCUAAGAAA 23 6353 SCNN1A-2505 − ACCCUCUGCCCCACACCUAAGAAA24 6354 SCNN1A-2506 − AGGCAUCUCUCUGUACCCA 19 6355 SCNN1A-2507 −CAGGCAUCUCUCUGUACCCA 20 6356 SCNN1A-2508 − ACAGGCAUCUCUCUGUACCCA 21 6357SCNN1A-2509 − AACAGGCAUCUCUCUGUACCCA 22 6358 SCNN1A-2510 −AGAACAGGCAUCUCUCUGUACCCA 24 6359 SCNN1A-2511 − UCCAGGAGAGCAUGAUCA 186360 SCNN1A-2512 − UUCCAGGAGAGCAUGAUCA 19 6361 SCNN1A-923 −CUUCCAGGAGAGCAUGAUCA 20 4772 SCNN1A-2513 − UGCUUCCAGGAGAGCAUGAUCA 226362 SCNN1A-2514 − CUGCUUCCAGGAGAGCAUGAUCA 23 6363 SCNN1A-2515 −CCUGCUUCCAGGAGAGCAUGAUCA 24 6364 SCNN1A-2516 − CCCCAUUCUUUCCUAGGA 186365 SCNN1A-2517 − CCCCCAUUCUUUCCUAGGA 19 6366 SCNN1A-2518 −ACCCCCAUUCUUUCCUAGGA 20 6367 SCNN1A-2519 − CACCCCCAUUCUUUCCUAGGA 21 6368SCNN1A-2520 − ACACCCCCAUUCUUUCCUAGGA 22 6369 SCNN1A-2521 −UGACACCCCCAUUCUUUCCUAGGA 24 6370 SCNN1A-2522 − CCAGGUAGAGUGUGGGGA 186371 SCNN1A-2523 − CCCAGGUAGAGUGUGGGGA 19 6372 SCNN1A-957 −UCCCAGGUAGAGUGUGGGGA 20 4806 SCNN1A-2524 − AUCCCAGGUAGAGUGUGGGGA 21 6373SCNN1A-2525 − CAUCCCAGGUAGAGUGUGGGGA 22 6374 SCNN1A-2526 −ACAUCCCAGGUAGAGUGUGGGGA 23 6375 SCNN1A-2527 − CAGGGGUGGAUGCGGUGA 18 6376SCNN1A-2528 − UCAGGGGUGGAUGCGGUGA 19 6377 SCNN1A-967 −AUCAGGGGUGGAUGCGGUGA 20 4816 SCNN1A-2529 − CAUCAGGGGUGGAUGCGGUGA 21 6378SCNN1A-2530 − UCAUCAGGGGUGGAUGCGGUGA 22 6379 SCNN1A-2531 −CUCAUCAGGGGUGGAUGCGGUGA 23 6380 SCNN1A-2532 − ACUCAUCAGGGGUGGAUGCGGUGA24 6381 SCNN1A-2533 − ACUCUCUCUUUCCUGAUA 18 6382 SCNN1A-2534 −UACUCUCUCUUUCCUGAUA 19 6383 SCNN1A-971 − CUACUCUCUCUUUCCUGAUA 20 4820SCNN1A-2535 − CCUACUCUCUCUUUCCUGAUA 21 6384 SCNN1A-2536 −CCCUACUCUCUCUUUCCUGAUA 22 6385 SCNN1A-2537 − ACCCUACUCUCUCUUUCCUGAUA 236386 SCNN1A-2538 − CGAUUAUGGCGACUGCACC 19 6387 SCNN1A-2539 −CUGGAUGUCUUCCAUGCC 18 6388 SCNN1A-2540 − UCUGGAUGUCUUCCAUGCC 19 6389SCNN1A-1033 − CUCUGGAUGUCUUCCAUGCC 20 4882 SCNN1A-2541 −CCUCUGGAUGUCUUCCAUGCC 21 6390 SCNN1A-2542 − ACCUCUGGAUGUCUUCCAUGCC 226391 SCNN1A-2543 − AACCUCUGGAUGUCUUCCAUGCC 23 6392 SCNN1A-2544 −CAACCUCUGGAUGUCUUCCAUGCC 24 6393 SCNN1A-2545 − AGGUUAGUGUCCCCUUCC 186394 SCNN1A-2546 − CAGGUUAGUGUCCCCUUCC 19 6395 SCNN1A-2547 −UGCAGGUUAGUGUCCCCUUCC 21 6396 SCNN1A-2548 − AUGCAGGUUAGUGUCCCCUUCC 226397 SCNN1A-2549 − CAUGCAGGUUAGUGUCCCCUUCC 23 6398 SCNN1A-2550 −CCAUGCAGGUUAGUGUCCCCUUCC 24 6399 SCNN1A-2551 − UACAGAAAGCACAGUUCC 186400 SCNN1A-2552 − CUACAGAAAGCACAGUUCC 19 6401 SCNN1A-1047 −ACUACAGAAAGCACAGUUCC 20 4896 SCNN1A-2553 − UGACUACAGAAAGCACAGUUCC 226402 SCNN1A-2554 − UGUGACUACAGAAAGCACAGUUCC 24 6403 SCNN1A-2555 −CAUCAGCAUGAGGAAGGC 18 6404 SCNN1A-2556 − CCAUCAGCAUGAGGAAGGC 19 6405SCNN1A-2557 − UCCAUCAGCAUGAGGAAGGC 20 6406 SCNN1A-2558 −CUCCAUCAGCAUGAGGAAGGC 21 6407 SCNN1A-2559 − CCUCCAUCAGCAUGAGGAAGGC 226408 SCNN1A-2560 − ACCUCCAUCAGCAUGAGGAAGGC 23 6409 SCNN1A-2561 −AGGUCUCCUGCAACCAGGC 19 6410 SCNN1A-2562 − CAGGUCUCCUGCAACCAGGC 20 6411SCNN1A-2563 − CCAGGUCUCCUGCAACCAGGC 21 6412 SCNN1A-2564 −ACCAGGUCUCCUGCAACCAGGC 22 6413 SCNN1A-2565 − AACCAGGUCUCCUGCAACCAGGC 236414 SCNN1A-2566 − CAACCAGGUCUCCUGCAACCAGGC 24 6415 SCNN1A-2567 −UCUCCAGGCCGAGGGGGC 18 6416 SCNN1A-2568 − UGGUCUCCAGGCCGAGGGGGC 21 6417SCNN1A-2569 − CUGGUCUCCAGGCCGAGGGGGC 22 6418 SCNN1A-2570 −ACUGGUCUCCAGGCCGAGGGGGC 23 6419 SCNN1A-2571 − UACUGGUCUCCAGGCCGAGGGGGC24 6420 SCNN1A-2572 − UGUCCACAGUGACUGGGGC 19 6421 SCNN1A-2573 −CUGUCCACAGUGACUGGGGC 20 6422 SCNN1A-2574 − UGCUGUCCACAGUGACUGGGGC 226423 SCNN1A-2575 − CUGCUGUCCACAGUGACUGGGGC 23 6424 SCNN1A-2576 −CCUGCUGUCCACAGUGACUGGGGC 24 6425 SCNN1A-2577 − UGUCACGGUAGGUCGUGC 186426 SCNN1A-2578 − CUGUCACGGUAGGUCGUGC 19 6427 SCNN1A-2579 −UCUGUCACGGUAGGUCGUGC 20 6428 SCNN1A-2580 − CUCUGUCACGGUAGGUCGUGC 21 6429SCNN1A-2581 − CCUCUGUCACGGUAGGUCGUGC 22 6430 SCNN1A-2582 −CCCUCUGUCACGGUAGGUCGUGC 23 6431 SCNN1A-2583 − UCCCUCUGUCACGGUAGGUCGUGC24 6432 SCNN1A-2584 − CUACCAGACAUACUCAUC 18 6433 SCNN1A-2585 −UCUACCAGACAUACUCAUC 19 6434 SCNN1A-1091 − UUCUACCAGACAUACUCAUC 20 4940SCNN1A-2586 − CUUCUACCAGACAUACUCAUC 21 6435 SCNN1A-2587 −UGCUUCUACCAGACAUACUCAUC 23 6436 SCNN1A-2588 − CUGCUUCUACCAGACAUACUCAUC24 6437 SCNN1A-2589 − CUGAUGCUGCGCGCAGAG 18 6438 SCNN1A-2590 −CCUGAUGCUGCGCGCAGAG 19 6439 SCNN1A-2591 − CCCUGAUGCUGCGCGCAGAG 20 6440SCNN1A-2592 − UCCCUGAUGCUGCGCGCAGAG 21 6441 SCNN1A-2593 −UGUCCCUGAUGCUGCGCGCAGAG 23 6442 SCNN1A-2594 − CUGUCCCUGAUGCUGCGCGCAGAG24 6443 SCNN1A-2595 − AUCCGCGGCCCCAGAACG 18 6444 SCNN1A-2596 −UAUCCGCGGCCCCAGAACG 19 6445 SCNN1A-1144 − CUAUCCGCGGCCCCAGAACG 20 4993SCNN1A-2597 − UCUAUCCGCGGCCCCAGAACG 21 6446 SCNN1A-2598 −UUCUAUCCGCGGCCCCAGAACG 22 6447 SCNN1A-2599 − CUUCUAUCCGCGGCCCCAGAACG 236448 SCNN1A-2600 − UCUUCUAUCCGCGGCCCCAGAACG 24 6449 SCNN1A-2601 −CCUCGGUGACAUCCCAGG 18 6450 SCNN1A-2602 − CCCUCGGUGACAUCCCAGG 19 6451SCNN1A-2603 − UGGCCCUCGGUGACAUCCCAGG 22 6452 SCNN1A-2604 −AUGGCCCUCGGUGACAUCCCAGG 23 6453 SCNN1A-2605 − AGGUAGAGUGUGGGGAAGGG 206454 SCNN1A-2606 − CAGGUAGAGUGUGGGGAAGGG 21 6455 SCNN1A-2607 −CCAGGUAGAGUGUGGGGAAGGG 22 6456 SCNN1A-2608 − CCCAGGUAGAGUGUGGGGAAGGG 236457 SCNN1A-2609 − UCCCAGGUAGAGUGUGGGGAAGGG 24 6458 SCNN1A-2610 −CAGACAUACUCAUCAGGG 18 6459 SCNN1A-2611 − CCAGACAUACUCAUCAGGG 19 6460SCNN1A-2612 − ACCAGACAUACUCAUCAGGG 20 6461 SCNN1A-2613 −UACCAGACAUACUCAUCAGGG 21 6462 SCNN1A-2614 − CUACCAGACAUACUCAUCAGGG 226463 SCNN1A-2615 − UCUACCAGACAUACUCAUCAGGG 23 6464 SCNN1A-2616 −UUCUACCAGACAUACUCAUCAGGG 24 6465 SCNN1A-2617 − CGGGUAAUGGUGCACGGG 186466 SCNN1A-2618 − CCGGGUAAUGGUGCACGGG 19 6467 SCNN1A-2619 −CCCGGGUAAUGGUGCACGGG 20 6468 SCNN1A-2620 − UGUGGGGAAGGGAUGGGUG 19 6469SCNN1A-2621 − AGUGUGGGGAAGGGAUGGGUG 21 6470 SCNN1A-2622 −AGAGUGUGGGGAAGGGAUGGGUG 23 6471 SCNN1A-2623 − UAGAGUGUGGGGAAGGGAUGGGUG24 6472 SCNN1A-2624 − CAAGAACAACUCCAACCU 18 6473 SCNN1A-2625 −ACAAGAACAACUCCAACCU 19 6474 SCNN1A-2626 − UGACAAGAACAACUCCAACCU 21 6475SCNN1A-2627 − AUGACAAGAACAACUCCAACCU 22 6476 SCNN1A-2628 −AAUGACAAGAACAACUCCAACCU 23 6477 SCNN1A-2629 − CAAUGACAAGAACAACUCCAACCU24 6478 SCNN1A-2630 − CGCACCCCUUGCAGCGCCU 19 6479 SCNN1A-2631 −CCGCACCCCUUGCAGCGCCU 20 6480 SCNN1A-2632 − UGCCGCACCCCUUGCAGCGCCU 226481 SCNN1A-2633 − CUGCCGCACCCCUUGCAGCGCCU 23 6482 SCNN1A-2634 −UCUGCCGCACCCCUUGCAGCGCCU 24 6483 SCNN1A-2635 − ACACCCCCAUUCUUUCCU 186484 SCNN1A-1272 − UGACACCCCCAUUCUUUCCU 20 5121 SCNN1A-2636 −AUGACACCCCCAUUCUUUCCU 21 6485 SCNN1A-2637 − UGAUGACACCCCCAUUCUUUCCU 236486 SCNN1A-2638 − UUGAUGACACCCCCAUUCUUUCCU 24 6487 SCNN1A-2639 −UGAACUACAAAACCAAUU 18 6488 SCNN1A-2640 − CUGAACUACAAAACCAAUU 19 6489SCNN1A-2641 − AGCUGAACUACAAAACCAAUU 21 6490 SCNN1A-2642 −AGGAGCUGAACUACAAAACCAAUU 24 6491 SCNN1A-2643 − CAGGAUGAACCUGCCUUU 186492 SCNN1A-2644 − CGGGCAGGAUGAACCUGCCUUU 22 6493 SCNN1A-2645 −ACGGGCAGGAUGAACCUGCCUUU 23 6494 SCNN1A-2646 − CACGGGCAGGAUGAACCUGCCUUU24 6495

Table 44G provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the seven tier parameters. Thetargeting domains fall in the coding sequence of the gene, downstream ofthe first 500 bp of coding sequence (e.g., anywhere from +500 (relativeto the start codon) to the stop codon of the gene) and PAM is NNGRRV. Itis contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the table can be used with a S. aureus Cas9molecule that generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 44G 7th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-2647 + UAAUUCCUUAUCAGGAAA 18 6496 SCNN1A-2648 +GUAAUUCCUUAUCAGGAAA 19 6497 SCNN1A-2649 + AGUAAUUCCUUAUCAGGAAA 20 6498SCNN1A-2650 + GAGUAAUUCCUUAUCAGGAAA 21 6499 SCNN1A-2651 +AGAGUAAUUCCUUAUCAGGAAA 22 6500 SCNN1A-2652 + GAGAGUAAUUCCUUAUCAGGAAA 236501 SCNN1A-2653 + UGAGAGUAAUUCCUUAUCAGGAAA 24 6502 SCNN1A-2654 +AAGGGUAAAGGUUCUCAA 18 6503 SCNN1A-2655 + GAAGGGUAAAGGUUCUCAA 19 6504SCNN1A-2656 + UGAAGGGUAAAGGUUCUCAA 20 6505 SCNN1A-2657 +UUGAAGGGUAAAGGUUCUCAA 21 6506 SCNN1A-2658 + UUUGAAGGGUAAAGGUUCUCAA 226507 SCNN1A-2659 + CUUUGAAGGGUAAAGGUUCUCAA 23 6508 SCNN1A-2660 +ACUUUGAAGGGUAAAGGUUCUCAA 24 6509 SCNN1A-2661 + CCCAUUCCUAGGAAAGAA 186510 SCNN1A-2662 + ACCCAUUCCUAGGAAAGAA 19 6511 SCNN1A-887 +GACCCAUUCCUAGGAAAGAA 20 4736 SCNN1A-2663 + AGACCCAUUCCUAGGAAAGAA 21 6512SCNN1A-2664 + AAGACCCAUUCCUAGGAAAGAA 22 6513 SCNN1A-2665 +GAAGACCCAUUCCUAGGAAAGAA 23 6514 SCNN1A-2666 + GGAAGACCCAUUCCUAGGAAAGAA24 6515 SCNN1A-2667 + CAUGGGGUGGGGGCAGAA 18 6516 SCNN1A-2668 +ACAUGGGGUGGGGGCAGAA 19 6517 SCNN1A-2669 + GACAUGGGGUGGGGGCAGAA 20 6518SCNN1A-2670 + AGACAUGGGGUGGGGGCAGAA 21 6519 SCNN1A-2671 +GAGACAUGGGGUGGGGGCAGAA 22 6520 SCNN1A-2672 + AGAGACAUGGGGUGGGGGCAGAA 236521 SCNN1A-2673 + CAGAGACAUGGGGUGGGGGCAGAA 24 6522 SCNN1A-2674 +GUGAAUACACACCUGGAA 18 6523 SCNN1A-2675 + AGUGAAUACACACCUGGAA 19 6524SCNN1A-892 + GAGUGAAUACACACCUGGAA 20 4741 SCNN1A-2676 +GGAGUGAAUACACACCUGGAA 21 6525 SCNN1A-2677 + AGGAGUGAAUACACACCUGGAA 226526 SCNN1A-2678 + CAGGAGUGAAUACACACCUGGAA 23 6527 SCNN1A-2679 +GCAGGAGUGAAUACACACCUGGAA 24 6528 SCNN1A-2680 + AUACAUCGGGUGGUGGAA 186529 SCNN1A-2681 + CAUACAUCGGGUGGUGGAA 19 6530 SCNN1A-2682 +CCAUACAUCGGGUGGUGGAA 20 6531 SCNN1A-2683 + UCCAUACAUCGGGUGGUGGAA 21 6532SCNN1A-2684 + UUCCAUACAUCGGGUGGUGGAA 22 6533 SCNN1A-2685 +UUUCCAUACAUCGGGUGGUGGAA 23 6534 SCNN1A-2686 + GUUUCCAUACAUCGGGUGGUGGAA24 6535 SCNN1A-2687 + UCUCCACCACAGACAACA 18 6536 SCNN1A-2688 +AUCUCCACCACAGACAACA 19 6537 SCNN1A-2689 + CAUCUCCACCACAGACAACA 20 6538SCNN1A-2690 + CCAUCUCCACCACAGACAACA 21 6539 SCNN1A-2691 +GCCAUCUCCACCACAGACAACA 22 6540 SCNN1A-2692 + AGCCAUCUCCACCACAGACAACA 236541 SCNN1A-2693 + CAGCCAUCUCCACCACAGACAACA 24 6542 SCNN1A-2694 +UUCUGGUUGCACUGGACA 18 6543 SCNN1A-2695 + GUUCUGGUUGCACUGGACA 19 6544SCNN1A-2696 + UGUUCUGGUUGCACUGGACA 20 6545 SCNN1A-2697 +UUGUUCUGGUUGCACUGGACA 21 6546 SCNN1A-2698 + UUUGUUCUGGUUGCACUGGACA 226547 SCNN1A-2699 + AUUUGUUCUGGUUGCACUGGACA 23 6548 SCNN1A-2700 +GAUUUGUUCUGGUUGCACUGGACA 24 6549 SCNN1A-2701 + GCACGACCUACCGUGACA 186550 SCNN1A-2702 + GGCACGACCUACCGUGACA 19 6551 SCNN1A-2703 +AGGCACGACCUACCGUGACA 20 6552 SCNN1A-2704 + CAGGCACGACCUACCGUGACA 21 6553SCNN1A-2705 + CCAGGCACGACCUACCGUGACA 22 6554 SCNN1A-2706 +UCCAGGCACGACCUACCGUGACA 23 6555 SCNN1A-2707 + AUCCAGGCACGACCUACCGUGACA24 6556 SCNN1A-2708 + CAGUACCCUGUGGGUACA 18 6557 SCNN1A-2709 +GCAGUACCCUGUGGGUACA 19 6558 SCNN1A-2710 + AGCAGUACCCUGUGGGUACA 20 6559SCNN1A-2711 + UAGCAGUACCCUGUGGGUACA 21 6560 SCNN1A-2712 +GUAGCAGUACCCUGUGGGUACA 22 6561 SCNN1A-2713 + AGUAGCAGUACCCUGUGGGUACA 236562 SCNN1A-2714 + UAGUAGCAGUACCCUGUGGGUACA 24 6563 SCNN1A-2715 +CCUCUCAGGGCCCCCCCA 18 6564 SCNN1A-2716 + CCCUCUCAGGGCCCCCCCA 19 6565SCNN1A-2717 + UCCCUCUCAGGGCCCCCCCA 20 6566 SCNN1A-2718 +UUCCCUCUCAGGGCCCCCCCA 21 6567 SCNN1A-2719 + CUUCCCUCUCAGGGCCCCCCCA 226568 SCNN1A-2720 + CCUUCCCUCUCAGGGCCCCCCCA 23 6569 SCNN1A-2721 +UCCUUCCCUCUCAGGGCCCCCCCA 24 6570 SCNN1A-2722 + GGCGCCAUGGAGCAAGCA 186571 SCNN1A-2723 + GGGCGCCAUGGAGCAAGCA 19 6572 SCNN1A-909 +AGGGCGCCAUGGAGCAAGCA 20 4758 SCNN1A-2724 + GAGGGCGCCAUGGAGCAAGCA 21 6573SCNN1A-2725 + AGAGGGCGCCAUGGAGCAAGCA 22 6574 SCNN1A-2726 +CAGAGGGCGCCAUGGAGCAAGCA 23 6575 SCNN1A-2727 + GCAGAGGGCGCCAUGGAGCAAGCA24 6576 SCNN1A-2728 + CAGUCACUGUGGACAGCA 18 6577 SCNN1A-2729 +CCAGUCACUGUGGACAGCA 19 6578 SCNN1A-910 + CCCAGUCACUGUGGACAGCA 20 4759SCNN1A-2730 + CCCCAGUCACUGUGGACAGCA 21 6579 SCNN1A-2731 +GCCCCAGUCACUGUGGACAGCA 22 6580 SCNN1A-2732 + GGCCCCAGUCACUGUGGACAGCA 236581 SCNN1A-2733 + GGGCCCCAGUCACUGUGGACAGCA 24 6582 SCNN1A-2734 +CAUCGUGAGUAACCAGCA 18 6583 SCNN1A-2735 + CCAUCGUGAGUAACCAGCA 19 6584SCNN1A-2736 + GCCAUCGUGAGUAACCAGCA 20 6585 SCNN1A-2737 +GGCCAUCGUGAGUAACCAGCA 21 6586 SCNN1A-2738 + GGGCCAUCGUGAGUAACCAGCA 226587 SCNN1A-2739 + AGGGCCAUCGUGAGUAACCAGCA 23 6588 SCNN1A-2740 +GAGGGCCAUCGUGAGUAACCAGCA 24 6589 SCNN1A-2741 + CGUUGUUGAUUCCAGGCA 186590 SCNN1A-2742 + CCGUUGUUGAUUCCAGGCA 19 6591 SCNN1A-913 +ACCGUUGUUGAUUCCAGGCA 20 4762 SCNN1A-2743 + CACCGUUGUUGAUUCCAGGCA 21 6592SCNN1A-2744 + UCACCGUUGUUGAUUCCAGGCA 22 6593 SCNN1A-2745 +CUCACCGUUGUUGAUUCCAGGCA 23 6594 SCNN1A-2746 + UCUCACCGUUGUUGAUUCCAGGCA24 6595 SCNN1A-2747 + CCCAGGGUGGCAUAGGCA 18 6596 SCNN1A-2748 +GCCCAGGGUGGCAUAGGCA 19 6597 SCNN1A-914 + GGCCCAGGGUGGCAUAGGCA 20 4763SCNN1A-2749 + GGGCCCAGGGUGGCAUAGGCA 21 6598 SCNN1A-2750 +GGGGCCCAGGGUGGCAUAGGCA 22 6599 SCNN1A-2751 + GGGGGCCCAGGGUGGCAUAGGCA 236600 SCNN1A-2752 + CGGGGGCCCAGGGUGGCAUAGGCA 24 6601 SCNN1A-2753 +GACAGACCUAGGGGUGCA 18 6602 SCNN1A-2754 + GGACAGACCUAGGGGUGCA 19 6603SCNN1A-2755 + GGGACAGACCUAGGGGUGCA 20 6604 SCNN1A-2756 +AGGGACAGACCUAGGGGUGCA 21 6605 SCNN1A-2757 + CAGGGACAGACCUAGGGGUGCA 226606 SCNN1A-2758 + UCAGGGACAGACCUAGGGGUGCA 23 6607 SCNN1A-2759 +AUCAGGGACAGACCUAGGGGUGCA 24 6608 SCNN1A-2760 + CGAUUUGUUCUGGUUGCA 186609 SCNN1A-2761 + CCGAUUUGUUCUGGUUGCA 19 6610 SCNN1A-2762 +UCCGAUUUGUUCUGGUUGCA 20 6611 SCNN1A-2763 + GUCCGAUUUGUUCUGGUUGCA 21 6612SCNN1A-2764 + AGUCCGAUUUGUUCUGGUUGCA 22 6613 SCNN1A-2765 +CAGUCCGAUUUGUUCUGGUUGCA 23 6614 SCNN1A-2766 + GCAGUCCGAUUUGUUCUGGUUGCA24 6615 SCNN1A-2767 + ACACAGAGACUAGAGUCA 18 6616 SCNN1A-2768 +GACACAGAGACUAGAGUCA 19 6617 SCNN1A-2769 + GGACACAGAGACUAGAGUCA 20 6618SCNN1A-2770 + UGGACACAGAGACUAGAGUCA 21 6619 SCNN1A-2771 +CUGGACACAGAGACUAGAGUCA 22 6620 SCNN1A-2772 + ACUGGACACAGAGACUAGAGUCA 236621 SCNN1A-2773 + CACUGGACACAGAGACUAGAGUCA 24 6622 SCNN1A-2774 +CUGUAUUUGUACAGGUCA 18 6623 SCNN1A-2775 + GCUGUAUUUGUACAGGUCA 19 6624SCNN1A-2776 + AGCUGUAUUUGUACAGGUCA 20 6625 SCNN1A-2777 +GAGCUGUAUUUGUACAGGUCA 21 6626 SCNN1A-2778 + GGAGCUGUAUUUGUACAGGUCA 226627 SCNN1A-2779 + AGGAGCUGUAUUUGUACAGGUCA 23 6628 SCNN1A-2780 +AAGGAGCUGUAUUUGUACAGGUCA 24 6629 SCNN1A-2781 + ACUCUACCUGGGAUGUCA 186630 SCNN1A-2782 + CACUCUACCUGGGAUGUCA 19 6631 SCNN1A-2783 +ACACUCUACCUGGGAUGUCA 20 6632 SCNN1A-2784 + CACACUCUACCUGGGAUGUCA 21 6633SCNN1A-2785 + CCACACUCUACCUGGGAUGUCA 22 6634 SCNN1A-2786 +CCCACACUCUACCUGGGAUGUCA 23 6635 SCNN1A-2787 + CCCCACACUCUACCUGGGAUGUCA24 6636 SCNN1A-2788 + UUGGAGUUGUUCUUGUCA 18 6637 SCNN1A-2789 +GUUGGAGUUGUUCUUGUCA 19 6638 SCNN1A-2790 + GGUUGGAGUUGUUCUUGUCA 20 6639SCNN1A-2791 + AGGUUGGAGUUGUUCUUGUCA 21 6640 SCNN1A-2792 +GAGGUUGGAGUUGUUCUUGUCA 22 6641 SCNN1A-2793 + AGAGGUUGGAGUUGUUCUUGUCA 236642 SCNN1A-2794 + CAGAGGUUGGAGUUGUUCUUGUCA 24 6643 SCNN1A-2795 +ACCCAUUCCUAGGAAAGA 18 6644 SCNN1A-2796 + GACCCAUUCCUAGGAAAGA 19 6645SCNN1A-2797 + AGACCCAUUCCUAGGAAAGA 20 6646 SCNN1A-2798 +AAGACCCAUUCCUAGGAAAGA 21 6647 SCNN1A-2799 + GAAGACCCAUUCCUAGGAAAGA 226648 SCNN1A-2800 + GGAAGACCCAUUCCUAGGAAAGA 23 6649 SCNN1A-2801 +UGGAAGACCCAUUCCUAGGAAAGA 24 6650 SCNN1A-2802 + ACGACCUACCGUGACAGA 186651 SCNN1A-2803 + CACGACCUACCGUGACAGA 19 6652 SCNN1A-931 +GCACGACCUACCGUGACAGA 20 4780 SCNN1A-2804 + GGCACGACCUACCGUGACAGA 21 6653SCNN1A-2805 + AGGCACGACCUACCGUGACAGA 22 6654 SCNN1A-2806 +CAGGCACGACCUACCGUGACAGA 23 6655 SCNN1A-2807 + CCAGGCACGACCUACCGUGACAGA24 6656 SCNN1A-2808 + CAGACCUAGGGGUGCAGA 18 6657 SCNN1A-2809 +ACAGACCUAGGGGUGCAGA 19 6658 SCNN1A-2810 + GACAGACCUAGGGGUGCAGA 20 6659SCNN1A-2811 + GGACAGACCUAGGGGUGCAGA 21 6660 SCNN1A-2812 +GGGACAGACCUAGGGGUGCAGA 22 6661 SCNN1A-2813 + AGGGACAGACCUAGGGGUGCAGA 236662 SCNN1A-2814 + CAGGGACAGACCUAGGGGUGCAGA 24 6663 SCNN1A-2815 +ACAGAGACUAGAGUCAGA 18 6664 SCNN1A-2816 + CACAGAGACUAGAGUCAGA 19 6665SCNN1A-933 + ACACAGAGACUAGAGUCAGA 20 4782 SCNN1A-2817 +GACACAGAGACUAGAGUCAGA 21 6666 SCNN1A-2818 + GGACACAGAGACUAGAGUCAGA 226667 SCNN1A-2819 + UGGACACAGAGACUAGAGUCAGA 23 6668 SCNN1A-2820 +CUGGACACAGAGACUAGAGUCAGA 24 6669 SCNN1A-2821 + GGCUGUCAAGGCUGGAGA 186670 SCNN1A-2822 + GGGCUGUCAAGGCUGGAGA 19 6671 SCNN1A-936 +GGGGCUGUCAAGGCUGGAGA 20 4785 SCNN1A-2823 + AGGGGCUGUCAAGGCUGGAGA 21 6672SCNN1A-2824 + GAGGGGCUGUCAAGGCUGGAGA 22 6673 SCNN1A-2825 +GGAGGGGCUGUCAAGGCUGGAGA 23 6674 SCNN1A-2826 + GGGAGGGGCUGUCAAGGCUGGAGA24 6675 SCNN1A-2827 + GGGUACCUGAAGGGGCGA 18 6676 SCNN1A-2828 +CGGGUACCUGAAGGGGCGA 19 6677 SCNN1A-946 + CCGGGUACCUGAAGGGGCGA 20 4795SCNN1A-2829 + UCCGGGUACCUGAAGGGGCGA 21 6678 SCNN1A-2830 +UUCCGGGUACCUGAAGGGGCGA 22 6679 SCNN1A-2831 + UUUCCGGGUACCUGAAGGGGCGA 236680 SCNN1A-2832 + AUUUCCGGGUACCUGAAGGGGCGA 24 6681 SCNN1A-2833 +GCCUGGCUGGGACAAGGA 18 6682 SCNN1A-2834 + GGCCUGGCUGGGACAAGGA 19 6683SCNN1A-2835 + GGGCCUGGCUGGGACAAGGA 20 6684 SCNN1A-2836 +AGGGCCUGGCUGGGACAAGGA 21 6685 SCNN1A-2837 + CAGGGCCUGGCUGGGACAAGGA 226686 SCNN1A-2838 + GCAGGGCCUGGCUGGGACAAGGA 23 6687 SCNN1A-2839 +AGCAGGGCCUGGCUGGGACAAGGA 24 6688 SCNN1A-2840 + GGGCAGAAGUGGGAAGGA 186689 SCNN1A-2841 + GGGGCAGAAGUGGGAAGGA 19 6690 SCNN1A-948 +GGGGGCAGAAGUGGGAAGGA 20 4797 SCNN1A-2842 + UGGGGGCAGAAGUGGGAAGGA 21 6691SCNN1A-2843 + GUGGGGGCAGAAGUGGGAAGGA 22 6692 SCNN1A-2844 +GGUGGGGGCAGAAGUGGGAAGGA 23 6693 SCNN1A-2845 + GGGUGGGGGCAGAAGUGGGAAGGA24 6694 SCNN1A-2846 + AGUAAUUCCUUAUCAGGA 18 6695 SCNN1A-2847 +GAGUAAUUCCUUAUCAGGA 19 6696 SCNN1A-2848 + AGAGUAAUUCCUUAUCAGGA 20 6697SCNN1A-2849 + GAGAGUAAUUCCUUAUCAGGA 21 6698 SCNN1A-2850 +UGAGAGUAAUUCCUUAUCAGGA 22 6699 SCNN1A-2851 + GUGAGAGUAAUUCCUUAUCAGGA 236700 SCNN1A-2852 + AGUGAGAGUAAUUCCUUAUCAGGA 24 6701 SCNN1A-2853 +GGAGGAGGGUGGAGAGGA 18 6702 SCNN1A-2854 + GGGAGGAGGGUGGAGAGGA 19 6703SCNN1A-2855 + AGGGAGGAGGGUGGAGAGGA 20 6704 SCNN1A-2856 +AAGGGAGGAGGGUGGAGAGGA 21 6705 SCNN1A-2857 + GAAGGGAGGAGGGUGGAGAGGA 226706 SCNN1A-2858 + GGAAGGGAGGAGGGUGGAGAGGA 23 6707 SCNN1A-2859 +UGGAAGGGAGGAGGGUGGAGAGGA 24 6708 SCNN1A-2860 + ACGUUCUGGGGCCGCGGA 186709 SCNN1A-2861 + CACGUUCUGGGGCCGCGGA 19 6710 SCNN1A-2862 +CCACGUUCUGGGGCCGCGGA 20 6711 SCNN1A-2863 + UCCACGUUCUGGGGCCGCGGA 21 6712SCNN1A-2864 + CUCCACGUUCUGGGGCCGCGGA 22 6713 SCNN1A-2865 +ACUCCACGUUCUGGGGCCGCGGA 23 6714 SCNN1A-2866 + UACUCCACGUUCUGGGGCCGCGGA24 6715 SCNN1A-2867 + ACUGUGGACAGCAGGGGA 18 6716 SCNN1A-2868 +CACUGUGGACAGCAGGGGA 19 6717 SCNN1A-2869 + UCACUGUGGACAGCAGGGGA 20 6718SCNN1A-2870 + GUCACUGUGGACAGCAGGGGA 21 6719 SCNN1A-2871 +AGUCACUGUGGACAGCAGGGGA 22 6720 SCNN1A-2872 + CAGUCACUGUGGACAGCAGGGGA 236721 SCNN1A-2873 + CCAGUCACUGUGGACAGCAGGGGA 24 6722 SCNN1A-2874 +AGCUGGUCACGCUGGGGA 18 6723 SCNN1A-2875 + UAGCUGGUCACGCUGGGGA 19 6724SCNN1A-956 + GUAGCUGGUCACGCUGGGGA 20 4805 SCNN1A-2876 +GGUAGCUGGUCACGCUGGGGA 21 6725 SCNN1A-2877 + UGGUAGCUGGUCACGCUGGGGA 226726 SCNN1A-2878 + CUGGUAGCUGGUCACGCUGGGGA 23 6727 SCNN1A-2879 +GCUGGUAGCUGGUCACGCUGGGGA 24 6728 SCNN1A-2880 + GUGGGGGCAGAAGUGGGA 186729 SCNN1A-2881 + GGUGGGGGCAGAAGUGGGA 19 6730 SCNN1A-958 +GGGUGGGGGCAGAAGUGGGA 20 4807 SCNN1A-2882 + GGGGUGGGGGCAGAAGUGGGA 21 6731SCNN1A-2883 + UGGGGUGGGGGCAGAAGUGGGA 22 6732 SCNN1A-2884 +AUGGGGUGGGGGCAGAAGUGGGA 23 6733 SCNN1A-2885 + CAUGGGGUGGGGGCAGAAGUGGGA24 6734 SCNN1A-2886 + AGUGAAUACACACCUGGA 18 6735 SCNN1A-2887 +GAGUGAAUACACACCUGGA 19 6736 SCNN1A-960 + GGAGUGAAUACACACCUGGA 20 4809SCNN1A-2888 + AGGAGUGAAUACACACCUGGA 21 6737 SCNN1A-2889 +CAGGAGUGAAUACACACCUGGA 22 6738 SCNN1A-2890 + GCAGGAGUGAAUACACACCUGGA 236739 SCNN1A-2891 + AGCAGGAGUGAAUACACACCUGGA 24 6740 SCNN1A-2892 +GGGGCUGUCAAGGCUGGA 18 6741 SCNN1A-2893 + AGGGGCUGUCAAGGCUGGA 19 6742SCNN1A-2894 + GAGGGGCUGUCAAGGCUGGA 20 6743 SCNN1A-2895 +GGAGGGGCUGUCAAGGCUGGA 21 6744 SCNN1A-2896 + GGGAGGGGCUGUCAAGGCUGGA 226745 SCNN1A-2897 + GGGGAGGGGCUGUCAAGGCUGGA 23 6746 SCNN1A-2898 +GGGGGAGGGGCUGUCAAGGCUGGA 24 6747 SCNN1A-2899 + GGAAGGGAGGAGGGUGGA 186748 SCNN1A-2900 + UGGAAGGGAGGAGGGUGGA 19 6749 SCNN1A-2901 +CUGGAAGGGAGGAGGGUGGA 20 6750 SCNN1A-2902 + CCUGGAAGGGAGGAGGGUGGA 21 6751SCNN1A-2903 + ACCUGGAAGGGAGGAGGGUGGA 22 6752 SCNN1A-2904 +CACCUGGAAGGGAGGAGGGUGGA 23 6753 SCNN1A-2905 + ACACCUGGAAGGGAGGAGGGUGGA24 6754 SCNN1A-2906 + CUGGCUGCCCAGGUUGGA 18 6755 SCNN1A-2907 +ACUGGCUGCCCAGGUUGGA 19 6756 SCNN1A-2908 + CACUGGCUGCCCAGGUUGGA 20 6757SCNN1A-2909 + CCACUGGCUGCCCAGGUUGGA 21 6758 SCNN1A-2910 +UCCACUGGCUGCCCAGGUUGGA 22 6759 SCNN1A-2911 + CUCCACUGGCUGCCCAGGUUGGA 236760 SCNN1A-2912 + GCUCCACUGGCUGCCCAGGUUGGA 24 6761 SCNN1A-2913 +UAAUUUCCGGGUACCUGA 18 6762 SCNN1A-2914 + UUAAUUUCCGGGUACCUGA 19 6763SCNN1A-964 + UUUAAUUUCCGGGUACCUGA 20 4813 SCNN1A-2915 +CUUUAAUUUCCGGGUACCUGA 21 6764 SCNN1A-2916 + UCUUUAAUUUCCGGGUACCUGA 226765 SCNN1A-2917 + CUCUUUAAUUUCCGGGUACCUGA 23 6766 SCNN1A-2918 +CCUCUUUAAUUUCCGGGUACCUGA 24 6767 SCNN1A-2919 + UUGCCUUCCUCAUGCUGA 186768 SCNN1A-2920 + CUUGCCUUCCUCAUGCUGA 19 6769 SCNN1A-966 +CCUUGCCUUCCUCAUGCUGA 20 4815 SCNN1A-2921 + UCCUUGCCUUCCUCAUGCUGA 21 6770SCNN1A-2922 + AUCCUUGCCUUCCUCAUGCUGA 22 6771 SCNN1A-2923 +CAUCCUUGCCUUCCUCAUGCUGA 23 6772 SCNN1A-2924 + GCAUCCUUGCCUUCCUCAUGCUGA24 6773 SCNN1A-2925 + AGGCACGACCUACCGUGA 18 6774 SCNN1A-2926 +CAGGCACGACCUACCGUGA 19 6775 SCNN1A-2927 + CCAGGCACGACCUACCGUGA 20 6776SCNN1A-2928 + UCCAGGCACGACCUACCGUGA 21 6777 SCNN1A-2929 +AUCCAGGCACGACCUACCGUGA 22 6778 SCNN1A-2930 + CAUCCAGGCACGACCUACCGUGA 236779 SCNN1A-2931 + CCAUCCAGGCACGACCUACCGUGA 24 6780 SCNN1A-2932 +CGGCCACGAGAGUGGUGA 18 6781 SCNN1A-2933 + CCGGCCACGAGAGUGGUGA 19 6782SCNN1A-968 + GCCGGCCACGAGAGUGGUGA 20 4817 SCNN1A-2934 +AGCCGGCCACGAGAGUGGUGA 21 6783 SCNN1A-2935 + GAGCCGGCCACGAGAGUGGUGA 226784 SCNN1A-2936 + GGAGCCGGCCACGAGAGUGGUGA 23 6785 SCNN1A-2937 +GGGAGCCGGCCACGAGAGUGGUGA 24 6786 SCNN1A-2938 + GAGGGUGACCAUCUGUGA 186787 SCNN1A-2939 + GGAGGGUGACCAUCUGUGA 19 6788 SCNN1A-2940 +AGGAGGGUGACCAUCUGUGA 20 6789 SCNN1A-2941 + CAGGAGGGUGACCAUCUGUGA 21 6790SCNN1A-2942 + ACAGGAGGGUGACCAUCUGUGA 22 6791 SCNN1A-2943 +GACAGGAGGGUGACCAUCUGUGA 23 6792 SCNN1A-2944 + GGACAGGAGGGUGACCAUCUGUGA24 6793 SCNN1A-2945 + AGCAGUACCCUGUGGGUA 18 6794 SCNN1A-2946 +UAGCAGUACCCUGUGGGUA 19 6795 SCNN1A-2947 + GUAGCAGUACCCUGUGGGUA 20 6796SCNN1A-2948 + AGUAGCAGUACCCUGUGGGUA 21 6797 SCNN1A-2949 +UAGUAGCAGUACCCUGUGGGUA 22 6798 SCNN1A-2950 + AUAGUAGCAGUACCCUGUGGGUA 236799 SCNN1A-2951 + UAUAGUAGCAGUACCCUGUGGGUA 24 6800 SCNN1A-2952 +CGACAGGAUGUUGAUGUA 18 6801 SCNN1A-2953 + UCGACAGGAUGUUGAUGUA 19 6802SCNN1A-2954 + CUCGACAGGAUGUUGAUGUA 20 6803 SCNN1A-2955 +CCUCGACAGGAUGUUGAUGUA 21 6804 SCNN1A-2956 + GCCUCGACAGGAUGUUGAUGUA 226805 SCNN1A-2957 + AGCCUCGACAGGAUGUUGAUGUA 23 6806 SCNN1A-2958 +CAGCCUCGACAGGAUGUUGAUGUA 24 6807 SCNN1A-2959 + AGGGUAAAGGUUCUCAAC 186808 SCNN1A-2960 + AAGGGUAAAGGUUCUCAAC 19 6809 SCNN1A-978 +GAAGGGUAAAGGUUCUCAAC 20 4827 SCNN1A-2961 + UGAAGGGUAAAGGUUCUCAAC 21 6810SCNN1A-2962 + UUGAAGGGUAAAGGUUCUCAAC 22 6811 SCNN1A-2963 +UUUGAAGGGUAAAGGUUCUCAAC 23 6812 SCNN1A-2964 + CUUUGAAGGGUAAAGGUUCUCAAC24 6813 SCNN1A-2965 + GUCUGAGGAGAAGUCAAC 18 6814 SCNN1A-2966 +GGUCUGAGGAGAAGUCAAC 19 6815 SCNN1A-2967 + UGGUCUGAGGAGAAGUCAAC 20 6816SCNN1A-2968 + GUGGUCUGAGGAGAAGUCAAC 21 6817 SCNN1A-2969 +GGUGGUCUGAGGAGAAGUCAAC 22 6818 SCNN1A-2970 + AGGUGGUCUGAGGAGAAGUCAAC 236819 SCNN1A-2971 + CAGGUGGUCUGAGGAGAAGUCAAC 24 6820 SCNN1A-2972 +GCAGGAGUGAAUACACAC 18 6821 SCNN1A-2973 + AGCAGGAGUGAAUACACAC 19 6822SCNN1A-2974 + AAGCAGGAGUGAAUACACAC 20 6823 SCNN1A-2975 +GAAGCAGGAGUGAAUACACAC 21 6824 SCNN1A-2976 + GGAAGCAGGAGUGAAUACACAC 226825 SCNN1A-2977 + UGGAAGCAGGAGUGAAUACACAC 23 6826 SCNN1A-2978 +CUGGAAGCAGGAGUGAAUACACAC 24 6827 SCNN1A-2979 + CCAGUCCUUCCAGUCCAC 186828 SCNN1A-2980 + UCCAGUCCUUCCAGUCCAC 19 6829 SCNN1A-2981 +UUCCAGUCCUUCCAGUCCAC 20 6830 SCNN1A-2982 + CUUCCAGUCCUUCCAGUCCAC 21 6831SCNN1A-2983 + UCUUCCAGUCCUUCCAGUCCAC 22 6832 SCNN1A-2984 +AUCUUCCAGUCCUUCCAGUCCAC 23 6833 SCNN1A-2985 + GAUCUUCCAGUCCUUCCAGUCCAC24 6834 SCNN1A-2986 + UGGGACAAGGACAGAGAC 18 6835 SCNN1A-2987 +CUGGGACAAGGACAGAGAC 19 6836 SCNN1A-2988 + GCUGGGACAAGGACAGAGAC 20 6837SCNN1A-2989 + GGCUGGGACAAGGACAGAGAC 21 6838 SCNN1A-2990 +UGGCUGGGACAAGGACAGAGAC 22 6839 SCNN1A-2991 + CUGGCUGGGACAAGGACAGAGAC 236840 SCNN1A-2992 + CCUGGCUGGGACAAGGACAGAGAC 24 6841 SCNN1A-2993 +GCAGGGCCUGGCUGGGAC 18 6842 SCNN1A-2994 + AGCAGGGCCUGGCUGGGAC 19 6843SCNN1A-2995 + GAGCAGGGCCUGGCUGGGAC 20 6844 SCNN1A-2996 +GGAGCAGGGCCUGGCUGGGAC 21 6845 SCNN1A-2997 + GGGAGCAGGGCCUGGCUGGGAC 226846 SCNN1A-2998 + AGGGAGCAGGGCCUGGCUGGGAC 23 6847 SCNN1A-2999 +GAGGGAGCAGGGCCUGGCUGGGAC 24 6848 SCNN1A-3000 + UGGCUGCCCAGGUUGGAC 186849 SCNN1A-3001 + CUGGCUGCCCAGGUUGGAC 19 6850 SCNN1A-991 +ACUGGCUGCCCAGGUUGGAC 20 4840 SCNN1A-3002 + CACUGGCUGCCCAGGUUGGAC 21 6851SCNN1A-3003 + CCACUGGCUGCCCAGGUUGGAC 22 6852 SCNN1A-3004 +UCCACUGGCUGCCCAGGUUGGAC 23 6853 SCNN1A-3005 + CUCCACUGGCUGCCCAGGUUGGAC24 6854 SCNN1A-3006 + CCCUUCCCCACACUCUAC 18 6855 SCNN1A-3007 +UCCCUUCCCCACACUCUAC 19 6856 SCNN1A-3008 + AUCCCUUCCCCACACUCUAC 20 6857SCNN1A-3009 + CAUCCCUUCCCCACACUCUAC 21 6858 SCNN1A-3010 +CCAUCCCUUCCCCACACUCUAC 22 6859 SCNN1A-3011 + CCCAUCCCUUCCCCACACUCUAC 236860 SCNN1A-3012 + ACCCAUCCCUUCCCCACACUCUAC 24 6861 SCNN1A-3013 +UCUUUAAUUUCCGGGUAC 18 6862 SCNN1A-3014 + CUCUUUAAUUUCCGGGUAC 19 6863SCNN1A-3015 + CCUCUUUAAUUUCCGGGUAC 20 6864 SCNN1A-3016 +UCCUCUUUAAUUUCCGGGUAC 21 6865 SCNN1A-3017 + CUCCUCUUUAAUUUCCGGGUAC 226866 SCNN1A-3018 + GCUCCUCUUUAAUUUCCGGGUAC 23 6867 SCNN1A-3019 +AGCUCCUCUUUAAUUUCCGGGUAC 24 6868 SCNN1A-3020 + CUGCCCGUGCACCAUUAC 186869 SCNN1A-3021 + CCUGCCCGUGCACCAUUAC 19 6870 SCNN1A-3022 +UCCUGCCCGUGCACCAUUAC 20 6871 SCNN1A-3023 + AUCCUGCCCGUGCACCAUUAC 21 6872SCNN1A-3024 + CAUCCUGCCCGUGCACCAUUAC 22 6873 SCNN1A-3025 +UCAUCCUGCCCGUGCACCAUUAC 23 6874 SCNN1A-3026 + UUCAUCCUGCCCGUGCACCAUUAC24 6875 SCNN1A-3027 + UCUGAGGAGAAGUCAACC 18 6876 SCNN1A-3028 +GUCUGAGGAGAAGUCAACC 19 6877 SCNN1A-1000 + GGUCUGAGGAGAAGUCAACC 20 4849SCNN1A-3029 + UGGUCUGAGGAGAAGUCAACC 21 6878 SCNN1A-3030 +GUGGUCUGAGGAGAAGUCAACC 22 6879 SCNN1A-3031 + GGUGGUCUGAGGAGAAGUCAACC 236880 SCNN1A-3032 + AGGUGGUCUGAGGAGAAGUCAACC 24 6881 SCNN1A-3033 +UCCACCACAGACAACACC 18 6882 SCNN1A-3034 + CUCCACCACAGACAACACC 19 6883SCNN1A-3035 + UCUCCACCACAGACAACACC 20 6884 SCNN1A-3036 +AUCUCCACCACAGACAACACC 21 6885 SCNN1A-3037 + CAUCUCCACCACAGACAACACC 226886 SCNN1A-3038 + CCAUCUCCACCACAGACAACACC 23 6887 SCNN1A-3039 +GCCAUCUCCACCACAGACAACACC 24 6888 SCNN1A-3040 + CAGGAGUGAAUACACACC 186889 SCNN1A-3041 + GCAGGAGUGAAUACACACC 19 6890 SCNN1A-1002 +AGCAGGAGUGAAUACACACC 20 4851 SCNN1A-3042 + AAGCAGGAGUGAAUACACACC 21 6891SCNN1A-3043 + GAAGCAGGAGUGAAUACACACC 22 6892 SCNN1A-3044 +GGAAGCAGGAGUGAAUACACACC 23 6893 SCNN1A-3045 + UGGAAGCAGGAGUGAAUACACACC24 6894 SCNN1A-3046 + UAUGAACCCACAUACACC 18 6895 SCNN1A-3047 +CUAUGAACCCACAUACACC 19 6896 SCNN1A-3048 + CCUAUGAACCCACAUACACC 20 6897SCNN1A-3049 + UCCUAUGAACCCACAUACACC 21 6898 SCNN1A-3050 +UUCCUAUGAACCCACAUACACC 22 6899 SCNN1A-3051 + UUUCCUAUGAACCCACAUACACC 236900 SCNN1A-3052 + GUUUCCUAUGAACCCACAUACACC 24 6901 SCNN1A-3053 +CAGUCCUUCCAGUCCACC 18 6902 SCNN1A-3054 + CCAGUCCUUCCAGUCCACC 19 6903SCNN1A-1004 + UCCAGUCCUUCCAGUCCACC 20 4853 SCNN1A-3055 +UUCCAGUCCUUCCAGUCCACC 21 6904 SCNN1A-3056 + CUUCCAGUCCUUCCAGUCCACC 226905 SCNN1A-3057 + UCUUCCAGUCCUUCCAGUCCACC 23 6906 SCNN1A-3058 +AUCUUCCAGUCCUUCCAGUCCACC 24 6907 SCNN1A-3059 + UCUACCUGGGAUGUCACC 186908 SCNN1A-3060 + CUCUACCUGGGAUGUCACC 19 6909 SCNN1A-3061 +ACUCUACCUGGGAUGUCACC 20 6910 SCNN1A-3062 + CACUCUACCUGGGAUGUCACC 21 6911SCNN1A-3063 + ACACUCUACCUGGGAUGUCACC 22 6912 SCNN1A-3064 +CACACUCUACCUGGGAUGUCACC 23 6913 SCNN1A-3065 + CCACACUCUACCUGGGAUGUCACC24 6914 SCNN1A-3066 + CAGCAUCAGGGACAGACC 18 6915 SCNN1A-3067 +GCAGCAUCAGGGACAGACC 19 6916 SCNN1A-3068 + CGCAGCAUCAGGGACAGACC 20 6917SCNN1A-3069 + GCGCAGCAUCAGGGACAGACC 21 6918 SCNN1A-3070 +CGCGCAGCAUCAGGGACAGACC 22 6919 SCNN1A-3071 + GCGCGCAGCAUCAGGGACAGACC 236920 SCNN1A-3072 + UGCGCGCAGCAUCAGGGACAGACC 24 6921 SCNN1A-3073 +CUCCCUGGAGUCUCACCC 18 6922 SCNN1A-3074 + GCUCCCUGGAGUCUCACCC 19 6923SCNN1A-3075 + GGCUCCCUGGAGUCUCACCC 20 6924 SCNN1A-3076 +GGGCUCCCUGGAGUCUCACCC 21 6925 SCNN1A-3077 + GGGGCUCCCUGGAGUCUCACCC 226926 SCNN1A-3078 + GGGGGCUCCCUGGAGUCUCACCC 23 6927 SCNN1A-3079 +UGGGGGCUCCCUGGAGUCUCACCC 24 6928 SCNN1A-3080 + UCCCUGGAGUCUCACCCC 186929 SCNN1A-3081 + CUCCCUGGAGUCUCACCCC 19 6930 SCNN1A-1013 +GCUCCCUGGAGUCUCACCCC 20 4862 SCNN1A-3082 + GGCUCCCUGGAGUCUCACCCC 21 6931SCNN1A-3083 + GGGCUCCCUGGAGUCUCACCCC 22 6932 SCNN1A-3084 +GGGGCUCCCUGGAGUCUCACCCC 23 6933 SCNN1A-3085 + GGGGGCUCCCUGGAGUCUCACCCC24 6934 SCNN1A-3086 + UCCCUCUCAGGGCCCCCC 18 6935 SCNN1A-3087 +UUCCCUCUCAGGGCCCCCC 19 6936 SCNN1A-3088 + CUUCCCUCUCAGGGCCCCCC 20 6937SCNN1A-3089 + CCUUCCCUCUCAGGGCCCCCC 21 6938 SCNN1A-3090 +UCCUUCCCUCUCAGGGCCCCCC 22 6939 SCNN1A-3091 + CUCCUUCCCUCUCAGGGCCCCCC 236940 SCNN1A-3092 + UCUCCUUCCCUCUCAGGGCCCCCC 24 6941 SCNN1A-3093 +GGCCCCUGCAGAGCCCCC 18 6942 SCNN1A-3094 + UGGCCCCUGCAGAGCCCCC 19 6943SCNN1A-1015 + CUGGCCCCUGCAGAGCCCCC 20 4864 SCNN1A-3095 +ACUGGCCCCUGCAGAGCCCCC 21 6944 SCNN1A-3096 + AACUGGCCCCUGCAGAGCCCCC 226945 SCNN1A-3097 + GAACUGGCCCCUGCAGAGCCCCC 23 6946 SCNN1A-3098 +GGAACUGGCCCCUGCAGAGCCCCC 24 6947 SCNN1A-3099 + UGGCCCCUGCAGAGCCCC 186948 SCNN1A-3100 + CUGGCCCCUGCAGAGCCCC 19 6949 SCNN1A-3101 +ACUGGCCCCUGCAGAGCCCC 20 6950 SCNN1A-3102 + AACUGGCCCCUGCAGAGCCCC 21 6951SCNN1A-3103 + GAACUGGCCCCUGCAGAGCCCC 22 6952 SCNN1A-3104 +GGAACUGGCCCCUGCAGAGCCCC 23 6953 SCNN1A-3105 + AGGAACUGGCCCCUGCAGAGCCCC24 6954 SCNN1A-3106 + ACGGGCUCGACGGGCCCC 18 6955 SCNN1A-3107 +UACGGGCUCGACGGGCCCC 19 6956 SCNN1A-3108 + CUACGGGCUCGACGGGCCCC 20 6957SCNN1A-3109 + GCUACGGGCUCGACGGGCCCC 21 6958 SCNN1A-3110 +CGCUACGGGCUCGACGGGCCCC 22 6959 SCNN1A-3111 + ACGCUACGGGCUCGACGGGCCCC 236960 SCNN1A-3112 + CACGCUACGGGCUCGACGGGCCCC 24 6961 SCNN1A-3113 +CGGCUGCGGGAGCCGGCC 18 6962 SCNN1A-3114 + ACGGCUGCGGGAGCCGGCC 19 6963SCNN1A-3115 + GACGGCUGCGGGAGCCGGCC 20 6964 SCNN1A-3116 +CGACGGCUGCGGGAGCCGGCC 21 6965 SCNN1A-3117 + GCGACGGCUGCGGGAGCCGGCC 226966 SCNN1A-3118 + CGCGACGGCUGCGGGAGCCGGCC 23 6967 SCNN1A-3119 +UCGCGACGGCUGCGGGAGCCGGCC 24 6968 SCNN1A-3120 + ACCCCUGCCCCCUCGGCC 186969 SCNN1A-3121 + CACCCCUGCCCCCUCGGCC 19 6970 SCNN1A-1030 +GCACCCCUGCCCCCUCGGCC 20 4879 SCNN1A-3122 + AGCACCCCUGCCCCCUCGGCC 21 6971SCNN1A-3123 + GAGCACCCCUGCCCCCUCGGCC 22 6972 SCNN1A-3124 +UGAGCACCCCUGCCCCCUCGGCC 23 6973 SCNN1A-3125 + CUGAGCACCCCUGCCCCCUCGGCC24 6974 SCNN1A-3126 + GUUUUGUAGUUCAGCUCC 18 6975 SCNN1A-3127 +GGUUUUGUAGUUCAGCUCC 19 6976 SCNN1A-3128 + UGGUUUUGUAGUUCAGCUCC 20 6977SCNN1A-3129 + UUGGUUUUGUAGUUCAGCUCC 21 6978 SCNN1A-3130 +AUUGGUUUUGUAGUUCAGCUCC 22 6979 SCNN1A-3131 + AAUUGGUUUUGUAGUUCAGCUCC 236980 SCNN1A-3132 + GAAUUGGUUUUGUAGUUCAGCUCC 24 6981 SCNN1A-3133 +UCCUUGAUCAUGCUCUCC 18 6982 SCNN1A-3134 + CUCCUUGAUCAUGCUCUCC 19 6983SCNN1A-1041 + ACUCCUUGAUCAUGCUCUCC 20 4890 SCNN1A-3135 +CACUCCUUGAUCAUGCUCUCC 21 6984 SCNN1A-3136 + ACACUCCUUGAUCAUGCUCUCC 226985 SCNN1A-3137 + CACACUCCUUGAUCAUGCUCUCC 23 6986 SCNN1A-3138 +CCACACUCCUUGAUCAUGCUCUCC 24 6987 SCNN1A-3139 + AUCUGGAAGACCCAUUCC 186988 SCNN1A-3140 + CAUCUGGAAGACCCAUUCC 19 6989 SCNN1A-3141 +GCAUCUGGAAGACCCAUUCC 20 6990 SCNN1A-3142 + AGCAUCUGGAAGACCCAUUCC 21 6991SCNN1A-3143 + UAGCAUCUGGAAGACCCAUUCC 22 6992 SCNN1A-3144 +AUAGCAUCUGGAAGACCCAUUCC 23 6993 SCNN1A-3145 + GAUAGCAUCUGGAAGACCCAUUCC24 6994 SCNN1A-3146 + GGGCGCCAUGGAGCAAGC 18 6995 SCNN1A-3147 +AGGGCGCCAUGGAGCAAGC 19 6996 SCNN1A-1049 + GAGGGCGCCAUGGAGCAAGC 20 4898SCNN1A-3148 + AGAGGGCGCCAUGGAGCAAGC 21 6997 SCNN1A-3149 +CAGAGGGCGCCAUGGAGCAAGC 22 6998 SCNN1A-3150 + GCAGAGGGCGCCAUGGAGCAAGC 236999 SCNN1A-3151 + AGCAGAGGGCGCCAUGGAGCAAGC 24 7000 SCNN1A-3152 +GGUUGUUGUCCCGCAAGC 18 7001 SCNN1A-3153 + GGGUUGUUGUCCCGCAAGC 19 7002SCNN1A-1050 + GGGGUUGUUGUCCCGCAAGC 20 4899 SCNN1A-3154 +GGGGGUUGUUGUCCCGCAAGC 21 7003 SCNN1A-3155 + UGGGGGUUGUUGUCCCGCAAGC 227004 SCNN1A-3156 + CUGGGGGUUGUUGUCCCGCAAGC 23 7005 SCNN1A-3157 +CCUGGGGGUUGUUGUCCCGCAAGC 24 7006 SCNN1A-3158 + CCAGUCACUGUGGACAGC 187007 SCNN1A-3159 + CCCAGUCACUGUGGACAGC 19 7008 SCNN1A-1053 +CCCCAGUCACUGUGGACAGC 20 4902 SCNN1A-3160 + GCCCCAGUCACUGUGGACAGC 21 7009SCNN1A-3161 + GGCCCCAGUCACUGUGGACAGC 22 7010 SCNN1A-3162 +GGGCCCCAGUCACUGUGGACAGC 23 7011 SCNN1A-3163 + CGGGCCCCAGUCACUGUGGACAGC24 7012 SCNN1A-3164 + GCUGCGGGCCUCACCAGC 18 7013 SCNN1A-3165 +CGCUGCGGGCCUCACCAGC 19 7014 SCNN1A-1054 + GCGCUGCGGGCCUCACCAGC 20 4903SCNN1A-3166 + GGCGCUGCGGGCCUCACCAGC 21 7015 SCNN1A-3167 +CGGCGCUGCGGGCCUCACCAGC 22 7016 SCNN1A-3168 + UCGGCGCUGCGGGCCUCACCAGC 237017 SCNN1A-3169 + CUCGGCGCUGCGGGCCUCACCAGC 24 7018 SCNN1A-3170 +CGGAACCUUCGGAGCAGC 18 7019 SCNN1A-3171 + UCGGAACCUUCGGAGCAGC 19 7020SCNN1A-3172 + UUCGGAACCUUCGGAGCAGC 20 7021 SCNN1A-3173 +CUUCGGAACCUUCGGAGCAGC 21 7022 SCNN1A-3174 + GCUUCGGAACCUUCGGAGCAGC 227023 SCNN1A-3175 + GGCUUCGGAACCUUCGGAGCAGC 23 7024 SCNN1A-3176 +CGGCUUCGGAACCUUCGGAGCAGC 24 7025 SCNN1A-3177 + GCUGGUAGCUGGUCACGC 187026 SCNN1A-3178 + AGCUGGUAGCUGGUCACGC 19 7027 SCNN1A-1064 +GAGCUGGUAGCUGGUCACGC 20 4913 SCNN1A-3179 + AGAGCUGGUAGCUGGUCACGC 21 7028SCNN1A-3180 + GAGAGCUGGUAGCUGGUCACGC 22 7029 SCNN1A-3181 +AGAGAGCUGGUAGCUGGUCACGC 23 7030 SCNN1A-3182 + CAGAGAGCUGGUAGCUGGUCACGC24 7031 SCNN1A-3183 + GGGAGGGGCUGUCAAGGC 18 7032 SCNN1A-3184 +GGGGAGGGGCUGUCAAGGC 19 7033 SCNN1A-1067 + GGGGGAGGGGCUGUCAAGGC 20 4916SCNN1A-3185 + AGGGGGAGGGGCUGUCAAGGC 21 7034 SCNN1A-3186 +CAGGGGGAGGGGCUGUCAAGGC 22 7035 SCNN1A-3187 + GCAGGGGGAGGGGCUGUCAAGGC 237036 SCNN1A-3188 + GGCAGGGGGAGGGGCUGUCAAGGC 24 7037 SCNN1A-3189 +CCGUUGUUGAUUCCAGGC 18 7038 SCNN1A-3190 + ACCGUUGUUGAUUCCAGGC 19 7039SCNN1A-3191 + CACCGUUGUUGAUUCCAGGC 20 7040 SCNN1A-3192 +UCACCGUUGUUGAUUCCAGGC 21 7041 SCNN1A-3193 + CUCACCGUUGUUGAUUCCAGGC 227042 SCNN1A-3194 + UCUCACCGUUGUUGAUUCCAGGC 23 7043 SCNN1A-3195 +UUCUCACCGUUGUUGAUUCCAGGC 24 7044 SCNN1A-3196 + CGACGGGCCCCGUGAGGC 187045 SCNN1A-3197 + UCGACGGGCCCCGUGAGGC 19 7046 SCNN1A-1068 +CUCGACGGGCCCCGUGAGGC 20 4917 SCNN1A-3198 + GCUCGACGGGCCCCGUGAGGC 21 7047SCNN1A-3199 + GGCUCGACGGGCCCCGUGAGGC 22 7048 SCNN1A-3200 +GGGCUCGACGGGCCCCGUGAGGC 23 7049 SCNN1A-3201 + CGGGCUCGACGGGCCCCGUGAGGC24 7050 SCNN1A-3202 + GCCCAGGGUGGCAUAGGC 18 7051 SCNN1A-3203 +GGCCCAGGGUGGCAUAGGC 19 7052 SCNN1A-1069 + GGGCCCAGGGUGGCAUAGGC 20 4918SCNN1A-3204 + GGGGCCCAGGGUGGCAUAGGC 21 7053 SCNN1A-3205 +GGGGGCCCAGGGUGGCAUAGGC 22 7054 SCNN1A-3206 + CGGGGGCCCAGGGUGGCAUAGGC 237055 SCNN1A-3207 + GCGGGGGCCCAGGGUGGCAUAGGC 24 7056 SCNN1A-3208 +CACCCCUGCCCCCUCGGC 18 7057 SCNN1A-3209 + GCACCCCUGCCCCCUCGGC 19 7058SCNN1A-3210 + AGCACCCCUGCCCCCUCGGC 20 7059 SCNN1A-3211 +GAGCACCCCUGCCCCCUCGGC 21 7060 SCNN1A-3212 + UGAGCACCCCUGCCCCCUCGGC 227061 SCNN1A-3213 + CUGAGCACCCCUGCCCCCUCGGC 23 7062 SCNN1A-3214 +CCUGAGCACCCCUGCCCCCUCGGC 24 7063 SCNN1A-3215 + CCGGGUACCUGAAGGGGC 187064 SCNN1A-3216 + UCCGGGUACCUGAAGGGGC 19 7065 SCNN1A-3217 +UUCCGGGUACCUGAAGGGGC 20 7066 SCNN1A-3218 + UUUCCGGGUACCUGAAGGGGC 21 7067SCNN1A-3219 + AUUUCCGGGUACCUGAAGGGGC 22 7068 SCNN1A-3220 +AAUUUCCGGGUACCUGAAGGGGC 23 7069 SCNN1A-3221 + UAAUUUCCGGGUACCUGAAGGGGC24 7070 SCNN1A-3222 + AGCCCCCUGGAGAUGGGC 18 7071 SCNN1A-3223 +GAGCCCCCUGGAGAUGGGC 19 7072 SCNN1A-1075 + AGAGCCCCCUGGAGAUGGGC 20 4924SCNN1A-3224 + CAGAGCCCCCUGGAGAUGGGC 21 7073 SCNN1A-3225 +GCAGAGCCCCCUGGAGAUGGGC 22 7074 SCNN1A-3226 + UGCAGAGCCCCCUGGAGAUGGGC 237075 SCNN1A-3227 + CUGCAGAGCCCCCUGGAGAUGGGC 24 7076 SCNN1A-3228 +GAGGGAGCAGGGCCUGGC 18 7077 SCNN1A-3229 + AGAGGGAGCAGGGCCUGGC 19 7078SCNN1A-1076 + GAGAGGGAGCAGGGCCUGGC 20 4925 SCNN1A-3230 +GGAGAGGGAGCAGGGCCUGGC 21 7079 SCNN1A-3231 + UGGAGAGGGAGCAGGGCCUGGC 227080 SCNN1A-3232 + CUGGAGAGGGAGCAGGGCCUGGC 23 7081 SCNN1A-3233 +GCUGGAGAGGGAGCAGGGCCUGGC 24 7082 SCNN1A-3234 + GGGACCCUCAGGCGCUGC 187083 SCNN1A-3235 + CGGGACCCUCAGGCGCUGC 19 7084 SCNN1A-3236 +GCGGGACCCUCAGGCGCUGC 20 7085 SCNN1A-3237 + GGCGGGACCCUCAGGCGCUGC 21 7086SCNN1A-3238 + GGGCGGGACCCUCAGGCGCUGC 22 7087 SCNN1A-3239 +GGGGCGGGACCCUCAGGCGCUGC 23 7088 SCNN1A-3240 + GGGGGCGGGACCCUCAGGCGCUGC24 7089 SCNN1A-3241 + GCAGGUCGCGACGGCUGC 18 7090 SCNN1A-3242 +CGCAGGUCGCGACGGCUGC 19 7091 SCNN1A-1082 + CCGCAGGUCGCGACGGCUGC 20 4931SCNN1A-3243 + CCCGCAGGUCGCGACGGCUGC 21 7092 SCNN1A-3244 +CCCCGCAGGUCGCGACGGCUGC 22 7093 SCNN1A-3245 + CCCCCGCAGGUCGCGACGGCUGC 237094 SCNN1A-3246 + UCCCCCGCAGGUCGCGACGGCUGC 24 7095 SCNN1A-3247 +UGACUCACGCCUGGUUGC 18 7096 SCNN1A-3248 + CUGACUCACGCCUGGUUGC 19 7097SCNN1A-1087 + ACUGACUCACGCCUGGUUGC 20 4936 SCNN1A-3249 +GACUGACUCACGCCUGGUUGC 21 7098 SCNN1A-3250 + GGACUGACUCACGCCUGGUUGC 227099 SCNN1A-3251 + AGGACUGACUCACGCCUGGUUGC 23 7100 SCNN1A-3252 +CAGGACUGACUCACGCCUGGUUGC 24 7101 SCNN1A-3253 + CCAGGCAUGGAAGACAUC 187102 SCNN1A-3254 + UCCAGGCAUGGAAGACAUC 19 7103 SCNN1A-3255 +UUCCAGGCAUGGAAGACAUC 20 7104 SCNN1A-3256 + AUUCCAGGCAUGGAAGACAUC 21 7105SCNN1A-3257 + GAUUCCAGGCAUGGAAGACAUC 22 7106 SCNN1A-3258 +UGAUUCCAGGCAUGGAAGACAUC 23 7107 SCNN1A-3259 + UUGAUUCCAGGCAUGGAAGACAUC24 7108 SCNN1A-3260 + UGCUCUGCGCGCAGCAUC 18 7109 SCNN1A-3261 +CUGCUCUGCGCGCAGCAUC 19 7110 SCNN1A-1089 + UCUGCUCUGCGCGCAGCAUC 20 4938SCNN1A-3262 + UUCUGCUCUGCGCGCAGCAUC 21 7111 SCNN1A-3263 +AUUCUGCUCUGCGCGCAGCAUC 22 7112 SCNN1A-3264 + CAUUCUGCUCUGCGCGCAGCAUC 237113 SCNN1A-3265 + UCAUUCUGCUCUGCGCGCAGCAUC 24 7114 SCNN1A-3266 +UUCUGUCGCGAUAGCAUC 18 7115 SCNN1A-3267 + GUUCUGUCGCGAUAGCAUC 19 7116SCNN1A-1090 + UGUUCUGUCGCGAUAGCAUC 20 4939 SCNN1A-3268 +UUGUUCUGUCGCGAUAGCAUC 21 7117 SCNN1A-3269 + AUUGUUCUGUCGCGAUAGCAUC 227118 SCNN1A-3270 + AAUUGUUCUGUCGCGAUAGCAUC 23 7119 SCNN1A-3271 +UAAUUGUUCUGUCGCGAUAGCAUC 24 7120 SCNN1A-3272 + UGAGAGUAAUUCCUUAUC 187121 SCNN1A-3273 + GUGAGAGUAAUUCCUUAUC 19 7122 SCNN1A-1092 +AGUGAGAGUAAUUCCUUAUC 20 4941 SCNN1A-3274 + AAGUGAGAGUAAUUCCUUAUC 21 7123SCNN1A-3275 + GAAGUGAGAGUAAUUCCUUAUC 22 7124 SCNN1A-3276 +GGAAGUGAGAGUAAUUCCUUAUC 23 7125 SCNN1A-3277 + UGGAAGUGAGAGUAAUUCCUUAUC24 7126 SCNN1A-3278 + CAGGGUGGAGGCUACCUC 18 7127 SCNN1A-3279 +CCAGGGUGGAGGCUACCUC 19 7128 SCNN1A-3280 + GCCAGGGUGGAGGCUACCUC 20 7129SCNN1A-3281 + UGCCAGGGUGGAGGCUACCUC 21 7130 SCNN1A-3282 +AUGCCAGGGUGGAGGCUACCUC 22 7131 SCNN1A-3283 + GAUGCCAGGGUGGAGGCUACCUC 237132 SCNN1A-3284 + GGAUGCCAGGGUGGAGGCUACCUC 24 7133 SCNN1A-3285 +GCCCAGCGUGUCCUCCUC 18 7134 SCNN1A-3286 + UGCCCAGCGUGUCCUCCUC 19 7135SCNN1A-3287 + UUGCCCAGCGUGUCCUCCUC 20 7136 SCNN1A-3288 +GUUGCCCAGCGUGUCCUCCUC 21 7137 SCNN1A-3289 + AGUUGCCCAGCGUGUCCUCCUC 227138 SCNN1A-3290 + AAGUUGCCCAGCGUGUCCUCCUC 23 7139 SCNN1A-3291 +GAAGUUGCCCAGCGUGUCCUCCUC 24 7140 SCNN1A-3292 + CUCCUUGAUCAUGCUCUC 187141 SCNN1A-3293 + ACUCCUUGAUCAUGCUCUC 19 7142 SCNN1A-3294 +CACUCCUUGAUCAUGCUCUC 20 7143 SCNN1A-3295 + ACACUCCUUGAUCAUGCUCUC 21 7144SCNN1A-3296 + CACACUCCUUGAUCAUGCUCUC 22 7145 SCNN1A-3297 +CCACACUCCUUGAUCAUGCUCUC 23 7146 SCNN1A-3298 + GCCACACUCCUUGAUCAUGCUCUC24 7147 SCNN1A-3299 + UCACAGUACUCCACGUUC 18 7148 SCNN1A-3300 +GUCACAGUACUCCACGUUC 19 7149 SCNN1A-1103 + AGUCACAGUACUCCACGUUC 20 4952SCNN1A-3301 + UAGUCACAGUACUCCACGUUC 21 7150 SCNN1A-3302 +GUAGUCACAGUACUCCACGUUC 22 7151 SCNN1A-3303 + UGUAGUCACAGUACUCCACGUUC 237152 SCNN1A-3304 + CUGUAGUCACAGUACUCCACGUUC 24 7153 SCNN1A-3305 +AUGACCAGCAGGUCAAAG 18 7154 SCNN1A-3306 + GAUGACCAGCAGGUCAAAG 19 7155SCNN1A-3307 + UGAUGACCAGCAGGUCAAAG 20 7156 SCNN1A-3308 +AUGAUGACCAGCAGGUCAAAG 21 7157 SCNN1A-3309 + CAUGAUGACCAGCAGGUCAAAG 227158 SCNN1A-3310 + ACAUGAUGACCAGCAGGUCAAAG 23 7159 SCNN1A-3311 +AACAUGAUGACCAGCAGGUCAAAG 24 7160 SCNN1A-3312 + AGGGCGCCAUGGAGCAAG 187161 SCNN1A-3313 + GAGGGCGCCAUGGAGCAAG 19 7162 SCNN1A-3314 +AGAGGGCGCCAUGGAGCAAG 20 7163 SCNN1A-3315 + CAGAGGGCGCCAUGGAGCAAG 21 7164SCNN1A-3316 + GCAGAGGGCGCCAUGGAGCAAG 22 7165 SCNN1A-3317 +AGCAGAGGGCGCCAUGGAGCAAG 23 7166 SCNN1A-3318 + AAGCAGAGGGCGCCAUGGAGCAAG24 7167 SCNN1A-3319 + GGGUUGUUGUCCCGCAAG 18 7168 SCNN1A-3320 +GGGGUUGUUGUCCCGCAAG 19 7169 SCNN1A-3321 + GGGGGUUGUUGUCCCGCAAG 20 7170SCNN1A-3322 + UGGGGGUUGUUGUCCCGCAAG 21 7171 SCNN1A-3323 +CUGGGGGUUGUUGUCCCGCAAG 22 7172 SCNN1A-3324 + CCUGGGGGUUGUUGUCCCGCAAG 237173 SCNN1A-3325 + ACCUGGGGGUUGUUGUCCCGCAAG 24 7174 SCNN1A-3326 +AUGGGGUGGGGGCAGAAG 18 7175 SCNN1A-3327 + CAUGGGGUGGGGGCAGAAG 19 7176SCNN1A-1109 + ACAUGGGGUGGGGGCAGAAG 20 4958 SCNN1A-3328 +GACAUGGGGUGGGGGCAGAAG 21 7177 SCNN1A-3329 + AGACAUGGGGUGGGGGCAGAAG 227178 SCNN1A-3330 + GAGACAUGGGGUGGGGGCAGAAG 23 7179 SCNN1A-3331 +AGAGACAUGGGGUGGGGGCAGAAG 24 7180 SCNN1A-3332 + UUGAAGCGGCAGGCGAAG 187181 SCNN1A-3333 + GUUGAAGCGGCAGGCGAAG 19 7182 SCNN1A-3334 +GGUUGAAGCGGCAGGCGAAG 20 7183 SCNN1A-3335 + UGGUUGAAGCGGCAGGCGAAG 21 7184SCNN1A-3336 + CUGGUUGAAGCGGCAGGCGAAG 22 7185 SCNN1A-3337 +CCUGGUUGAAGCGGCAGGCGAAG 23 7186 SCNN1A-3338 + ACCUGGUUGAAGCGGCAGGCGAAG24 7187 SCNN1A-3339 + GGGGGCAGAAGUGGGAAG 18 7188 SCNN1A-3340 +UGGGGGCAGAAGUGGGAAG 19 7189 SCNN1A-3341 + GUGGGGGCAGAAGUGGGAAG 20 7190SCNN1A-3342 + GGUGGGGGCAGAAGUGGGAAG 21 7191 SCNN1A-3343 +GGGUGGGGGCAGAAGUGGGAAG 22 7192 SCNN1A-3344 + GGGGUGGGGGCAGAAGUGGGAAG 237193 SCNN1A-3345 + UGGGGUGGGGGCAGAAGUGGGAAG 24 7194 SCNN1A-3346 +AUCAUGCUCUCCUGGAAG 18 7195 SCNN1A-3347 + GAUCAUGCUCUCCUGGAAG 19 7196SCNN1A-3348 + UGAUCAUGCUCUCCUGGAAG 20 7197 SCNN1A-3349 +UUGAUCAUGCUCUCCUGGAAG 21 7198 SCNN1A-3350 + CUUGAUCAUGCUCUCCUGGAAG 227199 SCNN1A-3351 + CCUUGAUCAUGCUCUCCUGGAAG 23 7200 SCNN1A-3352 +UCCUUGAUCAUGCUCUCCUGGAAG 24 7201 SCNN1A-3353 + GGCCCCCCCAGAGGACAG 187202 SCNN1A-3354 + GGGCCCCCCCAGAGGACAG 19 7203 SCNN1A-3355 +AGGGCCCCCCCAGAGGACAG 20 7204 SCNN1A-3356 + CAGGGCCCCCCCAGAGGACAG 21 7205SCNN1A-3357 + UCAGGGCCCCCCCAGAGGACAG 22 7206 SCNN1A-3358 +CUCAGGGCCCCCCCAGAGGACAG 23 7207 SCNN1A-3359 + UCUCAGGGCCCCCCCAGAGGACAG24 7208 SCNN1A-3360 + CCCAGUCACUGUGGACAG 18 7209 SCNN1A-3361 +CCCCAGUCACUGUGGACAG 19 7210 SCNN1A-3362 + GCCCCAGUCACUGUGGACAG 20 7211SCNN1A-3363 + GGCCCCAGUCACUGUGGACAG 21 7212 SCNN1A-3364 +GGGCCCCAGUCACUGUGGACAG 22 7213 SCNN1A-3365 + CGGGCCCCAGUCACUGUGGACAG 237214 SCNN1A-3366 + CCGGGCCCCAGUCACUGUGGACAG 24 7215 SCNN1A-3367 +CACGACCUACCGUGACAG 18 7216 SCNN1A-3368 + GCACGACCUACCGUGACAG 19 7217SCNN1A-1114 + GGCACGACCUACCGUGACAG 20 4963 SCNN1A-3369 +AGGCACGACCUACCGUGACAG 21 7218 SCNN1A-3370 + CAGGCACGACCUACCGUGACAG 227219 SCNN1A-3371 + CCAGGCACGACCUACCGUGACAG 23 7220 SCNN1A-3372 +UCCAGGCACGACCUACCGUGACAG 24 7221 SCNN1A-3373 + GCCAUCGUGAGUAACCAG 187222 SCNN1A-3374 + GGCCAUCGUGAGUAACCAG 19 7223 SCNN1A-3375 +GGGCCAUCGUGAGUAACCAG 20 7224 SCNN1A-3376 + AGGGCCAUCGUGAGUAACCAG 21 7225SCNN1A-3377 + GAGGGCCAUCGUGAGUAACCAG 22 7226 SCNN1A-3378 +CGAGGGCCAUCGUGAGUAACCAG 23 7227 SCNN1A-3379 + CCGAGGGCCAUCGUGAGUAACCAG24 7228 SCNN1A-3380 + CGCUGCGGGCCUCACCAG 18 7229 SCNN1A-3381 +GCGCUGCGGGCCUCACCAG 19 7230 SCNN1A-3382 + GGCGCUGCGGGCCUCACCAG 20 7231SCNN1A-3383 + CGGCGCUGCGGGCCUCACCAG 21 7232 SCNN1A-3384 +UCGGCGCUGCGGGCCUCACCAG 22 7233 SCNN1A-3385 + CUCGGCGCUGCGGGCCUCACCAG 237234 SCNN1A-3386 + CCUCGGCGCUGCGGGCCUCACCAG 24 7235 SCNN1A-3387 +CCAGGGUGGCAUAGGCAG 18 7236 SCNN1A-3388 + CCCAGGGUGGCAUAGGCAG 19 7237SCNN1A-1120 + GCCCAGGGUGGCAUAGGCAG 20 4969 SCNN1A-3389 +GGCCCAGGGUGGCAUAGGCAG 21 7238 SCNN1A-3390 + GGGCCCAGGGUGGCAUAGGCAG 227239 SCNN1A-3391 + GGGGCCCAGGGUGGCAUAGGCAG 23 7240 SCNN1A-3392 +GGGGGCCCAGGGUGGCAUAGGCAG 24 7241 SCNN1A-3393 + ACCUGGUUGAAGCGGCAG 187242 SCNN1A-3394 + GACCUGGUUGAAGCGGCAG 19 7243 SCNN1A-3395 +AGACCUGGUUGAAGCGGCAG 20 7244 SCNN1A-3396 + GAGACCUGGUUGAAGCGGCAG 21 7245SCNN1A-3397 + GGAGACCUGGUUGAAGCGGCAG 22 7246 SCNN1A-3398 +AGGAGACCUGGUUGAAGCGGCAG 23 7247 SCNN1A-3399 + CAGGAGACCUGGUUGAAGCGGCAG24 7248 SCNN1A-3400 + CACAGAGACUAGAGUCAG 18 7249 SCNN1A-3401 +ACACAGAGACUAGAGUCAG 19 7250 SCNN1A-1125 + GACACAGAGACUAGAGUCAG 20 4974SCNN1A-3402 + GGACACAGAGACUAGAGUCAG 21 7251 SCNN1A-3403 +UGGACACAGAGACUAGAGUCAG 22 7252 SCNN1A-3404 + CUGGACACAGAGACUAGAGUCAG 237253 SCNN1A-3405 + ACUGGACACAGAGACUAGAGUCAG 24 7254 SCNN1A-3406 +AGGGAGGAGGGUGGAGAG 18 7255 SCNN1A-3407 + AAGGGAGGAGGGUGGAGAG 19 7256SCNN1A-3408 + GAAGGGAGGAGGGUGGAGAG 20 7257 SCNN1A-3409 +GGAAGGGAGGAGGGUGGAGAG 21 7258 SCNN1A-3410 + UGGAAGGGAGGAGGGUGGAGAG 227259 SCNN1A-3411 + CUGGAAGGGAGGAGGGUGGAGAG 23 7260 SCNN1A-3412 +CCUGGAAGGGAGGAGGGUGGAGAG 24 7261 SCNN1A-3413 + GGUGACCAUCUGUGAGAG 187262 SCNN1A-3414 + GGGUGACCAUCUGUGAGAG 19 7263 SCNN1A-3415 +AGGGUGACCAUCUGUGAGAG 20 7264 SCNN1A-3416 + GAGGGUGACCAUCUGUGAGAG 21 7265SCNN1A-3417 + GGAGGGUGACCAUCUGUGAGAG 22 7266 SCNN1A-3418 +AGGAGGGUGACCAUCUGUGAGAG 23 7267 SCNN1A-3419 + CAGGAGGGUGACCAUCUGUGAGAG24 7268 SCNN1A-3420 + GGUACCUGAAGGGGCGAG 18 7269 SCNN1A-3421 +GGGUACCUGAAGGGGCGAG 19 7270 SCNN1A-1130 + CGGGUACCUGAAGGGGCGAG 20 4979SCNN1A-3422 + CCGGGUACCUGAAGGGGCGAG 21 7271 SCNN1A-3423 +UCCGGGUACCUGAAGGGGCGAG 22 7272 SCNN1A-3424 + UUCCGGGUACCUGAAGGGGCGAG 237273 SCNN1A-3425 + UUUCCGGGUACCUGAAGGGGCGAG 24 7274 SCNN1A-3426 +GGCAGAAGUGGGAAGGAG 18 7275 SCNN1A-3427 + GGGCAGAAGUGGGAAGGAG 19 7276SCNN1A-1132 + GGGGCAGAAGUGGGAAGGAG 20 4981 SCNN1A-3428 +GGGGGCAGAAGUGGGAAGGAG 21 7277 SCNN1A-3429 + UGGGGGCAGAAGUGGGAAGGAG 227278 SCNN1A-3430 + GUGGGGGCAGAAGUGGGAAGGAG 23 7279 SCNN1A-3431 +GGUGGGGGCAGAAGUGGGAAGGAG 24 7280 SCNN1A-3432 + ACAGACAACACCGAGGAG 187281 SCNN1A-3433 + CACAGACAACACCGAGGAG 19 7282 SCNN1A-3434 +CCACAGACAACACCGAGGAG 20 7283 SCNN1A-3435 + ACCACAGACAACACCGAGGAG 21 7284SCNN1A-3436 + CACCACAGACAACACCGAGGAG 22 7285 SCNN1A-3437 +CCACCACAGACAACACCGAGGAG 23 7286 SCNN1A-3438 + UCCACCACAGACAACACCGAGGAG24 7287 SCNN1A-3439 + UCAAGGCUGGAGAGGGAG 18 7288 SCNN1A-3440 +GUCAAGGCUGGAGAGGGAG 19 7289 SCNN1A-3441 + UGUCAAGGCUGGAGAGGGAG 20 7290SCNN1A-3442 + CUGUCAAGGCUGGAGAGGGAG 21 7291 SCNN1A-3443 +GCUGUCAAGGCUGGAGAGGGAG 22 7292 SCNN1A-3444 + GGCUGUCAAGGCUGGAGAGGGAG 237293 SCNN1A-3445 + GGGCUGUCAAGGCUGGAGAGGGAG 24 7294 SCNN1A-3446 +CUGCAGAGCCCCCUGGAG 18 7295 SCNN1A-3447 + CCUGCAGAGCCCCCUGGAG 19 7296SCNN1A-3448 + CCCUGCAGAGCCCCCUGGAG 20 7297 SCNN1A-3449 +CCCCUGCAGAGCCCCCUGGAG 21 7298 SCNN1A-3450 + GCCCCUGCAGAGCCCCCUGGAG 227299 SCNN1A-3451 + GGCCCCUGCAGAGCCCCCUGGAG 23 7300 SCNN1A-3452 +UGGCCCCUGCAGAGCCCCCUGGAG 24 7301 SCNN1A-3453 + GGGCUGUCAAGGCUGGAG 187302 SCNN1A-3454 + GGGGCUGUCAAGGCUGGAG 19 7303 SCNN1A-1138 +AGGGGCUGUCAAGGCUGGAG 20 4987 SCNN1A-3455 + GAGGGGCUGUCAAGGCUGGAG 21 7304SCNN1A-3456 + GGAGGGGCUGUCAAGGCUGGAG 22 7305 SCNN1A-3457 +GGGAGGGGCUGUCAAGGCUGGAG 23 7306 SCNN1A-3458 + GGGGAGGGGCUGUCAAGGCUGGAG24 7307 SCNN1A-3459 + GAAGGGAGGAGGGUGGAG 18 7308 SCNN1A-3460 +GGAAGGGAGGAGGGUGGAG 19 7309 SCNN1A-1139 + UGGAAGGGAGGAGGGUGGAG 20 4988SCNN1A-3461 + CUGGAAGGGAGGAGGGUGGAG 21 7310 SCNN1A-3462 +CCUGGAAGGGAGGAGGGUGGAG 22 7311 SCNN1A-3463 + ACCUGGAAGGGAGGAGGGUGGAG 237312 SCNN1A-3464 + CACCUGGAAGGGAGGAGGGUGGAG 24 7313 SCNN1A-3465 +CAGCCCAGGUGGUCUGAG 18 7314 SCNN1A-3466 + ACAGCCCAGGUGGUCUGAG 19 7315SCNN1A-3467 + AACAGCCCAGGUGGUCUGAG 20 7316 SCNN1A-3468 +AAACAGCCCAGGUGGUCUGAG 21 7317 SCNN1A-3469 + GAAACAGCCCAGGUGGUCUGAG 227318 SCNN1A-3470 + UGAAACAGCCCAGGUGGUCUGAG 23 7319 SCNN1A-3471 +GUGAAACAGCCCAGGUGGUCUGAG 24 7320 SCNN1A-3472 + CUCGACGGGCCCCGUGAG 187321 SCNN1A-3473 + GCUCGACGGGCCCCGUGAG 19 7322 SCNN1A-3474 +GGCUCGACGGGCCCCGUGAG 20 7323 SCNN1A-3475 + GGGCUCGACGGGCCCCGUGAG 21 7324SCNN1A-3476 + CGGGCUCGACGGGCCCCGUGAG 22 7325 SCNN1A-3477 +ACGGGCUCGACGGGCCCCGUGAG 23 7326 SCNN1A-3478 + UACGGGCUCGACGGGCCCCGUGAG24 7327 SCNN1A-3479 + AGGGUGACCAUCUGUGAG 18 7328 SCNN1A-3480 +GAGGGUGACCAUCUGUGAG 19 7329 SCNN1A-1141 + GGAGGGUGACCAUCUGUGAG 20 4990SCNN1A-3481 + AGGAGGGUGACCAUCUGUGAG 21 7330 SCNN1A-3482 +CAGGAGGGUGACCAUCUGUGAG 22 7331 SCNN1A-3483 + ACAGGAGGGUGACCAUCUGUGAG 237332 SCNN1A-3484 + GACAGGAGGGUGACCAUCUGUGAG 24 7333 SCNN1A-3485 +GACAGGAUGUUGAUGUAG 18 7334 SCNN1A-3486 + CGACAGGAUGUUGAUGUAG 19 7335SCNN1A-1143 + UCGACAGGAUGUUGAUGUAG 20 4992 SCNN1A-3487 +CUCGACAGGAUGUUGAUGUAG 21 7336 SCNN1A-3488 + CCUCGACAGGAUGUUGAUGUAG 227337 SCNN1A-3489 + GCCUCGACAGGAUGUUGAUGUAG 23 7338 SCNN1A-3490 +AGCCUCGACAGGAUGUUGAUGUAG 24 7339 SCNN1A-3491 + AGCUGGUAGCUGGUCACG 187340 SCNN1A-3492 + GAGCUGGUAGCUGGUCACG 19 7341 SCNN1A-3493 +AGAGCUGGUAGCUGGUCACG 20 7342 SCNN1A-3494 + GAGAGCUGGUAGCUGGUCACG 21 7343SCNN1A-3495 + AGAGAGCUGGUAGCUGGUCACG 22 7344 SCNN1A-3496 +CAGAGAGCUGGUAGCUGGUCACG 23 7345 SCNN1A-3497 + GCAGAGAGCUGGUAGCUGGUCACG24 7346 SCNN1A-3498 + AGGAGAGGUACAUUGACG 18 7347 SCNN1A-3499 +GAGGAGAGGUACAUUGACG 19 7348 SCNN1A-3500 + AGAGGAGAGGUACAUUGACG 20 7349SCNN1A-3501 + GAGAGGAGAGGUACAUUGACG 21 7350 SCNN1A-3502 +UGAGAGGAGAGGUACAUUGACG 22 7351 SCNN1A-3503 + GUGAGAGGAGAGGUACAUUGACG 237352 SCNN1A-3504 + UGUGAGAGGAGAGGUACAUUGACG 24 7353 SCNN1A-3505 +CCACCACAGACAACACCG 18 7354 SCNN1A-3506 + UCCACCACAGACAACACCG 19 7355SCNN1A-1146 + CUCCACCACAGACAACACCG 20 4995 SCNN1A-3507 +UCUCCACCACAGACAACACCG 21 7356 SCNN1A-3508 + AUCUCCACCACAGACAACACCG 227357 SCNN1A-3509 + CAUCUCCACCACAGACAACACCG 23 7358 SCNN1A-3510 +CCAUCUCCACCACAGACAACACCG 24 7359 SCNN1A-3511 + CGGGUACCUGAAGGGGCG 187360 SCNN1A-3512 + CCGGGUACCUGAAGGGGCG 19 7361 SCNN1A-1155 +UCCGGGUACCUGAAGGGGCG 20 5004 SCNN1A-3513 + UUCCGGGUACCUGAAGGGGCG 21 7362SCNN1A-3514 + UUUCCGGGUACCUGAAGGGGCG 22 7363 SCNN1A-3515 +AUUUCCGGGUACCUGAAGGGGCG 23 7364 SCNN1A-3516 + AAUUUCCGGGUACCUGAAGGGGCG24 7365 SCNN1A-3517 + GGCCACGCUACGGGCUCG 18 7366 SCNN1A-3518 +AGGCCACGCUACGGGCUCG 19 7367 SCNN1A-3519 + GAGGCCACGCUACGGGCUCG 20 7368SCNN1A-3520 + GGAGGCCACGCUACGGGCUCG 21 7369 SCNN1A-3521 +UGGAGGCCACGCUACGGGCUCG 22 7370 SCNN1A-3522 + CUGGAGGCCACGCUACGGGCUCG 237371 SCNN1A-3523 + GCUGGAGGCCACGCUACGGGCUCG 24 7372 SCNN1A-3524 +GGGGAGGGGCUGUCAAGG 18 7373 SCNN1A-3525 + GGGGGAGGGGCUGUCAAGG 19 7374SCNN1A-3526 + AGGGGGAGGGGCUGUCAAGG 20 7375 SCNN1A-3527 +CAGGGGGAGGGGCUGUCAAGG 21 7376 SCNN1A-3528 + GCAGGGGGAGGGGCUGUCAAGG 227377 SCNN1A-3529 + GGCAGGGGGAGGGGCUGUCAAGG 23 7378 SCNN1A-3530 +AGGCAGGGGGAGGGGCUGUCAAGG 24 7379 SCNN1A-3531 + GGGGCAGAAGUGGGAAGG 187380 SCNN1A-3532 + GGGGGCAGAAGUGGGAAGG 19 7381 SCNN1A-1161 +UGGGGGCAGAAGUGGGAAGG 20 5010 SCNN1A-3533 + GUGGGGGCAGAAGUGGGAAGG 21 7382SCNN1A-3534 + GGUGGGGGCAGAAGUGGGAAGG 22 7383 SCNN1A-3535 +GGGUGGGGGCAGAAGUGGGAAGG 23 7384 SCNN1A-3536 + GGGGUGGGGGCAGAAGUGGGAAGG24 7385 SCNN1A-3537 + GAAUACACACCUGGAAGG 18 7386 SCNN1A-3538 +UGAAUACACACCUGGAAGG 19 7387 SCNN1A-3539 + GUGAAUACACACCUGGAAGG 20 7388SCNN1A-3540 + AGUGAAUACACACCUGGAAGG 21 7389 SCNN1A-3541 +GAGUGAAUACACACCUGGAAGG 22 7390 SCNN1A-3542 + GGAGUGAAUACACACCUGGAAGG 237391 SCNN1A-3543 + AGGAGUGAAUACACACCUGGAAGG 24 7392 SCNN1A-3544 +GCCCCCCCAGAGGACAGG 18 7393 SCNN1A-3545 + GGCCCCCCCAGAGGACAGG 19 7394SCNN1A-1162 + GGGCCCCCCCAGAGGACAGG 20 5011 SCNN1A-3546 +AGGGCCCCCCCAGAGGACAGG 21 7395 SCNN1A-3547 + CAGGGCCCCCCCAGAGGACAGG 227396 SCNN1A-3548 + UCAGGGCCCCCCCAGAGGACAGG 23 7397 SCNN1A-3549 +CUCAGGGCCCCCCCAGAGGACAGG 24 7398 SCNN1A-3550 + CUCCACUGGCUGCCCAGG 187399 SCNN1A-3551 + GCUCCACUGGCUGCCCAGG 19 7400 SCNN1A-3552 +GGCUCCACUGGCUGCCCAGG 20 7401 SCNN1A-3553 + AGGCUCCACUGGCUGCCCAGG 21 7402SCNN1A-3554 + CAGGCUCCACUGGCUGCCCAGG 22 7403 SCNN1A-3555 +ACAGGCUCCACUGGCUGCCCAGG 23 7404 SCNN1A-3556 + CACAGGCUCCACUGGCUGCCCAGG24 7405 SCNN1A-3557 + GGAGGGGAGGAUGCCAGG 18 7406 SCNN1A-3558 +AGGAGGGGAGGAUGCCAGG 19 7407 SCNN1A-3559 + AAGGAGGGGAGGAUGCCAGG 20 7408SCNN1A-3560 + GAAGGAGGGGAGGAUGCCAGG 21 7409 SCNN1A-3561 +GGAAGGAGGGGAGGAUGCCAGG 22 7410 SCNN1A-3562 + GGGAAGGAGGGGAGGAUGCCAGG 237411 SCNN1A-3563 + UGGGAAGGAGGGGAGGAUGCCAGG 24 7412 SCNN1A-3564 +CAGGGUGGCAUAGGCAGG 18 7413 SCNN1A-3565 + CCAGGGUGGCAUAGGCAGG 19 7414SCNN1A-1167 + CCCAGGGUGGCAUAGGCAGG 20 5016 SCNN1A-3566 +GCCCAGGGUGGCAUAGGCAGG 21 7415 SCNN1A-3567 + GGCCCAGGGUGGCAUAGGCAGG 227416 SCNN1A-3568 + GGGCCCAGGGUGGCAUAGGCAGG 23 7417 SCNN1A-3569 +GGGGCCCAGGGUGGCAUAGGCAGG 24 7418 SCNN1A-3570 + AUGGAAGACAUCCAGAGG 187419 SCNN1A-3571 + CAUGGAAGACAUCCAGAGG 19 7420 SCNN1A-3572 +GCAUGGAAGACAUCCAGAGG 20 7421 SCNN1A-3573 + GGCAUGGAAGACAUCCAGAGG 21 7422SCNN1A-3574 + AGGCAUGGAAGACAUCCAGAGG 22 7423 SCNN1A-3575 +CAGGCAUGGAAGACAUCCAGAGG 23 7424 SCNN1A-3576 + CCAGGCAUGGAAGACAUCCAGAGG24 7425 SCNN1A-3577 + UUAGGUGUGGGGCAGAGG 18 7426 SCNN1A-3578 +CUUAGGUGUGGGGCAGAGG 19 7427 SCNN1A-3579 + UCUUAGGUGUGGGGCAGAGG 20 7428SCNN1A-3580 + UUCUUAGGUGUGGGGCAGAGG 21 7429 SCNN1A-3581 +UUUCUUAGGUGUGGGGCAGAGG 22 7430 SCNN1A-3582 + AUUUCUUAGGUGUGGGGCAGAGG 237431 SCNN1A-3583 + CAUUUCUUAGGUGUGGGGCAGAGG 24 7432 SCNN1A-3584 +CACCUGGAAGGGAGGAGG 18 7433 SCNN1A-3585 + ACACCUGGAAGGGAGGAGG 19 7434SCNN1A-3586 + CACACCUGGAAGGGAGGAGG 20 7435 SCNN1A-3587 +ACACACCUGGAAGGGAGGAGG 21 7436 SCNN1A-3588 + UACACACCUGGAAGGGAGGAGG 227437 SCNN1A-3589 + AUACACACCUGGAAGGGAGGAGG 23 7438 SCNN1A-3590 +AAUACACACCUGGAAGGGAGGAGG 24 7439 SCNN1A-3591 + UCGACGGGCCCCGUGAGG 187440 SCNN1A-3592 + CUCGACGGGCCCCGUGAGG 19 7441 SCNN1A-1172 +GCUCGACGGGCCCCGUGAGG 20 5021 SCNN1A-3593 + GGCUCGACGGGCCCCGUGAGG 21 7442SCNN1A-3594 + GGGCUCGACGGGCCCCGUGAGG 22 7443 SCNN1A-3595 +CGGGCUCGACGGGCCCCGUGAGG 23 7444 SCNN1A-3596 + ACGGGCUCGACGGGCCCCGUGAGG24 7445 SCNN1A-3597 + GGCCCAGGGUGGCAUAGG 18 7446 SCNN1A-3598 +GGGCCCAGGGUGGCAUAGG 19 7447 SCNN1A-3599 + GGGGCCCAGGGUGGCAUAGG 20 7448SCNN1A-3600 + GGGGGCCCAGGGUGGCAUAGG 21 7449 SCNN1A-3601 +CGGGGGCCCAGGGUGGCAUAGG 22 7450 SCNN1A-3602 + GCGGGGGCCCAGGGUGGCAUAGG 237451 SCNN1A-3603 + GGCGGGGGCCCAGGGUGGCAUAGG 24 7452 SCNN1A-3604 +AAUACACACCUGGAAGGG 18 7453 SCNN1A-3605 + GAAUACACACCUGGAAGGG 19 7454SCNN1A-1176 + UGAAUACACACCUGGAAGGG 20 5025 SCNN1A-3606 +GUGAAUACACACCUGGAAGGG 21 7455 SCNN1A-3607 + AGUGAAUACACACCUGGAAGGG 227456 SCNN1A-3608 + GAGUGAAUACACACCUGGAAGGG 23 7457 SCNN1A-3609 +GGAGUGAAUACACACCUGGAAGGG 24 7458 SCNN1A-3610 + UUCCGGGUACCUGAAGGG 187459 SCNN1A-3611 + UUUCCGGGUACCUGAAGGG 19 7460 SCNN1A-3612 +AUUUCCGGGUACCUGAAGGG 20 7461 SCNN1A-3613 + AAUUUCCGGGUACCUGAAGGG 21 7462SCNN1A-3614 + UAAUUUCCGGGUACCUGAAGGG 22 7463 SCNN1A-3615 +UUAAUUUCCGGGUACCUGAAGGG 23 7464 SCNN1A-3616 + UUUAAUUUCCGGGUACCUGAAGGG24 7465 SCNN1A-3617 + UUGUGGCUGGGACCAGGG 18 7466 SCNN1A-3618 +CUUGUGGCUGGGACCAGGG 19 7467 SCNN1A-3619 + UCUUGUGGCUGGGACCAGGG 20 7468SCNN1A-3620 + GAGGGGAGGAUGCCAGGG 18 7469 SCNN1A-3621 +GGAGGGGAGGAUGCCAGGG 19 7470 SCNN1A-1178 + AGGAGGGGAGGAUGCCAGGG 20 5027SCNN1A-3622 + AAGGAGGGGAGGAUGCCAGGG 21 7471 SCNN1A-3623 +GAAGGAGGGGAGGAUGCCAGGG 22 7472 SCNN1A-3624 + GGAAGGAGGGGAGGAUGCCAGGG 237473 SCNN1A-3625 + GGGAAGGAGGGGAGGAUGCCAGGG 24 7474 SCNN1A-3626 +UAGGUGUGGGGCAGAGGG 18 7475 SCNN1A-3627 + UUAGGUGUGGGGCAGAGGG 19 7476SCNN1A-1179 + CUUAGGUGUGGGGCAGAGGG 20 5028 SCNN1A-3628 +UCUUAGGUGUGGGGCAGAGGG 21 7477 SCNN1A-3629 + UUCUUAGGUGUGGGGCAGAGGG 227478 SCNN1A-3630 + UUUCUUAGGUGUGGGGCAGAGGG 23 7479 SCNN1A-3631 +AUUUCUUAGGUGUGGGGCAGAGGG 24 7480 SCNN1A-3632 + ACCUGGAAGGGAGGAGGG 187481 SCNN1A-3633 + CACCUGGAAGGGAGGAGGG 19 7482 SCNN1A-1180 +ACACCUGGAAGGGAGGAGGG 20 5029 SCNN1A-3634 + CACACCUGGAAGGGAGGAGGG 21 7483SCNN1A-3635 + ACACACCUGGAAGGGAGGAGGG 22 7484 SCNN1A-3636 +UACACACCUGGAAGGGAGGAGGG 23 7485 SCNN1A-3637 + AUACACACCUGGAAGGGAGGAGGG24 7486 SCNN1A-3638 + GGGUGGCAUAGGCAGGGG 18 7487 SCNN1A-3639 +AGGGUGGCAUAGGCAGGGG 19 7488 SCNN1A-3640 + CAGGGUGGCAUAGGCAGGGG 20 7489SCNN1A-3641 + CCAGGGUGGCAUAGGCAGGGG 21 7490 SCNN1A-3642 +CCCAGGGUGGCAUAGGCAGGGG 22 7491 SCNN1A-3643 + GCCCAGGGUGGCAUAGGCAGGGG 237492 SCNN1A-3644 + GGCCCAGGGUGGCAUAGGCAGGGG 24 7493 SCNN1A-3645 +ACCUGAAGGGGCGAGGGG 18 7494 SCNN1A-3646 + UACCUGAAGGGGCGAGGGG 19 7495SCNN1A-3647 + GUACCUGAAGGGGCGAGGGG 20 7496 SCNN1A-3648 +GGUACCUGAAGGGGCGAGGGG 21 7497 SCNN1A-3649 + GGGUACCUGAAGGGGCGAGGGG 227498 SCNN1A-3650 + CGGGUACCUGAAGGGGCGAGGGG 23 7499 SCNN1A-3651 +CCGGGUACCUGAAGGGGCGAGGGG 24 7500 SCNN1A-3652 + GGGCCCCGUGAGGCGGGG 187501 SCNN1A-3653 + CGGGCCCCGUGAGGCGGGG 19 7502 SCNN1A-3654 +ACGGGCCCCGUGAGGCGGGG 20 7503 SCNN1A-3655 + GACGGGCCCCGUGAGGCGGGG 21 7504SCNN1A-3656 + CGACGGGCCCCGUGAGGCGGGG 22 7505 SCNN1A-3657 +UCGACGGGCCCCGUGAGGCGGGG 23 7506 SCNN1A-3658 + CUCGACGGGCCCCGUGAGGCGGGG24 7507 SCNN1A-3659 + GGUGGCAUAGGCAGGGGG 18 7508 SCNN1A-3660 +GGGUGGCAUAGGCAGGGGG 19 7509 SCNN1A-1184 + AGGGUGGCAUAGGCAGGGGG 20 5033SCNN1A-3661 + CAGGGUGGCAUAGGCAGGGGG 21 7510 SCNN1A-3662 +CCAGGGUGGCAUAGGCAGGGGG 22 7511 SCNN1A-3663 + CCCAGGGUGGCAUAGGCAGGGGG 237512 SCNN1A-3664 + GCCCAGGGUGGCAUAGGCAGGGGG 24 7513 SCNN1A-3665 +GGCCCCGUGAGGCGGGGG 18 7514 SCNN1A-3666 + GGGCCCCGUGAGGCGGGGG 19 7515SCNN1A-1185 + CGGGCCCCGUGAGGCGGGGG 20 5034 SCNN1A-3667 +ACGGGCCCCGUGAGGCGGGGG 21 7516 SCNN1A-3668 + GACGGGCCCCGUGAGGCGGGGG 227517 SCNN1A-3669 + CGACGGGCCCCGUGAGGCGGGGG 23 7518 SCNN1A-3670 +UCGACGGGCCCCGUGAGGCGGGGG 24 7519 SCNN1A-3671 + AGAGACAUGGGGUGGGGG 187520 SCNN1A-3672 + CAGAGACAUGGGGUGGGGG 19 7521 SCNN1A-3673 +ACAGAGACAUGGGGUGGGGG 20 7522 SCNN1A-3674 + GACAGAGACAUGGGGUGGGGG 21 7523SCNN1A-3675 + GGACAGAGACAUGGGGUGGGGG 22 7524 SCNN1A-3676 +AGGACAGAGACAUGGGGUGGGGG 23 7525 SCNN1A-3677 + AAGGACAGAGACAUGGGGUGGGGG24 7526 SCNN1A-3678 + AAGGACAGAGACAUGGGG 18 7527 SCNN1A-3679 +CAAGGACAGAGACAUGGGG 19 7528 SCNN1A-1186 + ACAAGGACAGAGACAUGGGG 20 5035SCNN1A-3680 + GACAAGGACAGAGACAUGGGG 21 7529 SCNN1A-3681 +GGACAAGGACAGAGACAUGGGG 22 7530 SCNN1A-3682 + GGGACAAGGACAGAGACAUGGGG 237531 SCNN1A-3683 + UGGGACAAGGACAGAGACAUGGGG 24 7532 SCNN1A-3684 +UAGCUGGUCACGCUGGGG 18 7533 SCNN1A-3685 + GUAGCUGGUCACGCUGGGG 19 7534SCNN1A-3686 + GGUAGCUGGUCACGCUGGGG 20 7535 SCNN1A-3687 +UGGUAGCUGGUCACGCUGGGG 21 7536 SCNN1A-3688 + CUGGUAGCUGGUCACGCUGGGG 227537 SCNN1A-3689 + GCUGGUAGCUGGUCACGCUGGGG 23 7538 SCNN1A-3690 +AGCUGGUAGCUGGUCACGCUGGGG 24 7539 SCNN1A-3691 + CAUUUCUUAGGUGUGGGG 187540 SCNN1A-3692 + CCAUUUCUUAGGUGUGGGG 19 7541 SCNN1A-3693 +UCCAUUUCUUAGGUGUGGGG 20 7542 SCNN1A-3694 + CUCCAUUUCUUAGGUGUGGGG 21 7543SCNN1A-3695 + ACUCCAUUUCUUAGGUGUGGGG 22 7544 SCNN1A-3696 +CACUCCAUUUCUUAGGUGUGGGG 23 7545 SCNN1A-3697 + CCACUCCAUUUCUUAGGUGUGGGG24 7546 SCNN1A-3698 + CAAGGACAGAGACAUGGG 18 7547 SCNN1A-3699 +ACAAGGACAGAGACAUGGG 19 7548 SCNN1A-3700 + GACAAGGACAGAGACAUGGG 20 7549SCNN1A-3701 + GGACAAGGACAGAGACAUGGG 21 7550 SCNN1A-3702 +GGGACAAGGACAGAGACAUGGG 22 7551 SCNN1A-3703 + UGGGACAAGGACAGAGACAUGGG 237552 SCNN1A-3704 + CUGGGACAAGGACAGAGACAUGGG 24 7553 SCNN1A-3705 +GAGCCCCCUGGAGAUGGG 18 7554 SCNN1A-3706 + AGAGCCCCCUGGAGAUGGG 19 7555SCNN1A-1188 + CAGAGCCCCCUGGAGAUGGG 20 5037 SCNN1A-3707 +GCAGAGCCCCCUGGAGAUGGG 21 7556 SCNN1A-3708 + UGCAGAGCCCCCUGGAGAUGGG 227557 SCNN1A-3709 + CUGCAGAGCCCCCUGGAGAUGGG 23 7558 SCNN1A-3710 +CCUGCAGAGCCCCCUGGAGAUGGG 24 7559 SCNN1A-3711 + GGUGGGGGCAGAAGUGGG 187560 SCNN1A-3712 + GGGUGGGGGCAGAAGUGGG 19 7561 SCNN1A-3713 +GGGGUGGGGGCAGAAGUGGG 20 7562 SCNN1A-3714 + UGGGGUGGGGGCAGAAGUGGG 21 7563SCNN1A-3715 + AUGGGGUGGGGGCAGAAGUGGG 22 7564 SCNN1A-3716 +CAUGGGGUGGGGGCAGAAGUGGG 23 7565 SCNN1A-3717 + ACAUGGGGUGGGGGCAGAAGUGGG24 7566 SCNN1A-3718 + UGUGGGGCAGAGGGUGGG 18 7567 SCNN1A-3719 +GUGUGGGGCAGAGGGUGGG 19 7568 SCNN1A-3720 + GGUGUGGGGCAGAGGGUGGG 20 7569SCNN1A-3721 + AGGUGUGGGGCAGAGGGUGGG 21 7570 SCNN1A-3722 +UAGGUGUGGGGCAGAGGGUGGG 22 7571 SCNN1A-3723 + UUAGGUGUGGGGCAGAGGGUGGG 237572 SCNN1A-3724 + CUUAGGUGUGGGGCAGAGGGUGGG 24 7573 SCNN1A-3725 +AGAGCCCCCUGGAGAUGG 18 7574 SCNN1A-3726 + CAGAGCCCCCUGGAGAUGG 19 7575SCNN1A-3727 + GCAGAGCCCCCUGGAGAUGG 20 7576 SCNN1A-3728 +UGCAGAGCCCCCUGGAGAUGG 21 7577 SCNN1A-3729 + CUGCAGAGCCCCCUGGAGAUGG 227578 SCNN1A-3730 + CCUGCAGAGCCCCCUGGAGAUGG 23 7579 SCNN1A-3731 +CCCUGCAGAGCCCCCUGGAGAUGG 24 7580 SCNN1A-3732 + GAGUGAAUACACACCUGG 187581 SCNN1A-3733 + GGAGUGAAUACACACCUGG 19 7582 SCNN1A-3734 +AGGAGUGAAUACACACCUGG 20 7583 SCNN1A-3735 + CAGGAGUGAAUACACACCUGG 21 7584SCNN1A-3736 + GCAGGAGUGAAUACACACCUGG 22 7585 SCNN1A-3737 +AGCAGGAGUGAAUACACACCUGG 23 7586 SCNN1A-3738 + AAGCAGGAGUGAAUACACACCUGG24 7587 SCNN1A-3739 + UGGUUGCAGGAGACCUGG 18 7588 SCNN1A-3740 +CUGGUUGCAGGAGACCUGG 19 7589 SCNN1A-3741 + CCUGGUUGCAGGAGACCUGG 20 7590SCNN1A-3742 + GCCUGGUUGCAGGAGACCUGG 21 7591 SCNN1A-3743 +CGCCUGGUUGCAGGAGACCUGG 22 7592 SCNN1A-3744 + ACGCCUGGUUGCAGGAGACCUGG 237593 SCNN1A-3745 + CACGCCUGGUUGCAGGAGACCUGG 24 7594 SCNN1A-3746 +AGAGGGAGCAGGGCCUGG 18 7595 SCNN1A-3747 + GAGAGGGAGCAGGGCCUGG 19 7596SCNN1A-3748 + GGAGAGGGAGCAGGGCCUGG 20 7597 SCNN1A-3749 +UGGAGAGGGAGCAGGGCCUGG 21 7598 SCNN1A-3750 + CUGGAGAGGGAGCAGGGCCUGG 227599 SCNN1A-3751 + GCUGGAGAGGGAGCAGGGCCUGG 23 7600 SCNN1A-3752 +GGCUGGAGAGGGAGCAGGGCCUGG 24 7601 SCNN1A-3753 + CCUGAUGAGUAUGUCUGG 187602 SCNN1A-3754 + CCCUGAUGAGUAUGUCUGG 19 7603 SCNN1A-3755 +CCCCUGAUGAGUAUGUCUGG 20 7604 SCNN1A-3756 + ACCCCUGAUGAGUAUGUCUGG 21 7605SCNN1A-3757 + CACCCCUGAUGAGUAUGUCUGG 22 7606 SCNN1A-3758 +CCACCCCUGAUGAGUAUGUCUGG 23 7607 SCNN1A-3759 + UCCACCCCUGAUGAGUAUGUCUGG24 7608 SCNN1A-3760 + CCCCCAGAGGACAGGUGG 18 7609 SCNN1A-3761 +CCCCCCAGAGGACAGGUGG 19 7610 SCNN1A-1200 + CCCCCCCAGAGGACAGGUGG 20 5049SCNN1A-3762 + GCCCCCCCAGAGGACAGGUGG 21 7611 SCNN1A-3763 +GGCCCCCCCAGAGGACAGGUGG 22 7612 SCNN1A-3764 + GGGCCCCCCCAGAGGACAGGUGG 237613 SCNN1A-3765 + AGGGCCCCCCCAGAGGACAGGUGG 24 7614 SCNN1A-3766 +UUUCCAUACAUCGGGUGG 18 7615 SCNN1A-3767 + GUUUCCAUACAUCGGGUGG 19 7616SCNN1A-1202 + AGUUUCCAUACAUCGGGUGG 20 5051 SCNN1A-3768 +CAGUUUCCAUACAUCGGGUGG 21 7617 SCNN1A-3769 + GCAGUUUCCAUACAUCGGGUGG 227618 SCNN1A-3770 + AGCAGUUUCCAUACAUCGGGUGG 23 7619 SCNN1A-3771 +UAGCAGUUUCCAUACAUCGGGUGG 24 7620 SCNN1A-3772 + AACCUUCGGAGCAGCAUG 187621 SCNN1A-3773 + GAACCUUCGGAGCAGCAUG 19 7622 SCNN1A-1209 +GGAACCUUCGGAGCAGCAUG 20 5058 SCNN1A-3774 + CGGAACCUUCGGAGCAGCAUG 21 7623SCNN1A-3775 + UCGGAACCUUCGGAGCAGCAUG 22 7624 SCNN1A-3776 +UUCGGAACCUUCGGAGCAGCAUG 23 7625 SCNN1A-3777 + CUUCGGAACCUUCGGAGCAGCAUG24 7626 SCNN1A-3778 + CUGGUCACGCUGGGGAUG 18 7627 SCNN1A-3779 +GCUGGUCACGCUGGGGAUG 19 7628 SCNN1A-3780 + AGCUGGUCACGCUGGGGAUG 20 7629SCNN1A-3781 + UAGCUGGUCACGCUGGGGAUG 21 7630 SCNN1A-3782 +GUAGCUGGUCACGCUGGGGAUG 22 7631 SCNN1A-3783 + GGUAGCUGGUCACGCUGGGGAUG 237632 SCNN1A-3784 + UGGUAGCUGGUCACGCUGGGGAUG 24 7633 SCNN1A-3785 +UUAAUUUCCGGGUACCUG 18 7634 SCNN1A-3786 + UUUAAUUUCCGGGUACCUG 19 7635SCNN1A-3787 + CUUUAAUUUCCGGGUACCUG 20 7636 SCNN1A-3788 +UCUUUAAUUUCCGGGUACCUG 21 7637 SCNN1A-3789 + CUCUUUAAUUUCCGGGUACCUG 227638 SCNN1A-3790 + CCUCUUUAAUUUCCGGGUACCUG 23 7639 SCNN1A-3791 +UCCUCUUUAAUUUCCGGGUACCUG 24 7640 SCNN1A-3792 + UGGAGGAACUGGCCCCUG 187641 SCNN1A-3793 + GUGGAGGAACUGGCCCCUG 19 7642 SCNN1A-3794 +GGUGGAGGAACUGGCCCCUG 20 7643 SCNN1A-3795 + AGGUGGAGGAACUGGCCCCUG 21 7644SCNN1A-3796 + CAGGUGGAGGAACUGGCCCCUG 22 7645 SCNN1A-3797 +ACAGGUGGAGGAACUGGCCCCUG 23 7646 SCNN1A-3798 + GACAGGUGGAGGAACUGGCCCCUG24 7647 SCNN1A-3799 + GAGGGGCUGUCAAGGCUG 18 7648 SCNN1A-3800 +GGAGGGGCUGUCAAGGCUG 19 7649 SCNN1A-3801 + GGGAGGGGCUGUCAAGGCUG 20 7650SCNN1A-3802 + GGGGAGGGGCUGUCAAGGCUG 21 7651 SCNN1A-3803 +GGGGGAGGGGCUGUCAAGGCUG 22 7652 SCNN1A-3804 + AGGGGGAGGGGCUGUCAAGGCUG 237653 SCNN1A-3805 + CAGGGGGAGGGGCUGUCAAGGCUG 24 7654 SCNN1A-3806 +CGCAGGUCGCGACGGCUG 18 7655 SCNN1A-3807 + CCGCAGGUCGCGACGGCUG 19 7656SCNN1A-1223 + CCCGCAGGUCGCGACGGCUG 20 5072 SCNN1A-3808 +CCCCGCAGGUCGCGACGGCUG 21 7657 SCNN1A-3809 + CCCCCGCAGGUCGCGACGGCUG 227658 SCNN1A-3810 + UCCCCCGCAGGUCGCGACGGCUG 23 7659 SCNN1A-3811 +GUCCCCCGCAGGUCGCGACGGCUG 24 7660 SCNN1A-3812 + CUUGCCUUCCUCAUGCUG 187661 SCNN1A-3813 + CCUUGCCUUCCUCAUGCUG 19 7662 SCNN1A-3814 +UCCUUGCCUUCCUCAUGCUG 20 7663 SCNN1A-3815 + AUCCUUGCCUUCCUCAUGCUG 21 7664SCNN1A-3816 + CAUCCUUGCCUUCCUCAUGCUG 22 7665 SCNN1A-3817 +GCAUCCUUGCCUUCCUCAUGCUG 23 7666 SCNN1A-3818 + AGCAUCCUUGCCUUCCUCAUGCUG24 7667 SCNN1A-3819 + AACAGCCCAGGUGGUCUG 18 7668 SCNN1A-3820 +AAACAGCCCAGGUGGUCUG 19 7669 SCNN1A-1225 + GAAACAGCCCAGGUGGUCUG 20 5074SCNN1A-3821 + UGAAACAGCCCAGGUGGUCUG 21 7670 SCNN1A-3822 +GUGAAACAGCCCAGGUGGUCUG 22 7671 SCNN1A-3823 + GGUGAAACAGCCCAGGUGGUCUG 237672 SCNN1A-3824 + UGGUGAAACAGCCCAGGUGGUCUG 24 7673 SCNN1A-3825 +GAGCCGGCCACGAGAGUG 18 7674 SCNN1A-3826 + GGAGCCGGCCACGAGAGUG 19 7675SCNN1A-3827 + GGGAGCCGGCCACGAGAGUG 20 7676 SCNN1A-3828 +CGGGAGCCGGCCACGAGAGUG 21 7677 SCNN1A-3829 + GCGGGAGCCGGCCACGAGAGUG 227678 SCNN1A-3830 + UGCGGGAGCCGGCCACGAGAGUG 23 7679 SCNN1A-3831 +CUGCGGGAGCCGGCCACGAGAGUG 24 7680 SCNN1A-3832 + CCCCCCAGAGGACAGGUG 187681 SCNN1A-3833 + CCCCCCCAGAGGACAGGUG 19 7682 SCNN1A-3834 +GCCCCCCCAGAGGACAGGUG 20 7683 SCNN1A-3835 + GGCCCCCCCAGAGGACAGGUG 21 7684SCNN1A-3836 + GGGCCCCCCCAGAGGACAGGUG 22 7685 SCNN1A-3837 +AGGGCCCCCCCAGAGGACAGGUG 23 7686 SCNN1A-3838 + CAGGGCCCCCCCAGAGGACAGGUG24 7687 SCNN1A-3839 + CACUCCAUUUCUUAGGUG 18 7688 SCNN1A-3840 +CCACUCCAUUUCUUAGGUG 19 7689 SCNN1A-1232 + GCCACUCCAUUUCUUAGGUG 20 5081SCNN1A-3841 + GGCCACUCCAUUUCUUAGGUG 21 7690 SCNN1A-3842 +UGGCCACUCCAUUUCUUAGGUG 22 7691 SCNN1A-3843 + UUGGCCACUCCAUUUCUUAGGUG 237692 SCNN1A-3844 + UUUGGCCACUCCAUUUCUUAGGUG 24 7693 SCNN1A-3845 +CUGGAAGGGAGGAGGGUG 18 7694 SCNN1A-3846 + CCUGGAAGGGAGGAGGGUG 19 7695SCNN1A-3847 + ACCUGGAAGGGAGGAGGGUG 20 7696 SCNN1A-3848 +CACCUGGAAGGGAGGAGGGUG 21 7697 SCNN1A-3849 + ACACCUGGAAGGGAGGAGGGUG 227698 SCNN1A-3850 + CACACCUGGAAGGGAGGAGGGUG 23 7699 SCNN1A-3851 +ACACACCUGGAAGGGAGGAGGGUG 24 7700 SCNN1A-3852 + GUUUCCAUACAUCGGGUG 187701 SCNN1A-3853 + AGUUUCCAUACAUCGGGUG 19 7702 SCNN1A-3854 +CAGUUUCCAUACAUCGGGUG 20 7703 SCNN1A-3855 + GCAGUUUCCAUACAUCGGGUG 21 7704SCNN1A-3856 + AGCAGUUUCCAUACAUCGGGUG 22 7705 SCNN1A-3857 +UAGCAGUUUCCAUACAUCGGGUG 23 7706 SCNN1A-3858 + AUAGCAGUUUCCAUACAUCGGGUG24 7707 SCNN1A-3859 + GGGACAGACCUAGGGGUG 18 7708 SCNN1A-3860 +AGGGACAGACCUAGGGGUG 19 7709 SCNN1A-3861 + CAGGGACAGACCUAGGGGUG 20 7710SCNN1A-3862 + UCAGGGACAGACCUAGGGGUG 21 7711 SCNN1A-3863 +AUCAGGGACAGACCUAGGGGUG 22 7712 SCNN1A-3864 + CAUCAGGGACAGACCUAGGGGUG 237713 SCNN1A-3865 + GCAUCAGGGACAGACCUAGGGGUG 24 7714 SCNN1A-3866 +CCGGCCACGAGAGUGGUG 18 7715 SCNN1A-3867 + GCCGGCCACGAGAGUGGUG 19 7716SCNN1A-3868 + AGCCGGCCACGAGAGUGGUG 20 7717 SCNN1A-3869 +GAGCCGGCCACGAGAGUGGUG 21 7718 SCNN1A-3870 + GGAGCCGGCCACGAGAGUGGUG 227719 SCNN1A-3871 + GGGAGCCGGCCACGAGAGUGGUG 23 7720 SCNN1A-3872 +CGGGAGCCGGCCACGAGAGUGGUG 24 7721 SCNN1A-3873 + CAUGGCUUCCGGCACUUG 187722 SCNN1A-3874 + GCAUGGCUUCCGGCACUUG 19 7723 SCNN1A-3875 +UGCAUGGCUUCCGGCACUUG 20 7724 SCNN1A-3876 + CUGCAUGGCUUCCGGCACUUG 21 7725SCNN1A-3877 + CCUGCAUGGCUUCCGGCACUUG 22 7726 SCNN1A-3878 +ACCUGCAUGGCUUCCGGCACUUG 23 7727 SCNN1A-3879 + AACCUGCAUGGCUUCCGGCACUUG24 7728 SCNN1A-3880 + UUGUAGUUCAGCUCCUUG 18 7729 SCNN1A-3881 +UUUGUAGUUCAGCUCCUUG 19 7730 SCNN1A-3882 + UUUUGUAGUUCAGCUCCUUG 20 7731SCNN1A-3883 + GUUUUGUAGUUCAGCUCCUUG 21 7732 SCNN1A-3884 +GGUUUUGUAGUUCAGCUCCUUG 22 7733 SCNN1A-3885 + UGGUUUUGUAGUUCAGCUCCUUG 237734 SCNN1A-3886 + UUGGUUUUGUAGUUCAGCUCCUUG 24 7735 SCNN1A-3887 +CUGACUCACGCCUGGUUG 18 7736 SCNN1A-3888 + ACUGACUCACGCCUGGUUG 19 7737SCNN1A-3889 + GACUGACUCACGCCUGGUUG 20 7738 SCNN1A-3890 +GGACUGACUCACGCCUGGUUG 21 7739 SCNN1A-3891 + AGGACUGACUCACGCCUGGUUG 227740 SCNN1A-3892 + CAGGACUGACUCACGCCUGGUUG 23 7741 SCNN1A-3893 +GCAGGACUGACUCACGCCUGGUUG 24 7742 SCNN1A-3894 + GAACCUUCGGAGCAGCAU 187743 SCNN1A-3895 + GGAACCUUCGGAGCAGCAU 19 7744 SCNN1A-3896 +CGGAACCUUCGGAGCAGCAU 20 7745 SCNN1A-3897 + UCGGAACCUUCGGAGCAGCAU 21 7746SCNN1A-3898 + UUCGGAACCUUCGGAGCAGCAU 22 7747 SCNN1A-3899 +CUUCGGAACCUUCGGAGCAGCAU 23 7748 SCNN1A-3900 + GCUUCGGAACCUUCGGAGCAGCAU24 7749 SCNN1A-3901 + CUGCUCUGCGCGCAGCAU 18 7750 SCNN1A-3902 +UCUGCUCUGCGCGCAGCAU 19 7751 SCNN1A-3903 + UUCUGCUCUGCGCGCAGCAU 20 7752SCNN1A-3904 + AUUCUGCUCUGCGCGCAGCAU 21 7753 SCNN1A-3905 +CAUUCUGCUCUGCGCGCAGCAU 22 7754 SCNN1A-3906 + UCAUUCUGCUCUGCGCGCAGCAU 237755 SCNN1A-3907 + GUCAUUCUGCUCUGCGCGCAGCAU 24 7756 SCNN1A-3908 +GUUCUGUCGCGAUAGCAU 18 7757 SCNN1A-3909 + UGUUCUGUCGCGAUAGCAU 19 7758SCNN1A-3910 + UUGUUCUGUCGCGAUAGCAU 20 7759 SCNN1A-3911 +AUUGUUCUGUCGCGAUAGCAU 21 7760 SCNN1A-3912 + AAUUGUUCUGUCGCGAUAGCAU 227761 SCNN1A-3913 + UAAUUGUUCUGUCGCGAUAGCAU 23 7762 SCNN1A-3914 +GUAAUUGUUCUGUCGCGAUAGCAU 24 7763 SCNN1A-3915 + GUGAGAGUAAUUCCUUAU 187764 SCNN1A-3916 + AGUGAGAGUAAUUCCUUAU 19 7765 SCNN1A-3917 +AAGUGAGAGUAAUUCCUUAU 20 7766 SCNN1A-3918 + GAAGUGAGAGUAAUUCCUUAU 21 7767SCNN1A-3919 + GGAAGUGAGAGUAAUUCCUUAU 22 7768 SCNN1A-3920 +UGGAAGUGAGAGUAAUUCCUUAU 23 7769 SCNN1A-3921 + GUGGAAGUGAGAGUAAUUCCUUAU24 7770 SCNN1A-3922 + ACCCGGGCCCCAGUCACU 18 7771 SCNN1A-3923 +UACCCGGGCCCCAGUCACU 19 7772 SCNN1A-3924 + UUACCCGGGCCCCAGUCACU 20 7773SCNN1A-3925 + AUUACCCGGGCCCCAGUCACU 21 7774 SCNN1A-3926 +CAUUACCCGGGCCCCAGUCACU 22 7775 SCNN1A-3927 + CCAUUACCCGGGCCCCAGUCACU 237776 SCNN1A-3928 + ACCAUUACCCGGGCCCCAGUCACU 24 7777 SCNN1A-3929 +UCACCUGCUGUGUGUACU 18 7778 SCNN1A-3930 + CUCACCUGCUGUGUGUACU 19 7779SCNN1A-3931 + CCUCACCUGCUGUGUGUACU 20 7780 SCNN1A-3932 +GCCUCACCUGCUGUGUGUACU 21 7781 SCNN1A-3933 + GGCCUCACCUGCUGUGUGUACU 227782 SCNN1A-3934 + GGGCCUCACCUGCUGUGUGUACU 23 7783 SCNN1A-3935 +UGGGCCUCACCUGCUGUGUGUACU 24 7784 SCNN1A-3936 + GUAUCGGCUUCGGAACCU 187785 SCNN1A-3937 + AGUAUCGGCUUCGGAACCU 19 7786 SCNN1A-3938 +CAGUAUCGGCUUCGGAACCU 20 7787 SCNN1A-3939 + CCAGUAUCGGCUUCGGAACCU 21 7788SCNN1A-3940 + ACCAGUAUCGGCUUCGGAACCU 22 7789 SCNN1A-3941 +GACCAGUAUCGGCUUCGGAACCU 23 7790 SCNN1A-3942 + AGACCAGUAUCGGCUUCGGAACCU24 7791 SCNN1A-3943 + UCUGGAAGACCCAUUCCU 18 7792 SCNN1A-3944 +AUCUGGAAGACCCAUUCCU 19 7793 SCNN1A-1270 + CAUCUGGAAGACCCAUUCCU 20 5119SCNN1A-3945 + GCAUCUGGAAGACCCAUUCCU 21 7794 SCNN1A-3946 +AGCAUCUGGAAGACCCAUUCCU 22 7795 SCNN1A-3947 + UAGCAUCUGGAAGACCCAUUCCU 237796 SCNN1A-3948 + AUAGCAUCUGGAAGACCCAUUCCU 24 7797 SCNN1A-3949 +GUCUGUCCAGGGUUUCCU 18 7798 SCNN1A-3950 + AGUCUGUCCAGGGUUUCCU 19 7799SCNN1A-3951 + AAGUCUGUCCAGGGUUUCCU 20 7800 SCNN1A-3952 +CAAGUCUGUCCAGGGUUUCCU 21 7801 SCNN1A-3953 + CCAAGUCUGUCCAGGGUUUCCU 227802 SCNN1A-3954 + CCCAAGUCUGUCCAGGGUUUCCU 23 7803 SCNN1A-3955 +CCCCAAGUCUGUCCAGGGUUUCCU 24 7804 SCNN1A-3956 + CAAGCUGGAGGCCACGCU 187805 SCNN1A-3957 + GCAAGCUGGAGGCCACGCU 19 7806 SCNN1A-3958 +CGCAAGCUGGAGGCCACGCU 20 7807 SCNN1A-3959 + CCGCAAGCUGGAGGCCACGCU 21 7808SCNN1A-3960 + CCCGCAAGCUGGAGGCCACGCU 22 7809 SCNN1A-3961 +UCCCGCAAGCUGGAGGCCACGCU 23 7810 SCNN1A-3962 + GUCCCGCAAGCUGGAGGCCACGCU24 7811 SCNN1A-3963 + CCGCAGGUCGCGACGGCU 18 7812 SCNN1A-3964 +CCCGCAGGUCGCGACGGCU 19 7813 SCNN1A-3965 + CCCCGCAGGUCGCGACGGCU 20 7814SCNN1A-3966 + CCCCCGCAGGUCGCGACGGCU 21 7815 SCNN1A-3967 +UCCCCCGCAGGUCGCGACGGCU 22 7816 SCNN1A-3968 + GUCCCCCGCAGGUCGCGACGGCU 237817 SCNN1A-3969 + AGUCCCCCGCAGGUCGCGACGGCU 24 7818 SCNN1A-3970 +UGGAGACCAGUAUCGGCU 18 7819 SCNN1A-3971 + CUGGAGACCAGUAUCGGCU 19 7820SCNN1A-3972 + CCUGGAGACCAGUAUCGGCU 20 7821 SCNN1A-3973 +GCCUGGAGACCAGUAUCGGCU 21 7822 SCNN1A-3974 + GGCCUGGAGACCAGUAUCGGCU 227823 SCNN1A-3975 + CGGCCUGGAGACCAGUAUCGGCU 23 7824 SCNN1A-3976 +UCGGCCUGGAGACCAGUAUCGGCU 24 7825 SCNN1A-3977 + ACAGGAGGGUGACCAUCU 187826 SCNN1A-3978 + GACAGGAGGGUGACCAUCU 19 7827 SCNN1A-3979 +GGACAGGAGGGUGACCAUCU 20 7828 SCNN1A-3980 + UGGACAGGAGGGUGACCAUCU 21 7829SCNN1A-3981 + UUGGACAGGAGGGUGACCAUCU 22 7830 SCNN1A-3982 +GUUGGACAGGAGGGUGACCAUCU 23 7831 SCNN1A-3983 + GGUUGGACAGGAGGGUGACCAUCU24 7832 SCNN1A-3984 + AAACCUCUCCUUCCCUCU 18 7833 SCNN1A-3985 +GAAACCUCUCCUUCCCUCU 19 7834 SCNN1A-3986 + AGAAACCUCUCCUUCCCUCU 20 7835SCNN1A-3987 + GAGAAACCUCUCCUUCCCUCU 21 7836 SCNN1A-3988 +UGAGAAACCUCUCCUUCCCUCU 22 7837 SCNN1A-3989 + GUGAGAAACCUCUCCUUCCCUCU 237838 SCNN1A-3990 + UGUGAGAAACCUCUCCUUCCCUCU 24 7839 SCNN1A-3991 +AAACAGCCCAGGUGGUCU 18 7840 SCNN1A-3992 + GAAACAGCCCAGGUGGUCU 19 7841SCNN1A-3993 + UGAAACAGCCCAGGUGGUCU 20 7842 SCNN1A-3994 +GUGAAACAGCCCAGGUGGUCU 21 7843 SCNN1A-3995 + GGUGAAACAGCCCAGGUGGUCU 227844 SCNN1A-3996 + UGGUGAAACAGCCCAGGUGGUCU 23 7845 SCNN1A-3997 +UUGGUGAAACAGCCCAGGUGGUCU 24 7846 SCNN1A-3998 + UGGGGUGGGGGCAGAAGU 187847 SCNN1A-3999 + AUGGGGUGGGGGCAGAAGU 19 7848 SCNN1A-1279 +CAUGGGGUGGGGGCAGAAGU 20 5128 SCNN1A-4000 + ACAUGGGGUGGGGGCAGAAGU 21 7849SCNN1A-4001 + GACAUGGGGUGGGGGCAGAAGU 22 7850 SCNN1A-4002 +AGACAUGGGGUGGGGGCAGAAGU 23 7851 SCNN1A-4003 + GAGACAUGGGGUGGGGGCAGAAGU24 7852 SCNN1A-4004 + GGACACAGAGACUAGAGU 18 7853 SCNN1A-4005 +UGGACACAGAGACUAGAGU 19 7854 SCNN1A-4006 + CUGGACACAGAGACUAGAGU 20 7855SCNN1A-4007 + ACUGGACACAGAGACUAGAGU 21 7856 SCNN1A-4008 +CACUGGACACAGAGACUAGAGU 22 7857 SCNN1A-4009 + GCACUGGACACAGAGACUAGAGU 237858 SCNN1A-4010 + UGCACUGGACACAGAGACUAGAGU 24 7859 SCNN1A-4011 +CCACUCCAUUUCUUAGGU 18 7860 SCNN1A-4012 + GCCACUCCAUUUCUUAGGU 19 7861SCNN1A-4013 + GGCCACUCCAUUUCUUAGGU 20 7862 SCNN1A-4014 +UGGCCACUCCAUUUCUUAGGU 21 7863 SCNN1A-4015 + UUGGCCACUCCAUUUCUUAGGU 227864 SCNN1A-4016 + UUUGGCCACUCCAUUUCUUAGGU 23 7865 SCNN1A-4017 +CUUUGGCCACUCCAUUUCUUAGGU 24 7866 SCNN1A-4018 + AGGUGUGGGGCAGAGGGU 187867 SCNN1A-4019 + UAGGUGUGGGGCAGAGGGU 19 7868 SCNN1A-1286 +UUAGGUGUGGGGCAGAGGGU 20 5135 SCNN1A-4020 + CUUAGGUGUGGGGCAGAGGGU 21 7869SCNN1A-4021 + UCUUAGGUGUGGGGCAGAGGGU 22 7870 SCNN1A-4022 +UUCUUAGGUGUGGGGCAGAGGGU 23 7871 SCNN1A-4023 + UUUCUUAGGUGUGGGGCAGAGGGU24 7872 SCNN1A-4024 + GGAAAGAGAGAGUAGGGU 18 7873 SCNN1A-4025 +AGGAAAGAGAGAGUAGGGU 19 7874 SCNN1A-4026 + CAGGAAAGAGAGAGUAGGGU 20 7875SCNN1A-4027 + UCAGGAAAGAGAGAGUAGGGU 21 7876 SCNN1A-4028 +AUCAGGAAAGAGAGAGUAGGGU 22 7877 SCNN1A-4029 + UAUCAGGAAAGAGAGAGUAGGGU 237878 SCNN1A-4030 + UUAUCAGGAAAGAGAGAGUAGGGU 24 7879 SCNN1A-4031 +AGGACAGAGACAUGGGGU 18 7880 SCNN1A-4032 + AAGGACAGAGACAUGGGGU 19 7881SCNN1A-1287 + CAAGGACAGAGACAUGGGGU 20 5136 SCNN1A-4033 +ACAAGGACAGAGACAUGGGGU 21 7882 SCNN1A-4034 + GACAAGGACAGAGACAUGGGGU 227883 SCNN1A-4035 + GGACAAGGACAGAGACAUGGGGU 23 7884 SCNN1A-4036 +GGGACAAGGACAGAGACAUGGGGU 24 7885 SCNN1A-4037 + UGAAACAGCCCAGGUGGU 187886 SCNN1A-4038 + GUGAAACAGCCCAGGUGGU 19 7887 SCNN1A-4039 +GGUGAAACAGCCCAGGUGGU 20 7888 SCNN1A-4040 + UGGUGAAACAGCCCAGGUGGU 21 7889SCNN1A-4041 + UUGGUGAAACAGCCCAGGUGGU 22 7890 SCNN1A-4042 +CUUGGUGAAACAGCCCAGGUGGU 23 7891 SCNN1A-4043 + ACUUGGUGAAACAGCCCAGGUGGU24 7892 SCNN1A-4044 + AGGAGGGUGACCAUCUGU 18 7893 SCNN1A-4045 +CAGGAGGGUGACCAUCUGU 19 7894 SCNN1A-4046 + ACAGGAGGGUGACCAUCUGU 20 7895SCNN1A-4047 + GACAGGAGGGUGACCAUCUGU 21 7896 SCNN1A-4048 +GGACAGGAGGGUGACCAUCUGU 22 7897 SCNN1A-4049 + UGGACAGGAGGGUGACCAUCUGU 237898 SCNN1A-4050 + UUGGACAGGAGGGUGACCAUCUGU 24 7899 SCNN1A-4051 +UAUCGGCUUCGGAACCUU 18 7900 SCNN1A-4052 + GUAUCGGCUUCGGAACCUU 19 7901SCNN1A-1297 + AGUAUCGGCUUCGGAACCUU 20 5146 SCNN1A-4053 +CAGUAUCGGCUUCGGAACCUU 21 7902 SCNN1A-4054 + CCAGUAUCGGCUUCGGAACCUU 227903 SCNN1A-4055 + ACCAGUAUCGGCUUCGGAACCUU 23 7904 SCNN1A-4056 +GACCAGUAUCGGCUUCGGAACCUU 24 7905 SCNN1A-4057 + GGAGACCAGUAUCGGCUU 187906 SCNN1A-4058 + UGGAGACCAGUAUCGGCUU 19 7907 SCNN1A-1298 +CUGGAGACCAGUAUCGGCUU 20 5147 SCNN1A-4059 + CCUGGAGACCAGUAUCGGCUU 21 7908SCNN1A-4060 + GCCUGGAGACCAGUAUCGGCUU 22 7909 SCNN1A-4061 +GGCCUGGAGACCAGUAUCGGCUU 23 7910 SCNN1A-4062 + CGGCCUGGAGACCAGUAUCGGCUU24 7911 SCNN1A-4063 + GUCACAGUACUCCACGUU 18 7912 SCNN1A-4064 +AGUCACAGUACUCCACGUU 19 7913 SCNN1A-4065 + UAGUCACAGUACUCCACGUU 20 7914SCNN1A-4066 + GUAGUCACAGUACUCCACGUU 21 7915 SCNN1A-4067 +UGUAGUCACAGUACUCCACGUU 22 7916 SCNN1A-4068 + CUGUAGUCACAGUACUCCACGUU 237917 SCNN1A-4069 + UCUGUAGUCACAGUACUCCACGUU 24 7918 SCNN1A-4070 −CAGUGCAACCAGAACAAA 18 7919 SCNN1A-4071 − CCAGUGCAACCAGAACAAA 19 7920SCNN1A-4072 − UCCAGUGCAACCAGAACAAA 20 7921 SCNN1A-4073 −GUCCAGUGCAACCAGAACAAA 21 7922 SCNN1A-4074 − UGUCCAGUGCAACCAGAACAAA 227923 SCNN1A-4075 − GUGUCCAGUGCAACCAGAACAAA 23 7924 SCNN1A-4076 −UGUGUCCAGUGCAACCAGAACAAA 24 7925 SCNN1A-4077 − AGGUACCCGGAAAUUAAA 187926 SCNN1A-4078 − CAGGUACCCGGAAAUUAAA 19 7927 SCNN1A-4079 −UCAGGUACCCGGAAAUUAAA 20 7928 SCNN1A-4080 − UUCAGGUACCCGGAAAUUAAA 21 7929SCNN1A-4081 − CUUCAGGUACCCGGAAAUUAAA 22 7930 SCNN1A-4082 −CCUUCAGGUACCCGGAAAUUAAA 23 7931 SCNN1A-4083 − CCCUUCAGGUACCCGGAAAUUAAA24 7932 SCNN1A-4084 − CUGCCCCACACCUAAGAA 18 7933 SCNN1A-4085 −UCUGCCCCACACCUAAGAA 19 7934 SCNN1A-4086 − CUCUGCCCCACACCUAAGAA 20 7935SCNN1A-4087 − CCUCUGCCCCACACCUAAGAA 21 7936 SCNN1A-4088 −CCCUCUGCCCCACACCUAAGAA 22 7937 SCNN1A-4089 − ACCCUCUGCCCCACACCUAAGAA 237938 SCNN1A-4090 − CACCCUCUGCCCCACACCUAAGAA 24 7939 SCNN1A-4091 −GUCCAACCUGGGCAGCCA 18 7940 SCNN1A-4092 − UGUCCAACCUGGGCAGCCA 19 7941SCNN1A-4093 − CUGUCCAACCUGGGCAGCCA 20 7942 SCNN1A-4094 −CCUGUCCAACCUGGGCAGCCA 21 7943 SCNN1A-4095 − UCCUGUCCAACCUGGGCAGCCA 227944 SCNN1A-4096 − CUCCUGUCCAACCUGGGCAGCCA 23 7945 SCNN1A-4097 −CCUCCUGUCCAACCUGGGCAGCCA 24 7946 SCNN1A-4098 − UCCUGGGGUGAGACUCCA 187947 SCNN1A-4099 − UUCCUGGGGUGAGACUCCA 19 7948 SCNN1A-904 −GUUCCUGGGGUGAGACUCCA 20 4753 SCNN1A-4100 − AGUUCCUGGGGUGAGACUCCA 21 7949SCNN1A-4101 − CAGUUCCUGGGGUGAGACUCCA 22 7950 SCNN1A-4102 −ACAGUUCCUGGGGUGAGACUCCA 23 7951 SCNN1A-4103 − CACAGUUCCUGGGGUGAGACUCCA24 7952 SCNN1A-4104 − GGCCCCCGCCCAUCUCCA 18 7953 SCNN1A-4105 −GGGCCCCCGCCCAUCUCCA 19 7954 SCNN1A-907 − UGGGCCCCCGCCCAUCUCCA 20 4756SCNN1A-4106 − CUGGGCCCCCGCCCAUCUCCA 21 7955 SCNN1A-4107 −CCUGGGCCCCCGCCCAUCUCCA 22 7956 SCNN1A-4108 − CCCUGGGCCCCCGCCCAUCUCCA 237957 SCNN1A-4109 − ACCCUGGGCCCCCGCCCAUCUCCA 24 7958 SCNN1A-4110 −AGGAGCUGGACCGCAUCA 18 7959 SCNN1A-4111 − GAGGAGCUGGACCGCAUCA 19 7960SCNN1A-4112 − GGAGGAGCUGGACCGCAUCA 20 7961 SCNN1A-4113 −UGGAGGAGCUGGACCGCAUCA 21 7962 SCNN1A-4114 − CUGGAGGAGCUGGACCGCAUCA 227963 SCNN1A-4115 − GCUGGAGGAGCUGGACCGCAUCA 23 7964 SCNN1A-4116 −AGCUGGAGGAGCUGGACCGCAUCA 24 7965 SCNN1A-4117 − GGUCCCGCCCCCGCCUCA 187966 SCNN1A-4118 − GGGUCCCGCCCCCGCCUCA 19 7967 SCNN1A-924 −AGGGUCCCGCCCCCGCCUCA 20 4773 SCNN1A-4119 − GAGGGUCCCGCCCCCGCCUCA 21 7968SCNN1A-4120 − UGAGGGUCCCGCCCCCGCCUCA 22 7969 SCNN1A-4121 −CUGAGGGUCCCGCCCCCGCCUCA 23 7970 SCNN1A-4122 − CCUGAGGGUCCCGCCCCCGCCUCA24 7971 SCNN1A-4123 − AAGUCAACAUCUUCUUCA 18 7972 SCNN1A-4124 −AAAGUCAACAUCUUCUUCA 19 7973 SCNN1A-928 − CAAAGUCAACAUCUUCUUCA 20 4777SCNN1A-4125 − CCAAAGUCAACAUCUUCUUCA 21 7974 SCNN1A-4126 −GCCAAAGUCAACAUCUUCUUCA 22 7975 SCNN1A-4127 − GGCCAAAGUCAACAUCUUCUUCA 237976 SCNN1A-4128 − UGGCCAAAGUCAACAUCUUCUUCA 24 7977 SCNN1A-4129 −UUGGUGUAUGUGGGUUCA 18 7978 SCNN1A-4130 − CUUGGUGUAUGUGGGUUCA 19 7979SCNN1A-4131 − UCUUGGUGUAUGUGGGUUCA 20 7980 SCNN1A-4132 −CUCUUGGUGUAUGUGGGUUCA 21 7981 SCNN1A-4133 − UCUCUUGGUGUAUGUGGGUUCA 227982 SCNN1A-4134 − AUCUCUUGGUGUAUGUGGGUUCA 23 7983 SCNN1A-4135 −GAUCUCUUGGUGUAUGUGGGUUCA 24 7984 SCNN1A-4136 − UCUGGGGGGGCCCUGAGA 187985 SCNN1A-4137 − CUCUGGGGGGGCCCUGAGA 19 7986 SCNN1A-938 −CCUCUGGGGGGGCCCUGAGA 20 4787 SCNN1A-4138 − UCCUCUGGGGGGGCCCUGAGA 21 7987SCNN1A-4139 − GUCCUCUGGGGGGGCCCUGAGA 22 7988 SCNN1A-4140 −UGUCCUCUGGGGGGGCCCUGAGA 23 7989 SCNN1A-4141 − CUGUCCUCUGGGGGGGCCCUGAGA24 7990 SCNN1A-4142 − UACUGGUCUCCAGGCCGA 18 7991 SCNN1A-4143 −AUACUGGUCUCCAGGCCGA 19 7992 SCNN1A-943 − GAUACUGGUCUCCAGGCCGA 20 4792SCNN1A-4144 − CGAUACUGGUCUCCAGGCCGA 21 7993 SCNN1A-4145 −CCGAUACUGGUCUCCAGGCCGA 22 7994 SCNN1A-4146 − GCCGAUACUGGUCUCCAGGCCGA 237995 SCNN1A-4147 − AGCCGAUACUGGUCUCCAGGCCGA 24 7996 SCNN1A-4148 −UUCCAGAUGCUAUCGCGA 18 7997 SCNN1A-4149 − CUUCCAGAUGCUAUCGCGA 19 7998SCNN1A-4150 − UCUUCCAGAUGCUAUCGCGA 20 7999 SCNN1A-4151 −GUCUUCCAGAUGCUAUCGCGA 21 8000 SCNN1A-4152 − GGUCUUCCAGAUGCUAUCGCGA 228001 SCNN1A-4153 − GGGUCUUCCAGAUGCUAUCGCGA 23 8002 SCNN1A-4154 −UGGGUCUUCCAGAUGCUAUCGCGA 24 8003 SCNN1A-4155 − CCAGGUGGACUGGAAGGA 188004 SCNN1A-4156 − CCCAGGUGGACUGGAAGGA 19 8005 SCNN1A-4157 −CCCCAGGUGGACUGGAAGGA 20 8006 SCNN1A-4158 − CCCCCAGGUGGACUGGAAGGA 21 8007SCNN1A-4159 − ACCCCCAGGUGGACUGGAAGGA 22 8008 SCNN1A-4160 −AACCCCCAGGUGGACUGGAAGGA 23 8009 SCNN1A-4161 − CAACCCCCAGGUGGACUGGAAGGA24 8010 SCNN1A-4162 − GGGGGGCCCUGAGAGGGA 18 8011 SCNN1A-4163 −GGGGGGGCCCUGAGAGGGA 19 8012 SCNN1A-954 − UGGGGGGGCCCUGAGAGGGA 20 4803SCNN1A-4164 − CUGGGGGGGCCCUGAGAGGGA 21 8013 SCNN1A-4165 −UCUGGGGGGGCCCUGAGAGGGA 22 8014 SCNN1A-4166 − CUCUGGGGGGGCCCUGAGAGGGA 238015 SCNN1A-4167 − CCUCUGGGGGGGCCCUGAGAGGGA 24 8016 SCNN1A-4168 −CGGUAGGUCGUGCCUGGA 18 8017 SCNN1A-4169 − ACGGUAGGUCGUGCCUGGA 19 8018SCNN1A-962 − CACGGUAGGUCGUGCCUGGA 20 4811 SCNN1A-4170 −UCACGGUAGGUCGUGCCUGGA 21 8019 SCNN1A-4171 − GUCACGGUAGGUCGUGCCUGGA 228020 SCNN1A-4172 − UGUCACGGUAGGUCGUGCCUGGA 23 8021 SCNN1A-4173 −CUGUCACGGUAGGUCGUGCCUGGA 24 8022 SCNN1A-4174 − CAACAACCCCCAGGUGGA 188023 SCNN1A-4175 − ACAACAACCCCCAGGUGGA 19 8024 SCNN1A-4176 −GACAACAACCCCCAGGUGGA 20 8025 SCNN1A-4177 − GGACAACAACCCCCAGGUGGA 21 8026SCNN1A-4178 − GGGACAACAACCCCCAGGUGGA 22 8027 SCNN1A-4179 −CGGGACAACAACCCCCAGGUGGA 23 8028 SCNN1A-4180 − GCGGGACAACAACCCCCAGGUGGA24 8029 SCNN1A-4181 − CCUCUGGGGGGGCCCUGA 18 8030 SCNN1A-4182 −UCCUCUGGGGGGGCCCUGA 19 8031 SCNN1A-4183 − GUCCUCUGGGGGGGCCCUGA 20 8032SCNN1A-4184 − UGUCCUCUGGGGGGGCCCUGA 21 8033 SCNN1A-4185 −CUGUCCUCUGGGGGGGCCCUGA 22 8034 SCNN1A-4186 − CCUGUCCUCUGGGGGGGCCCUGA 238035 SCNN1A-4187 − ACCUGUCCUCUGGGGGGGCCCUGA 24 8036 SCNN1A-4188 −GGAAGGCAAGGAUGCUGA 18 8037 SCNN1A-4189 − AGGAAGGCAAGGAUGCUGA 19 8038SCNN1A-4190 − GAGGAAGGCAAGGAUGCUGA 20 8039 SCNN1A-4191 −UGAGGAAGGCAAGGAUGCUGA 21 8040 SCNN1A-4192 − AUGAGGAAGGCAAGGAUGCUGA 228041 SCNN1A-4193 − CAUGAGGAAGGCAAGGAUGCUGA 23 8042 SCNN1A-4194 −GCAUGAGGAAGGCAAGGAUGCUGA 24 8043 SCNN1A-4195 − CCCUGCUGUCCACAGUGA 188044 SCNN1A-4196 − CCCCUGCUGUCCACAGUGA 19 8045 SCNN1A-4197 −UCCCCUGCUGUCCACAGUGA 20 8046 SCNN1A-4198 − UUCCCCUGCUGUCCACAGUGA 21 8047SCNN1A-4199 − AUUCCCCUGCUGUCCACAGUGA 22 8048 SCNN1A-4200 −CAUUCCCCUGCUGUCCACAGUGA 23 8049 SCNN1A-4201 − UCAUUCCCCUGCUGUCCACAGUGA24 8050 SCNN1A-4202 − CGUGGAGUACUGUGACUA 18 8051 SCNN1A-4203 −ACGUGGAGUACUGUGACUA 19 8052 SCNN1A-4204 − AACGUGGAGUACUGUGACUA 20 8053SCNN1A-4205 − GAACGUGGAGUACUGUGACUA 21 8054 SCNN1A-4206 −AGAACGUGGAGUACUGUGACUA 22 8055 SCNN1A-4207 − CAGAACGUGGAGUACUGUGACUA 238056 SCNN1A-4208 − CCAGAACGUGGAGUACUGUGACUA 24 8057 SCNN1A-4209 −CUUCCACCACCCGAUGUA 18 8058 SCNN1A-4210 − ACUUCCACCACCCGAUGUA 19 8059SCNN1A-975 − CACUUCCACCACCCGAUGUA 20 4824 SCNN1A-4211 −UCACUUCCACCACCCGAUGUA 21 8060 SCNN1A-4212 − CUCACUUCCACCACCCGAUGUA 228061 SCNN1A-4213 − UCUCACUUCCACCACCCGAUGUA 23 8062 SCNN1A-4214 −CUCUCACUUCCACCACCCGAUGUA 24 8063 SCNN1A-4215 − UCAGGUACCCGGAAAUUA 188064 SCNN1A-4216 − UUCAGGUACCCGGAAAUUA 19 8065 SCNN1A-4217 −CUUCAGGUACCCGGAAAUUA 20 8066 SCNN1A-4218 − CCUUCAGGUACCCGGAAAUUA 21 8067SCNN1A-4219 − CCCUUCAGGUACCCGGAAAUUA 22 8068 SCNN1A-4220 −CCCCUUCAGGUACCCGGAAAUUA 23 8069 SCNN1A-4221 − GCCCCUUCAGGUACCCGGAAAUUA24 8070 SCNN1A-4222 − AAUUACACCGUCAACAAC 18 8071 SCNN1A-4223 −CAAUUACACCGUCAACAAC 19 8072 SCNN1A-4224 − ACAAUUACACCGUCAACAAC 20 8073SCNN1A-4225 − AACAAUUACACCGUCAACAAC 21 8074 SCNN1A-4226 −GAACAAUUACACCGUCAACAAC 22 8075 SCNN1A-4227 − AGAACAAUUACACCGUCAACAAC 238076 SCNN1A-4228 − CAGAACAAUUACACCGUCAACAAC 24 8077 SCNN1A-4229 −GUCACCCUCCUGUCCAAC 18 8078 SCNN1A-4230 − GGUCACCCUCCUGUCCAAC 19 8079SCNN1A-4231 − UGGUCACCCUCCUGUCCAAC 20 8080 SCNN1A-4232 −AUGGUCACCCUCCUGUCCAAC 21 8081 SCNN1A-4233 − GAUGGUCACCCUCCUGUCCAAC 228082 SCNN1A-4234 − AGAUGGUCACCCUCCUGUCCAAC 23 8083 SCNN1A-4235 −CAGAUGGUCACCCUCCUGUCCAAC 24 8084 SCNN1A-4236 − CUCUGUGUCCAGUGCAAC 188085 SCNN1A-4237 − UCUCUGUGUCCAGUGCAAC 19 8086 SCNN1A-4238 −GUCUCUGUGUCCAGUGCAAC 20 8087 SCNN1A-4239 − AGUCUCUGUGUCCAGUGCAAC 21 8088SCNN1A-4240 − UAGUCUCUGUGUCCAGUGCAAC 22 8089 SCNN1A-4241 −CUAGUCUCUGUGUCCAGUGCAAC 23 8090 SCNN1A-4242 − UCUAGUCUCUGUGUCCAGUGCAAC24 8091 SCNN1A-4243 − UAUCCGCGGCCCCAGAAC 18 8092 SCNN1A-4244 −CUAUCCGCGGCCCCAGAAC 19 8093 SCNN1A-4245 − UCUAUCCGCGGCCCCAGAAC 20 8094SCNN1A-4246 − UUCUAUCCGCGGCCCCAGAAC 21 8095 SCNN1A-4247 −CUUCUAUCCGCGGCCCCAGAAC 22 8096 SCNN1A-4248 − UCUUCUAUCCGCGGCCCCAGAAC 238097 SCNN1A-4249 − AUCUUCUAUCCGCGGCCCCAGAAC 24 8098 SCNN1A-4250 −GACUUCUCCUCAGACCAC 18 8099 SCNN1A-4251 − UGACUUCUCCUCAGACCAC 19 8100SCNN1A-4252 − UUGACUUCUCCUCAGACCAC 20 8101 SCNN1A-4253 −GUUGACUUCUCCUCAGACCAC 21 8102 SCNN1A-4254 − GGUUGACUUCUCCUCAGACCAC 228103 SCNN1A-4255 − AGGUUGACUUCUCCUCAGACCAC 23 8104 SCNN1A-4256 −CAGGUUGACUUCUCCUCAGACCAC 24 8105 SCNN1A-4257 − AGGAAACCCUGGACAGAC 188106 SCNN1A-4258 − UAGGAAACCCUGGACAGAC 19 8107 SCNN1A-4259 −AUAGGAAACCCUGGACAGAC 20 8108 SCNN1A-4260 − CAUAGGAAACCCUGGACAGAC 21 8109SCNN1A-4261 − UCAUAGGAAACCCUGGACAGAC 22 8110 SCNN1A-4262 −UUCAUAGGAAACCCUGGACAGAC 23 8111 SCNN1A-4263 − GUUCAUAGGAAACCCUGGACAGAC24 8112 SCNN1A-4264 − CAGGUGGACUGGAAGGAC 18 8113 SCNN1A-4265 −CCAGGUGGACUGGAAGGAC 19 8114 SCNN1A-988 − CCCAGGUGGACUGGAAGGAC 20 4837SCNN1A-4266 − CCCCAGGUGGACUGGAAGGAC 21 8115 SCNN1A-4267 −CCCCCAGGUGGACUGGAAGGAC 22 8116 SCNN1A-4268 − ACCCCCAGGUGGACUGGAAGGAC 238117 SCNN1A-4269 − AACCCCCAGGUGGACUGGAAGGAC 24 8118 SCNN1A-4270 −AACAACCCCCAGGUGGAC 18 8119 SCNN1A-4271 − CAACAACCCCCAGGUGGAC 19 8120SCNN1A-990 − ACAACAACCCCCAGGUGGAC 20 4839 SCNN1A-4272 −GACAACAACCCCCAGGUGGAC 21 8121 SCNN1A-4273 − GGACAACAACCCCCAGGUGGAC 228122 SCNN1A-4274 − GGGACAACAACCCCCAGGUGGAC 23 8123 SCNN1A-4275 −CGGGACAACAACCCCCAGGUGGAC 24 8124 SCNN1A-4276 − UGCUAUACUUUCAAUGAC 188125 SCNN1A-4277 − CUGCUAUACUUUCAAUGAC 19 8126 SCNN1A-4278 −ACUGCUAUACUUUCAAUGAC 20 8127 SCNN1A-4279 − AACUGCUAUACUUUCAAUGAC 21 8128SCNN1A-4280 − AAACUGCUAUACUUUCAAUGAC 22 8129 SCNN1A-4281 −GAAACUGCUAUACUUUCAAUGAC 23 8130 SCNN1A-4282 − GGAAACUGCUAUACUUUCAAUGAC24 8131 SCNN1A-4283 − GAAGGCAAGGAUGCUGAC 18 8132 SCNN1A-4284 −GGAAGGCAAGGAUGCUGAC 19 8133 SCNN1A-992 − AGGAAGGCAAGGAUGCUGAC 20 4841SCNN1A-4285 − GAGGAAGGCAAGGAUGCUGAC 21 8134 SCNN1A-4286 −UGAGGAAGGCAAGGAUGCUGAC 22 8135 SCNN1A-4287 − AUGAGGAAGGCAAGGAUGCUGAC 238136 SCNN1A-4288 − CAUGAGGAAGGCAAGGAUGCUGAC 24 8137 SCNN1A-4289 −CCUGCUGUCCACAGUGAC 18 8138 SCNN1A-4290 − CCCUGCUGUCCACAGUGAC 19 8139SCNN1A-993 − CCCCUGCUGUCCACAGUGAC 20 4842 SCNN1A-4291 −UCCCCUGCUGUCCACAGUGAC 21 8140 SCNN1A-4292 − UUCCCCUGCUGUCCACAGUGAC 228141 SCNN1A-4293 − AUUCCCCUGCUGUCCACAGUGAC 23 8142 SCNN1A-4294 −CAUUCCCCUGCUGUCCACAGUGAC 24 8143 SCNN1A-4295 − CCUCGCCCCUUCAGGUAC 188144 SCNN1A-4296 − CCCUCGCCCCUUCAGGUAC 19 8145 SCNN1A-4297 −CCCCUCGCCCCUUCAGGUAC 20 8146 SCNN1A-4298 − UCCCCUCGCCCCUUCAGGUAC 21 8147SCNN1A-4299 − UUCCCCUCGCCCCUUCAGGUAC 22 8148 SCNN1A-4300 −CUUCCCCUCGCCCCUUCAGGUAC 23 8149 SCNN1A-4301 − UCUUCCCCUCGCCCCUUCAGGUAC24 8150 SCNN1A-4302 − GUGGGUUCAUAGGAAACC 18 8151 SCNN1A-4303 −UGUGGGUUCAUAGGAAACC 19 8152 SCNN1A-4304 − AUGUGGGUUCAUAGGAAACC 20 8153SCNN1A-4305 − UAUGUGGGUUCAUAGGAAACC 21 8154 SCNN1A-4306 −GUAUGUGGGUUCAUAGGAAACC 22 8155 SCNN1A-4307 − UGUAUGUGGGUUCAUAGGAAACC 238156 SCNN1A-4308 − GUGUAUGUGGGUUCAUAGGAAACC 24 8157 SCNN1A-4309 −CCCCCUGCCUAUGCCACC 18 8158 SCNN1A-4310 − UCCCCCUGCCUAUGCCACC 19 8159SCNN1A-4311 − CUCCCCCUGCCUAUGCCACC 20 8160 SCNN1A-4312 −CCUCCCCCUGCCUAUGCCACC 21 8161 SCNN1A-4313 − CCCUCCCCCUGCCUAUGCCACC 228162 SCNN1A-4314 − CCCCUCCCCCUGCCUAUGCCACC 23 8163 SCNN1A-4315 −GCCCCUCCCCCUGCCUAUGCCACC 24 8164 SCNN1A-4316 − CUCGCCCCUUCAGGUACC 188165 SCNN1A-4317 − CCUCGCCCCUUCAGGUACC 19 8166 SCNN1A-1007 −CCCUCGCCCCUUCAGGUACC 20 4856 SCNN1A-4318 − CCCCUCGCCCCUUCAGGUACC 21 8167SCNN1A-4319 − UCCCCUCGCCCCUUCAGGUACC 22 8168 SCNN1A-4320 −UUCCCCUCGCCCCUUCAGGUACC 23 8169 SCNN1A-4321 − CUUCCCCUCGCCCCUUCAGGUACC24 8170 SCNN1A-4322 − AUCUUCUAUCCGCGGCCC 18 8171 SCNN1A-4323 −CAUCUUCUAUCCGCGGCCC 19 8172 SCNN1A-4324 − ACAUCUUCUAUCCGCGGCCC 20 8173SCNN1A-4325 − UACAUCUUCUAUCCGCGGCCC 21 8174 SCNN1A-4326 −CUACAUCUUCUAUCCGCGGCCC 22 8175 SCNN1A-4327 − CCUACAUCUUCUAUCCGCGGCCC 238176 SCNN1A-4328 − GCCUACAUCUUCUAUCCGCGGCCC 24 8177 SCNN1A-4329 −CAGAGACUCUGCCAUCCC 18 8178 SCNN1A-4330 − CCAGAGACUCUGCCAUCCC 19 8179SCNN1A-1023 − GCCAGAGACUCUGCCAUCCC 20 4872 SCNN1A-4331 −UGCCAGAGACUCUGCCAUCCC 21 8180 SCNN1A-4332 − CUGCCAGAGACUCUGCCAUCCC 228181 SCNN1A-4333 − GCUGCCAGAGACUCUGCCAUCCC 23 8182 SCNN1A-4334 −GGCUGCCAGAGACUCUGCCAUCCC 24 8183 SCNN1A-4335 − GGUGAGGCCCGCAGCGCC 188184 SCNN1A-4336 − UGGUGAGGCCCGCAGCGCC 19 8185 SCNN1A-4337 −CUGGUGAGGCCCGCAGCGCC 20 8186 SCNN1A-4338 − GCUGGUGAGGCCCGCAGCGCC 21 8187SCNN1A-4339 − AGCUGGUGAGGCCCGCAGCGCC 22 8188 SCNN1A-4340 −CAGCUGGUGAGGCCCGCAGCGCC 23 8189 SCNN1A-4341 − CCAGCUGGUGAGGCCCGCAGCGCC24 8190 SCNN1A-4342 − GAUACUGGUCUCCAGGCC 18 8191 SCNN1A-4343 −CGAUACUGGUCUCCAGGCC 19 8192 SCNN1A-4344 − CCGAUACUGGUCUCCAGGCC 20 8193SCNN1A-4345 − GCCGAUACUGGUCUCCAGGCC 21 8194 SCNN1A-4346 −AGCCGAUACUGGUCUCCAGGCC 22 8195 SCNN1A-4347 − AAGCCGAUACUGGUCUCCAGGCC 238196 SCNN1A-4348 − GAAGCCGAUACUGGUCUCCAGGCC 24 8197 SCNN1A-4349 −GAUGCUGACUGGGAGGCC 18 8198 SCNN1A-4350 − GGAUGCUGACUGGGAGGCC 19 8199SCNN1A-1028 − AGGAUGCUGACUGGGAGGCC 20 4877 SCNN1A-4351 −AAGGAUGCUGACUGGGAGGCC 21 8200 SCNN1A-4352 − CAAGGAUGCUGACUGGGAGGCC 228201 SCNN1A-4353 − GCAAGGAUGCUGACUGGGAGGCC 23 8202 SCNN1A-4354 −GGCAAGGAUGCUGACUGGGAGGCC 24 8203 SCNN1A-4355 − CUGUCCUCUGGGGGGGCC 188204 SCNN1A-4356 − CCUGUCCUCUGGGGGGGCC 19 8205 SCNN1A-4357 −ACCUGUCCUCUGGGGGGGCC 20 8206 SCNN1A-4358 − CACCUGUCCUCUGGGGGGGCC 21 8207SCNN1A-4359 − CCACCUGUCCUCUGGGGGGGCC 22 8208 SCNN1A-4360 −UCCACCUGUCCUCUGGGGGGGCC 23 8209 SCNN1A-4361 − CUCCACCUGUCCUCUGGGGGGGCC24 8210 SCNN1A-4362 − CCAGAGACUCUGCCAUCC 18 8211 SCNN1A-4363 −GCCAGAGACUCUGCCAUCC 19 8212 SCNN1A-4364 − UGCCAGAGACUCUGCCAUCC 20 8213SCNN1A-4365 − CUGCCAGAGACUCUGCCAUCC 21 8214 SCNN1A-4366 −GCUGCCAGAGACUCUGCCAUCC 22 8215 SCNN1A-4367 − GGCUGCCAGAGACUCUGCCAUCC 238216 SCNN1A-4368 − AGGCUGCCAGAGACUCUGCCAUCC 24 8217 SCNN1A-4369 −UUCCUGGGGUGAGACUCC 18 8218 SCNN1A-4370 − GUUCCUGGGGUGAGACUCC 19 8219SCNN1A-1037 − AGUUCCUGGGGUGAGACUCC 20 4886 SCNN1A-4371 −CAGUUCCUGGGGUGAGACUCC 21 8220 SCNN1A-4372 − ACAGUUCCUGGGGUGAGACUCC 228221 SCNN1A-4373 − CACAGUUCCUGGGGUGAGACUCC 23 8222 SCNN1A-4374 −GCACAGUUCCUGGGGUGAGACUCC 24 8223 SCNN1A-4375 − GGGCCCCCGCCCAUCUCC 188224 SCNN1A-4376 − UGGGCCCCCGCCCAUCUCC 19 8225 SCNN1A-1040 −CUGGGCCCCCGCCCAUCUCC 20 4889 SCNN1A-4377 − CCUGGGCCCCCGCCCAUCUCC 21 8226SCNN1A-4378 − CCCUGGGCCCCCGCCCAUCUCC 22 8227 SCNN1A-4379 −ACCCUGGGCCCCCGCCCAUCUCC 23 8228 SCNN1A-4380 − CACCCUGGGCCCCCGCCCAUCUCC24 8229 SCNN1A-4381 − GUAUUCACUCCUGCUUCC 18 8230 SCNN1A-4382 −UGUAUUCACUCCUGCUUCC 19 8231 SCNN1A-1046 − GUGUAUUCACUCCUGCUUCC 20 4895SCNN1A-4383 − UGUGUAUUCACUCCUGCUUCC 21 8232 SCNN1A-4384 −GUGUGUAUUCACUCCUGCUUCC 22 8233 SCNN1A-4385 − GGUGUGUAUUCACUCCUGCUUCC 238234 SCNN1A-4386 − AGGUGUGUAUUCACUCCUGCUUCC 24 8235 SCNN1A-4387 −GACACCCCCAUUCUUUCC 18 8236 SCNN1A-4388 − UGACACCCCCAUUCUUUCC 19 8237SCNN1A-4389 − AUGACACCCCCAUUCUUUCC 20 8238 SCNN1A-4390 −GAUGACACCCCCAUUCUUUCC 21 8239 SCNN1A-4391 − UGAUGACACCCCCAUUCUUUCC 228240 SCNN1A-4392 − UUGAUGACACCCCCAUUCUUUCC 23 8241 SCNN1A-4393 −CUUGAUGACACCCCCAUUCUUUCC 24 8242 SCNN1A-4394 − GUGGAGACCUCCAUCAGC 188243 SCNN1A-4395 − CGUGGAGACCUCCAUCAGC 19 8244 SCNN1A-4396 −GCGUGGAGACCUCCAUCAGC 20 8245 SCNN1A-4397 − GGCGUGGAGACCUCCAUCAGC 21 8246SCNN1A-4398 − UGGCGUGGAGACCUCCAUCAGC 22 8247 SCNN1A-4399 −CUGGCGUGGAGACCUCCAUCAGC 23 8248 SCNN1A-4400 − CCUGGCGUGGAGACCUCCAUCAGC24 8249 SCNN1A-4401 − CGGAAAUUAAAGAGGAGC 18 8250 SCNN1A-4402 −CCGGAAAUUAAAGAGGAGC 19 8251 SCNN1A-1058 − CCCGGAAAUUAAAGAGGAGC 20 4907SCNN1A-4403 − ACCCGGAAAUUAAAGAGGAGC 21 8252 SCNN1A-4404 −UACCCGGAAAUUAAAGAGGAGC 22 8253 SCNN1A-4405 − GUACCCGGAAAUUAAAGAGGAGC 238254 SCNN1A-4406 − GGUACCCGGAAAUUAAAGAGGAGC 24 8255 SCNN1A-4407 −CCGCACCCCUUGCAGCGC 18 8256 SCNN1A-4408 − GCCGCACCCCUUGCAGCGC 19 8257SCNN1A-4409 − UGCCGCACCCCUUGCAGCGC 20 8258 SCNN1A-4410 −CUGCCGCACCCCUUGCAGCGC 21 8259 SCNN1A-4411 − UCUGCCGCACCCCUUGCAGCGC 228260 SCNN1A-4412 − CUCUGCCGCACCCCUUGCAGCGC 23 8261 SCNN1A-4413 −ACUCUGCCGCACCCCUUGCAGCGC 24 8262 SCNN1A-4414 − GGAUGCUGACUGGGAGGC 188263 SCNN1A-4415 − AGGAUGCUGACUGGGAGGC 19 8264 SCNN1A-4416 −AAGGAUGCUGACUGGGAGGC 20 8265 SCNN1A-4417 − CAAGGAUGCUGACUGGGAGGC 21 8266SCNN1A-4418 − GCAAGGAUGCUGACUGGGAGGC 22 8267 SCNN1A-4419 −GGCAAGGAUGCUGACUGGGAGGC 23 8268 SCNN1A-4420 − AGGCAAGGAUGCUGACUGGGAGGC24 8269 SCNN1A-4421 − UUUAACUUGCGGCCUGGC 18 8270 SCNN1A-4422 −CUUUAACUUGCGGCCUGGC 19 8271 SCNN1A-4423 − GCUUUAACUUGCGGCCUGGC 20 8272SCNN1A-4424 − GGCUUUAACUUGCGGCCUGGC 21 8273 SCNN1A-4425 −UGGCUUUAACUUGCGGCCUGGC 22 8274 SCNN1A-4426 − GUGGCUUUAACUUGCGGCCUGGC 238275 SCNN1A-4427 − GGUGGCUUUAACUUGCGGCCUGGC 24 8276 SCNN1A-4428 −UCUGGAUGUCUUCCAUGC 18 8277 SCNN1A-4429 − CUCUGGAUGUCUUCCAUGC 19 8278SCNN1A-4430 − CCUCUGGAUGUCUUCCAUGC 20 8279 SCNN1A-4431 −ACCUCUGGAUGUCUUCCAUGC 21 8280 SCNN1A-4432 − AACCUCUGGAUGUCUUCCAUGC 228281 SCNN1A-4433 − CAACCUCUGGAUGUCUUCCAUGC 23 8282 SCNN1A-4434 −CCAACCUCUGGAUGUCUUCCAUGC 24 8283 SCNN1A-4435 − GCAGCCGUCGCGACCUGC 188284 SCNN1A-4436 − CGCAGCCGUCGCGACCUGC 19 8285 SCNN1A-1079 −CCGCAGCCGUCGCGACCUGC 20 4928 SCNN1A-4437 − CCCGCAGCCGUCGCGACCUGC 21 8286SCNN1A-4438 − UCCCGCAGCCGUCGCGACCUGC 22 8287 SCNN1A-4439 −CUCCCGCAGCCGUCGCGACCUGC 23 8288 SCNN1A-4440 − GCUCCCGCAGCCGUCGCGACCUGC24 8289 SCNN1A-4441 − ACAUCCUGUCGAGGCUGC 18 8290 SCNN1A-4442 −AACAUCCUGUCGAGGCUGC 19 8291 SCNN1A-4443 − CAACAUCCUGUCGAGGCUGC 20 8292SCNN1A-4444 − UCAACAUCCUGUCGAGGCUGC 21 8293 SCNN1A-4445 −AUCAACAUCCUGUCGAGGCUGC 22 8294 SCNN1A-4446 − CAUCAACAUCCUGUCGAGGCUGC 238295 SCNN1A-4447 − ACAUCAACAUCCUGUCGAGGCUGC 24 8296 SCNN1A-4448 −AUCUCCAGGGGGCUCUGC 18 8297 SCNN1A-4449 − CAUCUCCAGGGGGCUCUGC 19 8298SCNN1A-1083 − CCAUCUCCAGGGGGCUCUGC 20 4932 SCNN1A-4450 −CCCAUCUCCAGGGGGCUCUGC 21 8299 SCNN1A-4451 − GCCCAUCUCCAGGGGGCUCUGC 228300 SCNN1A-4452 − CGCCCAUCUCCAGGGGGCUCUGC 23 8301 SCNN1A-4453 −CCGCCCAUCUCCAGGGGGCUCUGC 24 8302 SCNN1A-4454 − GGCUGUUUCACCAAGUGC 188303 SCNN1A-4455 − GGGCUGUUUCACCAAGUGC 19 8304 SCNN1A-1085 −UGGGCUGUUUCACCAAGUGC 20 4934 SCNN1A-4456 − CUGGGCUGUUUCACCAAGUGC 21 8305SCNN1A-4457 − CCUGGGCUGUUUCACCAAGUGC 22 8306 SCNN1A-4458 −ACCUGGGCUGUUUCACCAAGUGC 23 8307 SCNN1A-4459 − CACCUGGGCUGUUUCACCAAGUGC24 8308 SCNN1A-4460 − GGGCCCGGGUAAUGGUGC 18 8309 SCNN1A-4461 −GGGGCCCGGGUAAUGGUGC 19 8310 SCNN1A-4462 − UGGGGCCCGGGUAAUGGUGC 20 8311SCNN1A-4463 − CUGGGGCCCGGGUAAUGGUGC 21 8312 SCNN1A-4464 −ACUGGGGCCCGGGUAAUGGUGC 22 8313 SCNN1A-4465 − GACUGGGGCCCGGGUAAUGGUGC 238314 SCNN1A-4466 − UGACUGGGGCCCGGGUAAUGGUGC 24 8315 SCNN1A-4467 −UUCCAGGAGAGCAUGAUC 18 8316 SCNN1A-4468 − CUUCCAGGAGAGCAUGAUC 19 8317SCNN1A-4469 − GCUUCCAGGAGAGCAUGAUC 20 8318 SCNN1A-4470 −UGCUUCCAGGAGAGCAUGAUC 21 8319 SCNN1A-4471 − CUGCUUCCAGGAGAGCAUGAUC 228320 SCNN1A-4472 − CCUGCUUCCAGGAGAGCAUGAUC 23 8321 SCNN1A-4473 −UCCUGCUUCCAGGAGAGCAUGAUC 24 8322 SCNN1A-4474 − GUUCCUGGGGUGAGACUC 188323 SCNN1A-4475 − AGUUCCUGGGGUGAGACUC 19 8324 SCNN1A-4476 −CAGUUCCUGGGGUGAGACUC 20 8325 SCNN1A-4477 − ACAGUUCCUGGGGUGAGACUC 21 8326SCNN1A-4478 − CACAGUUCCUGGGGUGAGACUC 22 8327 SCNN1A-4479 −GCACAGUUCCUGGGGUGAGACUC 23 8328 SCNN1A-4480 − AGCACAGUUCCUGGGGUGAGACUC24 8329 SCNN1A-4481 − GGGUCCCGCCCCCGCCUC 18 8330 SCNN1A-4482 −AGGGUCCCGCCCCCGCCUC 19 8331 SCNN1A-4483 − GAGGGUCCCGCCCCCGCCUC 20 8332SCNN1A-4484 − UGAGGGUCCCGCCCCCGCCUC 21 8333 SCNN1A-4485 −CUGAGGGUCCCGCCCCCGCCUC 22 8334 SCNN1A-4486 − CCUGAGGGUCCCGCCCCCGCCUC 238335 SCNN1A-4487 − GCCUGAGGGUCCCGCCCCCGCCUC 24 8336 SCNN1A-4488 −GUUCCUCCACCUGUCCUC 18 8337 SCNN1A-4489 − AGUUCCUCCACCUGUCCUC 19 8338SCNN1A-1095 − CAGUUCCUCCACCUGUCCUC 20 4944 SCNN1A-4490 −CCAGUUCCUCCACCUGUCCUC 21 8339 SCNN1A-4491 − GCCAGUUCCUCCACCUGUCCUC 228340 SCNN1A-4492 − GGCCAGUUCCUCCACCUGUCCUC 23 8341 SCNN1A-4493 −GGGCCAGUUCCUCCACCUGUCCUC 24 8342 SCNN1A-4494 − GAGGGGGCAGGGGUGCUC 188343 SCNN1A-4495 − CGAGGGGGCAGGGGUGCUC 19 8344 SCNN1A-1096 −CCGAGGGGGCAGGGGUGCUC 20 4945 SCNN1A-4496 − GCCGAGGGGGCAGGGGUGCUC 21 8345SCNN1A-4497 − GGCCGAGGGGGCAGGGGUGCUC 22 8346 SCNN1A-4498 −AGGCCGAGGGGGCAGGGGUGCUC 23 8347 SCNN1A-4499 − CAGGCCGAGGGGGCAGGGGUGCUC24 8348 SCNN1A-4500 − UGGGCCCCCGCCCAUCUC 18 8349 SCNN1A-4501 −CUGGGCCCCCGCCCAUCUC 19 8350 SCNN1A-4502 − CCUGGGCCCCCGCCCAUCUC 20 8351SCNN1A-4503 − CCCUGGGCCCCCGCCCAUCUC 21 8352 SCNN1A-4504 −ACCCUGGGCCCCCGCCCAUCUC 22 8353 SCNN1A-4505 − CACCCUGGGCCCCCGCCCAUCUC 238354 SCNN1A-4506 − CCACCCUGGGCCCCCGCCCAUCUC 24 8355 SCNN1A-4507 −UGUAUUCACUCCUGCUUC 18 8356 SCNN1A-4508 − GUGUAUUCACUCCUGCUUC 19 8357SCNN1A-4509 − UGUGUAUUCACUCCUGCUUC 20 8358 SCNN1A-4510 −GUGUGUAUUCACUCCUGCUUC 21 8359 SCNN1A-4511 − GGUGUGUAUUCACUCCUGCUUC 228360 SCNN1A-4512 − AGGUGUGUAUUCACUCCUGCUUC 23 8361 SCNN1A-4513 −CAGGUGUGUAUUCACUCCUGCUUC 24 8362 SCNN1A-4514 − AAAGUCAACAUCUUCUUC 188363 SCNN1A-4515 − CAAAGUCAACAUCUUCUUC 19 8364 SCNN1A-4516 −CCAAAGUCAACAUCUUCUUC 20 8365 SCNN1A-4517 − GCCAAAGUCAACAUCUUCUUC 21 8366SCNN1A-4518 − GGCCAAAGUCAACAUCUUCUUC 22 8367 SCNN1A-4519 −UGGCCAAAGUCAACAUCUUCUUC 23 8368 SCNN1A-4520 − GUGGCCAAAGUCAACAUCUUCUUC24 8369 SCNN1A-4521 − CUACAGAAAGCACAGUUC 18 8370 SCNN1A-4522 −ACUACAGAAAGCACAGUUC 19 8371 SCNN1A-4523 − GACUACAGAAAGCACAGUUC 20 8372SCNN1A-4524 − UGACUACAGAAAGCACAGUUC 21 8373 SCNN1A-4525 −GUGACUACAGAAAGCACAGUUC 22 8374 SCNN1A-4526 − UGUGACUACAGAAAGCACAGUUC 238375 SCNN1A-4527 − CUGUGACUACAGAAAGCACAGUUC 24 8376 SCNN1A-4528 −GGUACCCGGAAAUUAAAG 18 8377 SCNN1A-4529 − AGGUACCCGGAAAUUAAAG 19 8378SCNN1A-1106 − CAGGUACCCGGAAAUUAAAG 20 4955 SCNN1A-4530 −UCAGGUACCCGGAAAUUAAAG 21 8379 SCNN1A-4531 − UUCAGGUACCCGGAAAUUAAAG 228380 SCNN1A-4532 − CUUCAGGUACCCGGAAAUUAAAG 23 8381 SCNN1A-4533 −CCUUCAGGUACCCGGAAAUUAAAG 24 8382 SCNN1A-4534 − GGGGCCCUGAGAGGGAAG 188383 SCNN1A-4535 − GGGGGCCCUGAGAGGGAAG 19 8384 SCNN1A-4536 −GGGGGGCCCUGAGAGGGAAG 20 8385 SCNN1A-4537 − GGGGGGGCCCUGAGAGGGAAG 21 8386SCNN1A-4538 − UGGGGGGGCCCUGAGAGGGAAG 22 8387 SCNN1A-4539 −CUGGGGGGGCCCUGAGAGGGAAG 23 8388 SCNN1A-4540 − UCUGGGGGGGCCCUGAGAGGGAAG24 8389 SCNN1A-4541 − CGGGACAACAACCCCCAG 18 8390 SCNN1A-4542 −GCGGGACAACAACCCCCAG 19 8391 SCNN1A-4543 − UGCGGGACAACAACCCCCAG 20 8392SCNN1A-4544 − UUGCGGGACAACAACCCCCAG 21 8393 SCNN1A-4545 −CUUGCGGGACAACAACCCCCAG 22 8394 SCNN1A-4546 − GCUUGCGGGACAACAACCCCCAG 238395 SCNN1A-4547 − AGCUUGCGGGACAACAACCCCCAG 24 8396 SCNN1A-4548 −UCCAACCUGGGCAGCCAG 18 8397 SCNN1A-4549 − GUCCAACCUGGGCAGCCAG 19 8398SCNN1A-1116 − UGUCCAACCUGGGCAGCCAG 20 4965 SCNN1A-4550 −CUGUCCAACCUGGGCAGCCAG 21 8399 SCNN1A-4551 − CCUGUCCAACCUGGGCAGCCAG 228400 SCNN1A-4552 − UCCUGUCCAACCUGGGCAGCCAG 23 8401 SCNN1A-4553 −CUCCUGUCCAACCUGGGCAGCCAG 24 8402 SCNN1A-4554 − AUUCACUCCUGCUUCCAG 188403 SCNN1A-4555 − UAUUCACUCCUGCUUCCAG 19 8404 SCNN1A-4556 −GUAUUCACUCCUGCUUCCAG 20 8405 SCNN1A-4557 − UGUAUUCACUCCUGCUUCCAG 21 8406SCNN1A-4558 − GUGUAUUCACUCCUGCUUCCAG 22 8407 SCNN1A-4559 −UGUGUAUUCACUCCUGCUUCCAG 23 8408 SCNN1A-4560 − GUGUGUAUUCACUCCUGCUUCCAG24 8409 SCNN1A-4561 − UCAAAGUACACACAGCAG 18 8410 SCNN1A-4562 −UUCAAAGUACACACAGCAG 19 8411 SCNN1A-4563 − CUUCAAAGUACACACAGCAG 20 8412SCNN1A-4564 − CCUUCAAAGUACACACAGCAG 21 8413 SCNN1A-4565 −CCCUUCAAAGUACACACAGCAG 22 8414 SCNN1A-4566 − ACCCUUCAAAGUACACACAGCAG 238415 SCNN1A-4567 − UACCCUUCAAAGUACACACAGCAG 24 8416 SCNN1A-4568 −AACAUCUUCUUCAAGGAG 18 8417 SCNN1A-4569 − CAACAUCUUCUUCAAGGAG 19 8418SCNN1A-4570 − UCAACAUCUUCUUCAAGGAG 20 8419 SCNN1A-4571 −GUCAACAUCUUCUUCAAGGAG 21 8420 SCNN1A-4572 − AGUCAACAUCUUCUUCAAGGAG 228421 SCNN1A-4573 − AAGUCAACAUCUUCUUCAAGGAG 23 8422 SCNN1A-4574 −AAAGUCAACAUCUUCUUCAAGGAG 24 8423 SCNN1A-4575 − CCGGAAAUUAAAGAGGAG 188424 SCNN1A-4576 − CCCGGAAAUUAAAGAGGAG 19 8425 SCNN1A-4577 −ACCCGGAAAUUAAAGAGGAG 20 8426 SCNN1A-4578 − UACCCGGAAAUUAAAGAGGAG 21 8427SCNN1A-4579 − GUACCCGGAAAUUAAAGAGGAG 22 8428 SCNN1A-4580 −GGUACCCGGAAAUUAAAGAGGAG 23 8429 SCNN1A-4581 − AGGUACCCGGAAAUUAAAGAGGAG24 8430 SCNN1A-4582 − AAAGAGGAGCUGGAGGAG 18 8431 SCNN1A-4583 −UAAAGAGGAGCUGGAGGAG 19 8432 SCNN1A-4584 − UUAAAGAGGAGCUGGAGGAG 20 8433SCNN1A-4585 − AUUAAAGAGGAGCUGGAGGAG 21 8434 SCNN1A-4586 −AAUUAAAGAGGAGCUGGAGGAG 22 8435 SCNN1A-4587 − AAAUUAAAGAGGAGCUGGAGGAG 238436 SCNN1A-4588 − GAAAUUAAAGAGGAGCUGGAGGAG 24 8437 SCNN1A-4589 −ACUCUGCCAUCCCUGGAG 18 8438 SCNN1A-4590 − GACUCUGCCAUCCCUGGAG 19 8439SCNN1A-4591 − AGACUCUGCCAUCCCUGGAG 20 8440 SCNN1A-4592 −GAGACUCUGCCAUCCCUGGAG 21 8441 SCNN1A-4593 − AGAGACUCUGCCAUCCCUGGAG 228442 SCNN1A-4594 − CAGAGACUCUGCCAUCCCUGGAG 23 8443 SCNN1A-4595 −CCAGAGACUCUGCCAUCCCUGGAG 24 8444 SCNN1A-4596 − CUCUGGGGGGGCCCUGAG 188445 SCNN1A-4597 − CCUCUGGGGGGGCCCUGAG 19 8446 SCNN1A-1140 −UCCUCUGGGGGGGCCCUGAG 20 4989 SCNN1A-4598 − GUCCUCUGGGGGGGCCCUGAG 21 8447SCNN1A-4599 − UGUCCUCUGGGGGGGCCCUGAG 22 8448 SCNN1A-4600 −CUGUCCUCUGGGGGGGCCCUGAG 23 8449 SCNN1A-4601 − CCUGUCCUCUGGGGGGGCCCUGAG24 8450 SCNN1A-4602 − UGCCUGGAAUCAACAACG 18 8451 SCNN1A-4603 −AUGCCUGGAAUCAACAACG 19 8452 SCNN1A-4604 − CAUGCCUGGAAUCAACAACG 20 8453SCNN1A-4605 − CCAUGCCUGGAAUCAACAACG 21 8454 SCNN1A-4606 −UCCAUGCCUGGAAUCAACAACG 22 8455 SCNN1A-4607 − UUCCAUGCCUGGAAUCAACAACG 238456 SCNN1A-4608 − CUUCCAUGCCUGGAAUCAACAACG 24 8457 SCNN1A-4609 −UCCCUGGAGGAGGACACG 18 8458 SCNN1A-4610 − AUCCCUGGAGGAGGACACG 19 8459SCNN1A-4611 − CAUCCCUGGAGGAGGACACG 20 8460 SCNN1A-4612 −CCAUCCCUGGAGGAGGACACG 21 8461 SCNN1A-4613 − GCCAUCCCUGGAGGAGGACACG 228462 SCNN1A-4614 − UGCCAUCCCUGGAGGAGGACACG 23 8463 SCNN1A-4615 −CUGCCAUCCCUGGAGGAGGACACG 24 8464 SCNN1A-4616 − CCCGCCUCACGGGGCCCG 188465 SCNN1A-4617 − CCCCGCCUCACGGGGCCCG 19 8466 SCNN1A-4618 −CCCCCGCCUCACGGGGCCCG 20 8467 SCNN1A-4619 − GCCCCCGCCUCACGGGGCCCG 21 8468SCNN1A-4620 − CGCCCCCGCCUCACGGGGCCCG 22 8469 SCNN1A-4621 −CCGCCCCCGCCUCACGGGGCCCG 23 8470 SCNN1A-4622 − CCCGCCCCCGCCUCACGGGGCCCG24 8471 SCNN1A-4623 − GUGAGGCCCGCAGCGCCG 18 8472 SCNN1A-4624 −GGUGAGGCCCGCAGCGCCG 19 8473 SCNN1A-1148 − UGGUGAGGCCCGCAGCGCCG 20 4997SCNN1A-4625 − CUGGUGAGGCCCGCAGCGCCG 21 8474 SCNN1A-4626 −GCUGGUGAGGCCCGCAGCGCCG 22 8475 SCNN1A-4627 − AGCUGGUGAGGCCCGCAGCGCCG 238476 SCNN1A-4628 − CAGCUGGUGAGGCCCGCAGCGCCG 24 8477 SCNN1A-4629 −AUACUGGUCUCCAGGCCG 18 8478 SCNN1A-4630 − GAUACUGGUCUCCAGGCCG 19 8479SCNN1A-1149 − CGAUACUGGUCUCCAGGCCG 20 4998 SCNN1A-4631 −CCGAUACUGGUCUCCAGGCCG 21 8480 SCNN1A-4632 − GCCGAUACUGGUCUCCAGGCCG 228481 SCNN1A-4633 − AGCCGAUACUGGUCUCCAGGCCG 23 8482 SCNN1A-4634 −AAGCCGAUACUGGUCUCCAGGCCG 24 8483 SCNN1A-4635 − CUGGUGAGGCCCGCAGCG 188484 SCNN1A-4636 − GCUGGUGAGGCCCGCAGCG 19 8485 SCNN1A-4637 −AGCUGGUGAGGCCCGCAGCG 20 8486 SCNN1A-4638 − CAGCUGGUGAGGCCCGCAGCG 21 8487SCNN1A-4639 − CCAGCUGGUGAGGCCCGCAGCG 22 8488 SCNN1A-4640 −UCCAGCUGGUGAGGCCCGCAGCG 23 8489 SCNN1A-4641 − UUCCAGCUGGUGAGGCCCGCAGCG24 8490 SCNN1A-4642 − UGUCCCUGAUGCUGCGCG 18 8491 SCNN1A-4643 −CUGUCCCUGAUGCUGCGCG 19 8492 SCNN1A-4644 − UCUGUCCCUGAUGCUGCGCG 20 8493SCNN1A-4645 − GUCUGUCCCUGAUGCUGCGCG 21 8494 SCNN1A-4646 −GGUCUGUCCCUGAUGCUGCGCG 22 8495 SCNN1A-4647 − AGGUCUGUCCCUGAUGCUGCGCG 238496 SCNN1A-4648 − UAGGUCUGUCCCUGAUGCUGCGCG 24 8497 SCNN1A-4649 −UUAACUUGCGGCCUGGCG 18 8498 SCNN1A-4650 − UUUAACUUGCGGCCUGGCG 19 8499SCNN1A-1157 − CUUUAACUUGCGGCCUGGCG 20 5006 SCNN1A-4651 −GCUUUAACUUGCGGCCUGGCG 21 8500 SCNN1A-4652 − GGCUUUAACUUGCGGCCUGGCG 228501 SCNN1A-4653 − UGGCUUUAACUUGCGGCCUGGCG 23 8502 SCNN1A-4654 −GUGGCUUUAACUUGCGGCCUGGCG 24 8503 SCNN1A-4655 − UCAUCAGGGGUGGAUGCG 188504 SCNN1A-4656 − CUCAUCAGGGGUGGAUGCG 19 8505 SCNN1A-4657 −ACUCAUCAGGGGUGGAUGCG 20 8506 SCNN1A-4658 − UACUCAUCAGGGGUGGAUGCG 21 8507SCNN1A-4659 − AUACUCAUCAGGGGUGGAUGCG 22 8508 SCNN1A-4660 −CAUACUCAUCAGGGGUGGAUGCG 23 8509 SCNN1A-4661 − ACAUACUCAUCAGGGGUGGAUGCG24 8510 SCNN1A-4662 − CAGCCGUCGCGACCUGCG 18 8511 SCNN1A-4663 −GCAGCCGUCGCGACCUGCG 19 8512 SCNN1A-1158 − CGCAGCCGUCGCGACCUGCG 20 5007SCNN1A-4664 − CCGCAGCCGUCGCGACCUGCG 21 8513 SCNN1A-4665 −CCCGCAGCCGUCGCGACCUGCG 22 8514 SCNN1A-4666 − UCCCGCAGCCGUCGCGACCUGCG 238515 SCNN1A-4667 − CUCCCGCAGCCGUCGCGACCUGCG 24 8516 SCNN1A-4668 −CCGAUACUGGUCUCCAGG 18 8517 SCNN1A-4669 − GCCGAUACUGGUCUCCAGG 19 8518SCNN1A-4670 − AGCCGAUACUGGUCUCCAGG 20 8519 SCNN1A-4671 −AAGCCGAUACUGGUCUCCAGG 21 8520 SCNN1A-4672 − GAAGCCGAUACUGGUCUCCAGG 228521 SCNN1A-4673 − CGAAGCCGAUACUGGUCUCCAGG 23 8522 SCNN1A-4674 −CCGAAGCCGAUACUGGUCUCCAGG 24 8523 SCNN1A-4675 − UAAUGGUGCACGGGCAGG 188524 SCNN1A-4676 − GUAAUGGUGCACGGGCAGG 19 8525 SCNN1A-4677 −GGUAAUGGUGCACGGGCAGG 20 8526 SCNN1A-4678 − GGGUAAUGGUGCACGGGCAGG 21 8527SCNN1A-4679 − CGGGUAAUGGUGCACGGGCAGG 22 8528 SCNN1A-4680 −CCGGGUAAUGGUGCACGGGCAGG 23 8529 SCNN1A-4681 − CCCGGGUAAUGGUGCACGGGCAGG24 8530 SCNN1A-4682 − GGGGGGGCCCUGAGAGGG 18 8531 SCNN1A-4683 −UGGGGGGGCCCUGAGAGGG 19 8532 SCNN1A-4684 − CUGGGGGGGCCCUGAGAGGG 20 8533SCNN1A-4685 − UCUGGGGGGGCCCUGAGAGGG 21 8534 SCNN1A-4686 −CUCUGGGGGGGCCCUGAGAGGG 22 8535 SCNN1A-4687 − CCUCUGGGGGGGCCCUGAGAGGG 238536 SCNN1A-4688 − UCCUCUGGGGGGGCCCUGAGAGGG 24 8537 SCNN1A-4689 −GUCUCCAGGCCGAGGGGG 18 8538 SCNN1A-4690 − GGUCUCCAGGCCGAGGGGG 19 8539SCNN1A-4691 − UGGUCUCCAGGCCGAGGGGG 20 8540 SCNN1A-4692 −CUGGUCUCCAGGCCGAGGGGG 21 8541 SCNN1A-4693 − ACUGGUCUCCAGGCCGAGGGGG 228542 SCNN1A-4694 − UACUGGUCUCCAGGCCGAGGGGG 23 8543 SCNN1A-4695 −AUACUGGUCUCCAGGCCGAGGGGG 24 8544 SCNN1A-4696 − CCCAGGUAGAGUGUGGGG 188545 SCNN1A-4697 − UCCCAGGUAGAGUGUGGGG 19 8546 SCNN1A-4698 −AUCCCAGGUAGAGUGUGGGG 20 8547 SCNN1A-4699 − CAUCCCAGGUAGAGUGUGGGG 21 8548SCNN1A-4700 − ACAUCCCAGGUAGAGUGUGGGG 22 8549 SCNN1A-4701 −GACAUCCCAGGUAGAGUGUGGGG 23 8550 SCNN1A-4702 − UGACAUCCCAGGUAGAGUGUGGGG24 8551 SCNN1A-4703 − GUGUGGGGAAGGGAUGGG 18 8552 SCNN1A-4704 −AGUGUGGGGAAGGGAUGGG 19 8553 SCNN1A-1189 − GAGUGUGGGGAAGGGAUGGG 20 5038SCNN1A-4705 − AGAGUGUGGGGAAGGGAUGGG 21 8554 SCNN1A-4706 −UAGAGUGUGGGGAAGGGAUGGG 22 8555 SCNN1A-4707 − GUAGAGUGUGGGGAAGGGAUGGG 238556 SCNN1A-4708 − GGUAGAGUGUGGGGAAGGGAUGGG 24 8557 SCNN1A-4709 −GAAAGCACAGUUCCUGGG 18 8558 SCNN1A-4710 − AGAAAGCACAGUUCCUGGG 19 8559SCNN1A-4711 − CAGAAAGCACAGUUCCUGGG 20 8560 SCNN1A-4712 −ACAGAAAGCACAGUUCCUGGG 21 8561 SCNN1A-4713 − UACAGAAAGCACAGUUCCUGGG 228562 SCNN1A-4714 − CUACAGAAAGCACAGUUCCUGGG 23 8563 SCNN1A-4715 −ACUACAGAAAGCACAGUUCCUGGG 24 8564 SCNN1A-4716 − UGUCUGUGGUGGAGAUGG 188565 SCNN1A-4717 − UUGUCUGUGGUGGAGAUGG 19 8566 SCNN1A-4718 −GUUGUCUGUGGUGGAGAUGG 20 8567 SCNN1A-4719 − UGUUGUCUGUGGUGGAGAUGG 21 8568SCNN1A-4720 − GUGUUGUCUGUGGUGGAGAUGG 22 8569 SCNN1A-4721 −GGUGUUGUCUGUGGUGGAGAUGG 23 8570 SCNN1A-4722 − CGGUGUUGUCUGUGGUGGAGAUGG24 8571 SCNN1A-4723 − AGUGUGGGGAAGGGAUGG 18 8572 SCNN1A-4724 −GAGUGUGGGGAAGGGAUGG 19 8573 SCNN1A-4725 − AGAGUGUGGGGAAGGGAUGG 20 8574SCNN1A-4726 − UAGAGUGUGGGGAAGGGAUGG 21 8575 SCNN1A-4727 −GUAGAGUGUGGGGAAGGGAUGG 22 8576 SCNN1A-4728 − GGUAGAGUGUGGGGAAGGGAUGG 238577 SCNN1A-4729 − AGGUAGAGUGUGGGGAAGGGAUGG 24 8578 SCNN1A-4730 −AACCCCCAGGUGGACUGG 18 8579 SCNN1A-4731 − CAACCCCCAGGUGGACUGG 19 8580SCNN1A-4732 − ACAACCCCCAGGUGGACUGG 20 8581 SCNN1A-4733 −AACAACCCCCAGGUGGACUGG 21 8582 SCNN1A-4734 − CAACAACCCCCAGGUGGACUGG 228583 SCNN1A-4735 − ACAACAACCCCCAGGUGGACUGG 23 8584 SCNN1A-4736 −GACAACAACCCCCAGGUGGACUGG 24 8585 SCNN1A-4737 − AGACUCUGCCAUCCCUGG 188586 SCNN1A-4738 − GAGACUCUGCCAUCCCUGG 19 8587 SCNN1A-1196 −AGAGACUCUGCCAUCCCUGG 20 5045 SCNN1A-4739 − CAGAGACUCUGCCAUCCCUGG 21 8588SCNN1A-4740 − CCAGAGACUCUGCCAUCCCUGG 22 8589 SCNN1A-4741 −GCCAGAGACUCUGCCAUCCCUGG 23 8590 SCNN1A-4742 − UGCCAGAGACUCUGCCAUCCCUGG24 8591 SCNN1A-4743 − ACGGUAGGUCGUGCCUGG 18 8592 SCNN1A-4744 −CACGGUAGGUCGUGCCUGG 19 8593 SCNN1A-4745 − UCACGGUAGGUCGUGCCUGG 20 8594SCNN1A-4746 − GUCACGGUAGGUCGUGCCUGG 21 8595 SCNN1A-4747 −UGUCACGGUAGGUCGUGCCUGG 22 8596 SCNN1A-4748 − CUGUCACGGUAGGUCGUGCCUGG 238597 SCNN1A-4749 − UCUGUCACGGUAGGUCGUGCCUGG 24 8598 SCNN1A-4750 −AAAUUAAAGAGGAGCUGG 18 8599 SCNN1A-4751 − GAAAUUAAAGAGGAGCUGG 19 8600SCNN1A-1198 − GGAAAUUAAAGAGGAGCUGG 20 5047 SCNN1A-4752 −CGGAAAUUAAAGAGGAGCUGG 21 8601 SCNN1A-4753 − CCGGAAAUUAAAGAGGAGCUGG 228602 SCNN1A-4754 − CCCGGAAAUUAAAGAGGAGCUGG 23 8603 SCNN1A-4755 −ACCCGGAAAUUAAAGAGGAGCUGG 24 8604 SCNN1A-4756 − CCUCCACCUGUCCUCUGG 188605 SCNN1A-4757 − UCCUCCACCUGUCCUCUGG 19 8606 SCNN1A-1199 −UUCCUCCACCUGUCCUCUGG 20 5048 SCNN1A-4758 − GUUCCUCCACCUGUCCUCUGG 21 8607SCNN1A-4759 − AGUUCCUCCACCUGUCCUCUGG 22 8608 SCNN1A-4760 −CAGUUCCUCCACCUGUCCUCUGG 23 8609 SCNN1A-4761 − CCAGUUCCUCCACCUGUCCUCUGG24 8610 SCNN1A-4762 − CCUCGGUGUUGUCUGUGG 18 8611 SCNN1A-4763 −UCCUCGGUGUUGUCUGUGG 19 8612 SCNN1A-1205 − CUCCUCGGUGUUGUCUGUGG 20 5054SCNN1A-4764 − GCUCCUCGGUGUUGUCUGUGG 21 8613 SCNN1A-4765 −GGCUCCUCGGUGUUGUCUGUGG 22 8614 SCNN1A-4766 − CGGCUCCUCGGUGUUGUCUGUGG 238615 SCNN1A-4767 − UCGGCUCCUCGGUGUUGUCUGUGG 24 8616 SCNN1A-4768 −GAGACCUCCAUCAGCAUG 18 8617 SCNN1A-4769 − GGAGACCUCCAUCAGCAUG 19 8618SCNN1A-1210 − UGGAGACCUCCAUCAGCAUG 20 5059 SCNN1A-4770 −GUGGAGACCUCCAUCAGCAUG 21 8619 SCNN1A-4771 − CGUGGAGACCUCCAUCAGCAUG 228620 SCNN1A-4772 − GCGUGGAGACCUCCAUCAGCAUG 23 8621 SCNN1A-4773 −GGCGUGGAGACCUCCAUCAGCAUG 24 8622 SCNN1A-4774 − CGCAGCCGUCGCGACCUG 188623 SCNN1A-4775 − CCGCAGCCGUCGCGACCUG 19 8624 SCNN1A-1216 −CCCGCAGCCGUCGCGACCUG 20 5065 SCNN1A-4776 − UCCCGCAGCCGUCGCGACCUG 21 8625SCNN1A-4777 − CUCCCGCAGCCGUCGCGACCUG 22 8626 SCNN1A-4778 −GCUCCCGCAGCCGUCGCGACCUG 23 8627 SCNN1A-4779 − GGCUCCCGCAGCCGUCGCGACCUG24 8628 SCNN1A-4780 − GAGACUCUGCCAUCCCUG 18 8629 SCNN1A-4781 −AGAGACUCUGCCAUCCCUG 19 8630 SCNN1A-4782 − CAGAGACUCUGCCAUCCCUG 20 8631SCNN1A-4783 − CCAGAGACUCUGCCAUCCCUG 21 8632 SCNN1A-4784 −GCCAGAGACUCUGCCAUCCCUG 22 8633 SCNN1A-4785 − UGCCAGAGACUCUGCCAUCCCUG 238634 SCNN1A-4786 − CUGCCAGAGACUCUGCCAUCCCUG 24 8635 SCNN1A-4787 −CACUACAUCAACAUCCUG 18 8636 SCNN1A-4788 − CCACUACAUCAACAUCCUG 19 8637SCNN1A-4789 − UCCACUACAUCAACAUCCUG 20 8638 SCNN1A-4790 −UUCCACUACAUCAACAUCCUG 21 8639 SCNN1A-4791 − CUUCCACUACAUCAACAUCCUG 228640 SCNN1A-4792 − GCUUCCACUACAUCAACAUCCUG 23 8641 SCNN1A-4793 −CGCUUCCACUACAUCAACAUCCUG 24 8642 SCNN1A-4794 − AUGGCAGUGAUGUUCCUG 188643 SCNN1A-4795 − AAUGGCAGUGAUGUUCCUG 19 8644 SCNN1A-4796 −GAAUGGCAGUGAUGUUCCUG 20 8645 SCNN1A-4797 − AGAAUGGCAGUGAUGUUCCUG 21 8646SCNN1A-4798 − AAGAAUGGCAGUGAUGUUCCUG 22 8647 SCNN1A-4799 −CAAGAAUGGCAGUGAUGUUCCUG 23 8648 SCNN1A-4800 − CCAAGAAUGGCAGUGAUGUUCCUG24 8649 SCNN1A-4801 − AAGAUCGGCUUCCAGCUG 18 8650 SCNN1A-4802 −GAAGAUCGGCUUCCAGCUG 19 8651 SCNN1A-4803 − GGAAGAUCGGCUUCCAGCUG 20 8652SCNN1A-4804 − UGGAAGAUCGGCUUCCAGCUG 21 8653 SCNN1A-4805 −CUGGAAGAUCGGCUUCCAGCUG 22 8654 SCNN1A-4806 − ACUGGAAGAUCGGCUUCCAGCUG 238655 SCNN1A-4807 − GACUGGAAGAUCGGCUUCCAGCUG 24 8656 SCNN1A-4808 −GAAAUUAAAGAGGAGCUG 18 8657 SCNN1A-4809 − GGAAAUUAAAGAGGAGCUG 19 8658SCNN1A-4810 − CGGAAAUUAAAGAGGAGCUG 20 8659 SCNN1A-4811 −CCGGAAAUUAAAGAGGAGCUG 21 8660 SCNN1A-4812 − CCCGGAAAUUAAAGAGGAGCUG 228661 SCNN1A-4813 − ACCCGGAAAUUAAAGAGGAGCUG 23 8662 SCNN1A-4814 −UACCCGGAAAUUAAAGAGGAGCUG 24 8663 SCNN1A-4815 − UCCUCCACCUGUCCUCUG 188664 SCNN1A-4816 − UUCCUCCACCUGUCCUCUG 19 8665 SCNN1A-1224 −GUUCCUCCACCUGUCCUCUG 20 5073 SCNN1A-4817 − AGUUCCUCCACCUGUCCUCUG 21 8666SCNN1A-4818 − CAGUUCCUCCACCUGUCCUCUG 22 8667 SCNN1A-4819 −CCAGUUCCUCCACCUGUCCUCUG 23 8668 SCNN1A-4820 − GCCAGUUCCUCCACCUGUCCUCUG24 8669 SCNN1A-4821 − CAUCUCCAGGGGGCUCUG 18 8670 SCNN1A-4822 −CCAUCUCCAGGGGGCUCUG 19 8671 SCNN1A-4823 − CCCAUCUCCAGGGGGCUCUG 20 8672SCNN1A-4824 − GCCCAUCUCCAGGGGGCUCUG 21 8673 SCNN1A-4825 −CGCCCAUCUCCAGGGGGCUCUG 22 8674 SCNN1A-4826 − CCGCCCAUCUCCAGGGGGCUCUG 238675 SCNN1A-4827 − CCCGCCCAUCUCCAGGGGGCUCUG 24 8676 SCNN1A-4828 −GGGCUGUUUCACCAAGUG 18 8677 SCNN1A-4829 − UGGGCUGUUUCACCAAGUG 19 8678SCNN1A-4830 − CUGGGCUGUUUCACCAAGUG 20 8679 SCNN1A-4831 −CCUGGGCUGUUUCACCAAGUG 21 8680 SCNN1A-4832 − ACCUGGGCUGUUUCACCAAGUG 228681 SCNN1A-4833 − CACCUGGGCUGUUUCACCAAGUG 23 8682 SCNN1A-4834 −CCACCUGGGCUGUUUCACCAAGUG 24 8683 SCNN1A-4835 − GACAUCCCAGGUAGAGUG 188684 SCNN1A-4836 − UGACAUCCCAGGUAGAGUG 19 8685 SCNN1A-1228 −GUGACAUCCCAGGUAGAGUG 20 5077 SCNN1A-4837 − GGUGACAUCCCAGGUAGAGUG 21 8686SCNN1A-4838 − CGGUGACAUCCCAGGUAGAGUG 22 8687 SCNN1A-4839 −UCGGUGACAUCCCAGGUAGAGUG 23 8688 SCNN1A-4840 − CUCGGUGACAUCCCAGGUAGAGUG24 8689 SCNN1A-4841 − UCAGGGGUGGAUGCGGUG 18 8690 SCNN1A-4842 −AUCAGGGGUGGAUGCGGUG 19 8691 SCNN1A-1233 − CAUCAGGGGUGGAUGCGGUG 20 5082SCNN1A-4843 − UCAUCAGGGGUGGAUGCGGUG 21 8692 SCNN1A-4844 −CUCAUCAGGGGUGGAUGCGGUG 22 8693 SCNN1A-4845 − ACUCAUCAGGGGUGGAUGCGGUG 238694 SCNN1A-4846 − UACUCAUCAGGGGUGGAUGCGGUG 24 8695 SCNN1A-4847 −UCCUCGGUGUUGUCUGUG 18 8696 SCNN1A-4848 − CUCCUCGGUGUUGUCUGUG 19 8697SCNN1A-4849 − GCUCCUCGGUGUUGUCUGUG 20 8698 SCNN1A-4850 −GGCUCCUCGGUGUUGUCUGUG 21 8699 SCNN1A-4851 − CGGCUCCUCGGUGUUGUCUGUG 228700 SCNN1A-4852 − UCGGCUCCUCGGUGUUGUCUGUG 23 8701 SCNN1A-4853 −UUCGGCUCCUCGGUGUUGUCUGUG 24 8702 SCNN1A-4854 − CAUCCCAGGUAGAGUGUG 188703 SCNN1A-4855 − ACAUCCCAGGUAGAGUGUG 19 8704 SCNN1A-1238 −GACAUCCCAGGUAGAGUGUG 20 5087 SCNN1A-4856 − UGACAUCCCAGGUAGAGUGUG 21 8705SCNN1A-4857 − GUGACAUCCCAGGUAGAGUGUG 22 8706 SCNN1A-4858 −GGUGACAUCCCAGGUAGAGUGUG 23 8707 SCNN1A-4859 − CGGUGACAUCCCAGGUAGAGUGUG24 8708 SCNN1A-4860 − AGCGUGGCCUCCAGCUUG 18 8709 SCNN1A-4861 −UAGCGUGGCCUCCAGCUUG 19 8710 SCNN1A-1242 − GUAGCGUGGCCUCCAGCUUG 20 5091SCNN1A-4862 − CGUAGCGUGGCCUCCAGCUUG 21 8711 SCNN1A-4863 −CCGUAGCGUGGCCUCCAGCUUG 22 8712 SCNN1A-4864 − CCCGUAGCGUGGCCUCCAGCUUG 238713 SCNN1A-4865 − GCCCGUAGCGUGGCCUCCAGCUUG 24 8714 SCNN1A-4866 −GGAGACCUCCAUCAGCAU 18 8715 SCNN1A-4867 − UGGAGACCUCCAUCAGCAU 19 8716SCNN1A-4868 − GUGGAGACCUCCAUCAGCAU 20 8717 SCNN1A-4869 −CGUGGAGACCUCCAUCAGCAU 21 8718 SCNN1A-4870 − GCGUGGAGACCUCCAUCAGCAU 228719 SCNN1A-4871 − GGCGUGGAGACCUCCAUCAGCAU 23 8720 SCNN1A-4872 −UGGCGUGGAGACCUCCAUCAGCAU 24 8721 SCNN1A-4873 − UCUACCAGACAUACUCAU 188722 SCNN1A-4874 − UUCUACCAGACAUACUCAU 19 8723 SCNN1A-4875 −CUUCUACCAGACAUACUCAU 20 8724 SCNN1A-4876 − GCUUCUACCAGACAUACUCAU 21 8725SCNN1A-4877 − UGCUUCUACCAGACAUACUCAU 22 8726 SCNN1A-4878 −CUGCUUCUACCAGACAUACUCAU 23 8727 SCNN1A-4879 − ACUGCUUCUACCAGACAUACUCAU24 8728 SCNN1A-4880 − UGGUGUAUGUGGGUUCAU 18 8729 SCNN1A-4881 −UUGGUGUAUGUGGGUUCAU 19 8730 SCNN1A-1250 − CUUGGUGUAUGUGGGUUCAU 20 5099SCNN1A-4882 − UCUUGGUGUAUGUGGGUUCAU 21 8731 SCNN1A-4883 −CUCUUGGUGUAUGUGGGUUCAU 22 8732 SCNN1A-4884 − UCUCUUGGUGUAUGUGGGUUCAU 238733 SCNN1A-4885 − AUCUCUUGGUGUAUGUGGGUUCAU 24 8734 SCNN1A-4886 −UACUCUCUCUUUCCUGAU 18 8735 SCNN1A-4887 − CUACUCUCUCUUUCCUGAU 19 8736SCNN1A-4888 − CCUACUCUCUCUUUCCUGAU 20 8737 SCNN1A-4889 −CCCUACUCUCUCUUUCCUGAU 21 8738 SCNN1A-4890 − ACCCUACUCUCUCUUUCCUGAU 228739 SCNN1A-4891 − GACCCUACUCUCUCUUUCCUGAU 23 8740 SCNN1A-4892 −UGACCCUACUCUCUCUUUCCUGAU 24 8741 SCNN1A-4893 − GGAAACCCUGGACAGACU 188742 SCNN1A-4894 − AGGAAACCCUGGACAGACU 19 8743 SCNN1A-1257 −UAGGAAACCCUGGACAGACU 20 5106 SCNN1A-4895 − AUAGGAAACCCUGGACAGACU 21 8744SCNN1A-4896 − CAUAGGAAACCCUGGACAGACU 22 8745 SCNN1A-4897 −UCAUAGGAAACCCUGGACAGACU 23 8746 SCNN1A-4898 − UUCAUAGGAAACCCUGGACAGACU24 8747 SCNN1A-4899 − AAGGCAAGGAUGCUGACU 18 8748 SCNN1A-4900 −GAAGGCAAGGAUGCUGACU 19 8749 SCNN1A-1258 − GGAAGGCAAGGAUGCUGACU 20 5107SCNN1A-4901 − AGGAAGGCAAGGAUGCUGACU 21 8750 SCNN1A-4902 −GAGGAAGGCAAGGAUGCUGACU 22 8751 SCNN1A-4903 − UGAGGAAGGCAAGGAUGCUGACU 238752 SCNN1A-4904 − AUGAGGAAGGCAAGGAUGCUGACU 24 8753 SCNN1A-4905 −ACCCUCUGCCCCACACCU 18 8754 SCNN1A-4906 − CACCCUCUGCCCCACACCU 19 8755SCNN1A-4907 − CCACCCUCUGCCCCACACCU 20 8756 SCNN1A-4908 −CCCACCCUCUGCCCCACACCU 21 8757 SCNN1A-4909 − UCCCACCCUCUGCCCCACACCU 228758 SCNN1A-4910 − UUCCCACCCUCUGCCCCACACCU 23 8759 SCNN1A-4911 −CUUCCCACCCUCUGCCCCACACCU 24 8760 SCNN1A-4912 − CCGCAGCCGUCGCGACCU 188761 SCNN1A-4913 − CCCGCAGCCGUCGCGACCU 19 8762 SCNN1A-4914 −UCCCGCAGCCGUCGCGACCU 20 8763 SCNN1A-4915 − CUCCCGCAGCCGUCGCGACCU 21 8764SCNN1A-4916 − GCUCCCGCAGCCGUCGCGACCU 22 8765 SCNN1A-4917 −GGCUCCCGCAGCCGUCGCGACCU 23 8766 SCNN1A-4918 − CGGCUCCCGCAGCCGUCGCGACCU24 8767 SCNN1A-4919 − GUCCUCUGGGGGGGCCCU 18 8768 SCNN1A-4920 −UGUCCUCUGGGGGGGCCCU 19 8769 SCNN1A-4921 − CUGUCCUCUGGGGGGGCCCU 20 8770SCNN1A-4922 − CCUGUCCUCUGGGGGGGCCCU 21 8771 SCNN1A-4923 −ACCUGUCCUCUGGGGGGGCCCU 22 8772 SCNN1A-4924 − CACCUGUCCUCUGGGGGGGCCCU 238773 SCNN1A-4925 − CCACCUGUCCUCUGGGGGGGCCCU 24 8774 SCNN1A-4926 −AGUUCCUCCACCUGUCCU 18 8775 SCNN1A-4927 − CAGUUCCUCCACCUGUCCU 19 8776SCNN1A-4928 − CCAGUUCCUCCACCUGUCCU 20 8777 SCNN1A-4929 −GCCAGUUCCUCCACCUGUCCU 21 8778 SCNN1A-4930 − GGCCAGUUCCUCCACCUGUCCU 228779 SCNN1A-4931 − GGGCCAGUUCCUCCACCUGUCCU 23 8780 SCNN1A-4932 −GGGGCCAGUUCCUCCACCUGUCCU 24 8781 SCNN1A-4933 − CAUGUUCCUCAUGCUGCU 188782 SCNN1A-4934 − UCAUGUUCCUCAUGCUGCU 19 8783 SCNN1A-4935 −AUCAUGUUCCUCAUGCUGCU 20 8784 SCNN1A-4936 − CAUCAUGUUCCUCAUGCUGCU 21 8785SCNN1A-4937 − UCAUCAUGUUCCUCAUGCUGCU 22 8786 SCNN1A-4938 −GUCAUCAUGUUCCUCAUGCUGCU 23 8787 SCNN1A-4939 − GGUCAUCAUGUUCCUCAUGCUGCU24 8788 SCNN1A-4940 − CGAGGGGGCAGGGGUGCU 18 8789 SCNN1A-4941 −CCGAGGGGGCAGGGGUGCU 19 8790 SCNN1A-4942 − GCCGAGGGGGCAGGGGUGCU 20 8791SCNN1A-4943 − GGCCGAGGGGGCAGGGGUGCU 21 8792 SCNN1A-4944 −AGGCCGAGGGGGCAGGGGUGCU 22 8793 SCNN1A-4945 − CAGGCCGAGGGGGCAGGGGUGCU 238794 SCNN1A-4946 − CCAGGCCGAGGGGGCAGGGGUGCU 24 8795 SCNN1A-4947 −UUCCUCCACCUGUCCUCU 18 8796 SCNN1A-4948 − GUUCCUCCACCUGUCCUCU 19 8797SCNN1A-1276 − AGUUCCUCCACCUGUCCUCU 20 5125 SCNN1A-4949 −CAGUUCCUCCACCUGUCCUCU 21 8798 SCNN1A-4950 − CCAGUUCCUCCACCUGUCCUCU 228799 SCNN1A-4951 − GCCAGUUCCUCCACCUGUCCUCU 23 8800 SCNN1A-4952 −GGCCAGUUCCUCCACCUGUCCUCU 24 8801 SCNN1A-4953 − UGACAUCCCAGGUAGAGU 188802 SCNN1A-4954 − GUGACAUCCCAGGUAGAGU 19 8803 SCNN1A-4955 −GGUGACAUCCCAGGUAGAGU 20 8804 SCNN1A-4956 − CGGUGACAUCCCAGGUAGAGU 21 8805SCNN1A-4957 − UCGGUGACAUCCCAGGUAGAGU 22 8806 SCNN1A-4958 −CUCGGUGACAUCCCAGGUAGAGU 23 8807 SCNN1A-4959 − CCUCGGUGACAUCCCAGGUAGAGU24 8808 SCNN1A-4960 − CCUGGAAUCAACAACGGU 18 8809 SCNN1A-4961 −GCCUGGAAUCAACAACGGU 19 8810 SCNN1A-4962 − UGCCUGGAAUCAACAACGGU 20 8811SCNN1A-4963 − AUGCCUGGAAUCAACAACGGU 21 8812 SCNN1A-4964 −CAUGCCUGGAAUCAACAACGGU 22 8813 SCNN1A-4965 − CCAUGCCUGGAAUCAACAACGGU 238814 SCNN1A-4966 − UCCAUGCCUGGAAUCAACAACGGU 24 8815 SCNN1A-4967 −AUCAGGGGUGGAUGCGGU 18 8816 SCNN1A-4968 − CAUCAGGGGUGGAUGCGGU 19 8817SCNN1A-4969 − UCAUCAGGGGUGGAUGCGGU 20 8818 SCNN1A-4970 −CUCAUCAGGGGUGGAUGCGGU 21 8819 SCNN1A-4971 − ACUCAUCAGGGGUGGAUGCGGU 228820 SCNN1A-4972 − UACUCAUCAGGGGUGGAUGCGGU 23 8821 SCNN1A-4973 −AUACUCAUCAGGGGUGGAUGCGGU 24 8822 SCNN1A-4974 − UGUGGGGAAGGGAUGGGU 188823 SCNN1A-4975 − GUGUGGGGAAGGGAUGGGU 19 8824 SCNN1A-1288 −AGUGUGGGGAAGGGAUGGGU 20 5137 SCNN1A-4976 − GAGUGUGGGGAAGGGAUGGGU 21 8825SCNN1A-4977 − AGAGUGUGGGGAAGGGAUGGGU 22 8826 SCNN1A-4978 −UAGAGUGUGGGGAAGGGAUGGGU 23 8827 SCNN1A-4979 − GUAGAGUGUGGGGAAGGGAUGGGU24 8828 SCNN1A-4980 − ACUUCCACCACCCGAUGU 18 8829 SCNN1A-4981 −CACUUCCACCACCCGAUGU 19 8830 SCNN1A-4982 − UCACUUCCACCACCCGAUGU 20 8831SCNN1A-4983 − CUCACUUCCACCACCCGAUGU 21 8832 SCNN1A-4984 −UCUCACUUCCACCACCCGAUGU 22 8833 SCNN1A-4985 − CUCUCACUUCCACCACCCGAUGU 238834 SCNN1A-4986 − ACUCUCACUUCCACCACCCGAUGU 24 8835 SCNN1A-4987 −ACAUCCCAGGUAGAGUGU 18 8836 SCNN1A-4988 − GACAUCCCAGGUAGAGUGU 19 8837SCNN1A-1293 − UGACAUCCCAGGUAGAGUGU 20 5142 SCNN1A-4989 −GUGACAUCCCAGGUAGAGUGU 21 8838 SCNN1A-4990 − GGUGACAUCCCAGGUAGAGUGU 228839 SCNN1A-4991 − CGGUGACAUCCCAGGUAGAGUGU 23 8840 SCNN1A-4992 −UCGGUGACAUCCCAGGUAGAGUGU 24 8841 SCNN1A-4993 − GAAACCCUGGACAGACUU 188842 SCNN1A-4994 − GGAAACCCUGGACAGACUU 19 8843 SCNN1A-1295 −AGGAAACCCUGGACAGACUU 20 5144 SCNN1A-4995 − UAGGAAACCCUGGACAGACUU 21 8844SCNN1A-4996 − AUAGGAAACCCUGGACAGACUU 22 8845 SCNN1A-4997 −CAUAGGAAACCCUGGACAGACUU 23 8846 SCNN1A-4998 − UCAUAGGAAACCCUGGACAGACUU24 8847 SCNN1A-4999 − UAGCGUGGCCUCCAGCUU 18 8848 SCNN1A-5000 −GUAGCGUGGCCUCCAGCUU 19 8849 SCNN1A-5001 − CGUAGCGUGGCCUCCAGCUU 20 8850SCNN1A-5002 − CCGUAGCGUGGCCUCCAGCUU 21 8851 SCNN1A-5003 −CCCGUAGCGUGGCCUCCAGCUU 22 8852 SCNN1A-5004 − GCCCGUAGCGUGGCCUCCAGCUU 238853 SCNN1A-5005 − AGCCCGUAGCGUGGCCUCCAGCUU 24 8854 SCNN1A-5006 −CAUGCUGCUCCGAAGGUU 18 8855 SCNN1A-5007 − UCAUGCUGCUCCGAAGGUU 19 8856SCNN1A-5008 − CUCAUGCUGCUCCGAAGGUU 20 8857 SCNN1A-5009 −CCUCAUGCUGCUCCGAAGGUU 21 8858 SCNN1A-5010 − UCCUCAUGCUGCUCCGAAGGUU 228859 SCNN1A-5011 − UUCCUCAUGCUGCUCCGAAGGUU 23 8860 SCNN1A-5012 −GUUCCUCAUGCUGCUCCGAAGGUU 24 8861 SCNN1A-5013 − GGCAGUGAUGUUCCUGUU 188862 SCNN1A-5014 − UGGCAGUGAUGUUCCUGUU 19 8863 SCNN1A-5015 −AUGGCAGUGAUGUUCCUGUU 20 8864 SCNN1A-5016 − AAUGGCAGUGAUGUUCCUGUU 21 8865SCNN1A-5017 − GAAUGGCAGUGAUGUUCCUGUU 22 8866 SCNN1A-5018 −AGAAUGGCAGUGAUGUUCCUGUU 23 8867 SCNN1A-5019 − AAGAAUGGCAGUGAUGUUCCUGUU24 8868

Table 45A provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the first tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon), have a high levelof orthogonality and start with a 5′G. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in thetable can be used with a N. meningitidis Cas9 molecule that generates adouble stranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 45A 1st Tier  Target DNA Site Seq gRNA Name StrandTargeting Domain Length ID SCNN1A-5020 + GGCUAGAGUCCUGCUCC 17 8869SCNN1A-5021 + GUCUAGGGUCCUGCUCC 17 8870 SCNN1A-5022 + GAUUCCAAACCAGGUUC17 8871 SCNN1A-5023 − GAUGUACUGGCAAUUCG 17 8872

Table 45B provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the second tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon) and have a highlevel of orthogonality. It is contemplated herein that in an embodimentthe targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a N. meningitidis Cas9 molecule that generates a doublestranded break (Cas9 nuclease) or a single-stranded break (Cas9nickase).

TABLE 45B  2nd Tier Target  DNA Site Seq gRNA Name StrandTargeting Domain Length ID SCNN1A-322 + UGGUCACUGCGGGGAAG 17  915SCNN1A-5024 + CCCUUCAUGAGCCCCGG 17 8873 SCNN1A-5025 + AGGGACUAACCGACCUG17 8874 SCNN1A-238 + AGAUGGUCACUGCGGGGAAG 20  858 SCNN1A-5026 −CAUGAUGUACUGGCAAUUCG 20 8875 SCNN1A-5027 + UUCCCCUUCAUGAGCCCCGG 20 8876SCNN1A-1657 + CAGAGGGACUAACCGACCUG 20 5506

Table 45C provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the third tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon) and start with a5′G. It is contemplated herein that in an embodiment the targetingdomain hybridizes to the target domain through complementary basepairing. Any of the targeting domains in the table can be used with a N.meningitidis Cas9 molecule that generates a double stranded break (Cas9nuclease) or a single-stranded break (Cas9 nickase).

TABLE 45C  3rd Tier Target    DNA Site Seq gRNA Name StrandTargeting Domain Length ID SCNN1A-5028 + GGCCCAGCCCCUGCUCC 17 8877SCNN1A-5029 + GAGGGCUAGAGUCCUGCUCC 20 8878 SCNN1A-5030 +GAGGUCUAGGGUCCUGCUCC 20 8879

Table 45D provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the fourth tier parameters. Thetargeting domains bind within the first 500 bp of the coding sequence(e.g., with 500 bp downstream from the start codon). It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a N. meningitidis Cas9 moleculethat generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 45D  4th Tier Target DNA Site Seq gRNA Name StrandTargeting Domain Length ID SCNN1A-5031 + CGGGGCCCAGCCCCUGCUCC 20 8880SCNN1A-5032 + CAGGAUUCCAAACCAGGUUC 20 8881

Table 45E provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the fifth tier parameters. Thetargeting domains fall in the coding sequence of the gene, downstream ofthe first 500 bp of coding sequence (e.g., anywhere from +500 (relativeto the start codon) to the stop codon of the gene). It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a N. meningitidis Cas9 moleculethat generates a double stranded break (Cas9 nuclease) or asingle-stranded break (Cas9 nickase).

TABLE 45E  5th Tier Target  DNA Site Seq gRNA Name StrandTargeting Domain Length ID SCNN1A-5033 + GAGUCUCACCCCAGGAA 17 8882SCNN1A-5034 − ACAGCAGGUGAGGCCCA 17 8883 SCNN1A-485 + GCGCCAUGGAGCAAGCA17 4334 SCNN1A-5035 + UAUGUCUGGUAGAAGCA 17 8884 SCNN1A-5036UCCAGGUGUGUAUUCAC 17 8885 SCNN1A-577 + CUGAGGAGAAGUCAACC 17 4426SCNN1A-5037 − GCUUGCUCCAUGGCGCC 17 8886 SCNN1A-5038 − GCAACUUCAUCUUCGCC17 8887 SCNN1A-5039 − GAGCCCGUAGCGUGGCC 17 8888 SCNN1A-5040 −ACUGGAAGGACUGGAAG 17 8889 SCNN1A-5041 − GCAACCAGAACAAAUCG 17 8890SCNN1A-5042 − AUGCGGUGAGGGAGUGG 17 8891 SCNN1A-787 − ACCCUGGACAGACUUGG17 4636 SCNN1A-5043 + AAGGGGACACUAACCUG 17 8892 SCNN1A-5044 −CUGCCUUUAUGGAUGAU 17 8893 SCNN1A-5045 − AACAACGGUGAGAAGCU 17 8894SCNN1A-5046 + UCGGCCUGGAGACCAGU 17 8895 SCNN1A-5047 + AGGGAGCUUCUCACCGU17 8896 SCNN1A-5048 + CUGGAGUCUCACCCCAGGAA 20 8897 SCNN1A-5049 −CACACAGCAGGUGAGGCCCA 20 8898 SCNN1A-909 + AGGGCGCCAUGGAGCAAGCA 20 4758SCNN1A-5050 + GAGUAUGUCUGGUAGAAGCA 20 8899 SCNN1A-5051 −CCUUCCAGGUGUGUAUUCAC 20 8900 SCNN1A-1000 + GGUCUGAGGAGAAGUCAACC 20 4849SCNN1A-5052 − CCUGCUUGCUCCAUGGCGCC 20 8901 SCNN1A-5053 −UGGGCAACUUCAUCUUCGCC 20 8902 SCNN1A-5054 − GUCGAGCCCGUAGCGUGGCC 20 8903SCNN1A-5055 − UGGACUGGAAGGACUGGAAG 20 8904 SCNN1A-5056 −AGUGCAACCAGAACAAAUCG 20 8905 SCNN1A-5057 − UGGAUGCGGUGAGGGAGUGG 20 8906SCNN1A-1206 − GAAACCCUGGACAGACUUGG 20 5055 SCNN1A-5058 +GGGAAGGGGACACUAACCUG 20 8907 SCNN1A-5059 − AACCUGCCUUUAUGGAUGAU 20 8908SCNN1A-5060 − AUCAACAACGGUGAGAAGCU 20 8909 SCNN1A-5061 +CCCUCGGCCUGGAGACCAGU 20 8910 SCNN1A-5062 + AGCAGGGAGCUUCUCACCGU 20 8911

Table 46A provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the first tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS), have a high level of orthogonality andstart with a 5′G. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the table can be used witha S. pyogenes eiCas9 molecule or eiCas9 fusion protein (e.g., an eiCas9fused to a transcription repressor domain) to alter the SCNN8A gene(e.g., reduce or eliminate SCNN1A gene expression, SCNN1A proteinfunction, or the level of SCNN1A protein). One or more gRNA may be usedto target an eiCas9 to the promoter region of the SCNN1A gene.

TABLE 46A  1st Tier Tar-    get DNA Site Seq gRNA Name StrandTargeting Domain Length ID SCNN1A-5063 + GAGAAUCAGACCCAAAA 17 8912SCNN1A-5064 − GAGCUGGCAAAUAGAAA 17 8913 SCNN1A-5065 + GAAGGAGCCAGCACCAA17 8914 SCNN1A-5066 + GGGCAACACAAGGAGAA 17 8915 SCNN1A-5067 +GCUGGGCUUCCCUAGAA 17 8916 SCNN1A-5068 − GCCAGAUUCAACUGGAA 17 8917SCNN1A-327 + GAUACCUCCCCUUGGAA 17 4176 SCNN1A-5069 + GCUAGGAGGGCAACACA17 8918 SCNN1A-328 − GGGCGCAGGGUGGGACA 17 4177 SCNN1A-5070 +GAAACUGACCCUUCCCA 17 8919 SCNN1A-5071 − GAGAGCAGACGAAUCCA 17 8920SCNN1A-329 − GCCUCACUCGGGUUCCA 17 4178 SCNN1A-5072 + GUGCCAAGUGGUGAGCA17 8921 SCNN1A-330 − GGGAGAAUGUGGGCGCA 17 4179 SCNN1A-5073 +GGUCCUUACAUUGGGCA 17 8922 SCNN1A-5074 − GAAAGGUGGCCCUAUCA 17 8923SCNN1A-5075 + GCAGUACUCCAGGCUCA 17 8924 SCNN1A-80 − GCCCAUACCAGGUCUCA 17 529 SCNN1A-5076 − GACACAGCUCGAGGUCA 17 8925 SCNN1A-5077 +GAGUACUGGACCUGAGA 17 8926 SCNN1A-5078 − GAGGGCCUAGAGUGAGA 17 8927SCNN1A-5079 + GGAAGGAGGGCUCCCGA 17 8928 SCNN1A-5080 + GGGAGUUUUCCGAAGGA17 8929 SCNN1A-5081 + GUUUUCCGAAGGAAGGA 17 8930 SCNN1A-5082 +GAACCGGGAGGACAGGA 17 8931 SCNN1A-5083 + GGAGUCUGUCUCCAGGA 17 8932SCNN1A-5084 + GGAUGUGAAAGCCGGGA 17 8933 SCNN1A-5085 − GUCUGCUGGCUUGUGGA17 8934 SCNN1A-5086 − GUCUGGACAAGGUUGGA 17 8935 SCNN1A-5087 −GCUCUGUGUGGGAGUGA 17 8936 SCNN1A-5088 + GAGGAGAAAUUCGUUGA 17 8937SCNN1A-5089 − GAGGAGAGGCCGUUCUA 17 8938 SCNN1A-5090 − GGAGACUGGAGUUUCUA17 8939 SCNN1A-5091 − GGACCAUGCCCAAUGUA 17 8940 SCNN1A-5092 −GGAAUCCUGGUUGACAC 17 8941 SCNN1A-5093 + GGCUGCCGCUUCCUCAC 17 8942SCNN1A-5094 + GGGCUUUAGACGCAGAC 17 8943 SCNN1A-5095 + GAAAGCCGGUGUCAACC17 8944 SCNN1A-5096 + GAGCAUUGAUACACACC 17 8945 SCNN1A-5097 +GAUUCUGUCUCUGCCCC 17 8946 SCNN1A-5098 − GGGCGGGCUCCCCAGCC 17 8947SCNN1A-5099 − GCUGAGCCUCUAGCUCC 17 8948 SCNN1A-5100 − GGGCGAUUACACAUUCC17 8949 SCNN1A-5101 + GUCCCAAGUGUGCUUCC 17 8950 SCNN1A-5102 −GGUGGCGAGGAAUCAGC 17 8951 SCNN1A-5103 + GCCAAAAGUGCCGGAGC 17 8952SCNN1A-5104 + GAGGAUGUGGCCAGCGC 17 8953 SCNN1A-5105 + GAAGCUGGGGGCUAGGC17 8954 SCNN1A-5106 + GAAGGCGGACUCUGGGC 17 8955 SCNN1A-5107 +GGAGCCCGCCCGCUGGC 17 8956 SCNN1A-5108 + GCCUAGGGGCUCACUGC 17 8957SCNN1A-5109 + GGAGCCAGCAGACCUGC 17 8958 SCNN1A-5110 − GCUGGGCCUUUGUCUGC17 8959 SCNN1A-5111 + GUUGGGGCCAAAAGUGC 17 8960 SCNN1A-5112 +GCAGGCACUGAAGGUGC 17 8961 SCNN1A-5113 + GUCUGCUCUCUGGGUGC 17 8962SCNN1A-5114 − GCUGAGCACCUUAUUGC 17 8963 SCNN1A-5115 − GGGGCAGAGACAGAAUC17 8964 SCNN1A-5116 + GUGGGAGCAGCGCACUC 17 8965 SCNN1A-333 −GAUGGGAGAGGGCACUC 17 4182 SCNN1A-5117 − GGCCCUCGCGCUGCCUC 17 8966SCNN1A-5118 + GGCAGUACUCCAGGCUC 17 8967 SCNN1A-5119 − GGUGUGUAUCAAUGCUC17 8968 SCNN1A-5120 − GAGUUUCUAGGGGUCUC 17 8969 SCNN1A-5121 −GGACACAGCUCGAGGUC 17 8970 SCNN1A-5122 − GCUAGUGGUUGGAUUUC 17 8971SCNN1A-5123 + GCUAGAGGCUCAGCAAG 17 8972 SCNN1A-5124 + GGAAUGUGGGCAACCAG17 8973 SCNN1A-334 − GACAUGGGCAUGGCCAG 17 4183 SCNN1A-5125 +GGGCUAGGGGAGCCUAG 17 8974 SCNN1A-5126 + GUGCUUCCAGGAGCUAG 17 8975SCNN1A-5127 − GAGACUGGAGUUUCUAG 17 8976 SCNN1A-5128 + GGGCACUGAGUGAGUAG17 8977 SCNN1A-5129 − GUCCACAGUGUCCUGCG 17 8978 SCNN1A-5130 −GGACAAAACUCGAAAGG 17 8979 SCNN1A-5131 + GACGCAGACAGGCAAGG 17 8980SCNN1A-5132 + GGAACCGGGAGGACAGG 17 8981 SCNN1A-5133 + GGAGCAGCGCACUCAGG17 8982 SCNN1A-5134 − GUAGAUAGCCCCAGAGG 17 8983 SCNN1A-5135 −GGGCCUAGAGUGAGAGG 17 8984 SCNN1A-5136 + GCAUUGAUACACACCGG 17 8985SCNN1A-5137 + GCACUGAAGGUGCAGGG 17 8986 SCNN1A-5138 + GACCCAAAAAGGGCUGG17 8987 SCNN1A-5139 − GGUCUGGACAAGGUUGG 17 8988 SCNN1A-5140 −GGGGUCUCUGGGAUAUG 17 8989 SCNN1A-5141 + GGCCACGCAGGACACUG 17 8990SCNN1A-5142 + GUGCAGCGGCCUGGCUG 17 8991 SCNN1A-5143 + GGGUCCAACCUGGUCUG17 8992 SCNN1A-5144 + GAUAAAUCAGUUUUCUG 17 8993 SCNN1A-5145 +GUGAGUAGAGGCAGGUG 17 8994 SCNN1A-5146 − GCUGCACCUGUCAGGUG 17 8995SCNN1A-5147 − GGUCUCUGGGAUAUGUG 17 8996 SCNN1A-335 − GGCGCAGGGUGGGACAU17 4184 SCNN1A-5148 + GAGCCAGGUCCUUACAU 17 8997 SCNN1A-5149 +GCGAAGGACAGAGAGAU 17 8998 SCNN1A-5150 + GGGCUAGGCGGGGCCCU 17 8999SCNN1A-5151 − GAAAACUGAUUUAUCCU 17 9000 SCNN1A-5152 + GUGCUGGGUUAUCUCCU17 9001 SCNN1A-5153 − GUAUCAAUGCUCAGGCU 17 9002 SCNN1A-5154 +GGUGCAGCGGCCUGGCU 17 9003 SCNN1A-336 + GGUCAAGGCUGAGCUCU 17 4185SCNN1A-5155 + GGAUUCGUCUGCUCUCU 17 9004 SCNN1A-5156 − GAGAUGACACCUUCUCU17 9005 SCNN1A-5157 − GGGAGACUGGAGUUUCU 17 9006 SCNN1A-5158 −GGGAUAUGUGGGGCAGU 17 9007 SCNN1A-5159 + GAGCAGCGCACUCAGGU 17 9008SCNN1A-337 − GAAUGUGGGCGCAGGGU 17 4186 SCNN1A-5160 − GGGUCUCUGGGAUAUGU17 9009 SCNN1A-5161 + GUUCUUUUUUACACUGU 17 9010 SCNN1A-5162 −GGGUGAGGCUGACCUGU 17 9011 SCNN1A-5163 − GUUGCCCUCCUAGCUGU 17 9012SCNN1A-5164 − GGGUCAGUUUCUUCAUU 17 9013 SCNN1A-339 + GAGCCCCGGAGUGGAUU17 4188 SCNN1A-5165 − GGGAGCCCUCCUUCCUU 17 9014 SCNN1A-5166 +GCAGACCUGCGGGAGUU 17 9015 SCNN1A-5167 + GCAAGUGGGCAGCCCUCCAA 20 9016SCNN1A-5168 + GUCUCCAGGAAGGAGAGCAA 20 9017 SCNN1A-5169 +GCAAAUAGUUUUCAUAUCAA 20 9018 SCNN1A-5170 + GGAGGGCAACACAAGGAGAA 20 9019SCNN1A-5171 + GGAGCUGGGCUUCCCUAGAA 20 9020 SCNN1A-5172 −GUGCUAGGACAAAACUCGAA 20 9021 SCNN1A-5173 − GCUGCCAGAUUCAACUGGAA 20 9022SCNN1A-5174 + GGAUGUGGCCAGCGCUGGAA 20 9023 SCNN1A-5175 −GCCCCUCCCGGGUCUGGACA 20 9024 SCNN1A-5176 + GAAGAAACUGACCCUUCCCA 20 9025SCNN1A-5177 + GAGAUAAGACAUAAGAGCCA 20 9026 SCNN1A-5178 +GCCCGCCCGCUGGCCGGCCA 20 9027 SCNN1A-340 − GUGGGACAUGGGCAUGGCCA 20 4189SCNN1A-341 − GCAGCCUCACUCGGGUUCCA 20 4190 SCNN1A-342 −GAGCAGUAUCAAGGUAAGCA 20 4191 SCNN1A-5179 + GGAGUGCCAAGUGGUGAGCA 20 9028SCNN1A-5180 − GCUGGCAAAUAGAAAAGGCA 20 9029 SCNN1A-5181 +GCUUUAGACGCAGACAGGCA 20 9030 SCNN1A-5182 − GCCUAGAGUGAGAGGGGGCA 20 9031SCNN1A-5183 + GAGAAGGCGGACUCUGGGCA 20 9032 SCNN1A-5184 −GUGCUGAGCACCUUAUUGCA 20 9033 SCNN1A-5185 + GGCAAAUAGUUUUCAUAUCA 20 9034SCNN1A-343 − GUGAUGGGAGAGGGCACUCA 20 4192 SCNN1A-5186 +GGAAGGCUGCCGCUUCCUCA 20 9035 SCNN1A-1 − GCAGCCCAUACCAGGUCUCA 20  503SCNN1A-5187 + GCCAGCGCUGGAAAGGAAGA 20 9036 SCNN1A-5188 −GCUGAGGGCCUAGAGUGAGA 20 9037 SCNN1A-5189 + GGCAACCAGAGGCAGCGCGA 20 9038SCNN1A-5190 + GCCGGGAGUUUUCCGAAGGA 20 9039 SCNN1A-5191 +GGAGUUUUCCGAAGGAAGGA 20 9040 SCNN1A-5192 + GCCCGCUGGCCGGCCAGGGA 20 9041SCNN1A-5193 + GGCCCUGCACGCGGCAGGGA 20 9042 SCNN1A-76 +GCCCUGGAGUGGACUGUGGA 20  528 SCNN1A-5194 − GACCUGUGGGUGCCCUUGGA 20 9043SCNN1A-5195 + GAGGAGGAGAAAUUCGUUGA 20 9044 SCNN1A-5196 +GCAUGGUCCUCCCUGCAAUA 20 9045 SCNN1A-5197 + GCCUGCAAUACAAUAAGAUA 20 9046SCNN1A-5198 + GACAUAAGAGCCAAGGGCUA 20 9047 SCNN1A-344 +GUAUGGGCUGCAGAGGUCUA 20 4193 SCNN1A-5199 − GCAGAGGAGAGGCCGUUCUA 20 9048SCNN1A-5200 − GGAGGACCAUGCCCAAUGUA 20 9049 SCNN1A-5201 +GAAAUCCAACCACUAGCUUA 20 9050 SCNN1A-5202 − GUUUGGCUGCCAGAUUCAAC 20 9051SCNN1A-5203 + GCUCCCGAGGGCAGGUGAAC 20 9052 SCNN1A-5204 +GCCUGAGCAUUGAUACACAC 20 9053 SCNN1A-5205 + GAAGGCUGCCGCUUCCUCAC 20 9054SCNN1A-5206 + GAGUGCAGGAAUGUGGUCAC 20 9055 SCNN1A-5207 −GGACCUGGCUCAAGGGAGAC 20 9056 SCNN1A-5208 + GGCAUGGCACACGCCUAGAC 20 9057SCNN1A-5209 + GGGUGGGGAACCGGGAGGAC 20 9058 SCNN1A-5210 +GGUUGCGGCUGGACUGGGAC 20 9059 SCNN1A-5211 + GGCAGGUGAACUGGGAGUAC 20 9060SCNN1A-5212 + GUCAACCAGGAUUCCAAACC 20 9061 SCNN1A-5213 −GUCCCAGUCCAGCCGCAACC 20 9062 SCNN1A-5214 + GAGGGCCUGGGUGGGGAACC 20 9063SCNN1A-5215 + GAUCGGGGCUCAGGUGCACC 20 9064 SCNN1A-5216 −GCCUAGCCCCCAGCUUCACC 20 9065 SCNN1A-5217 + GGACACUGUGGACACAGACC 20 9066SCNN1A-5218 − GUCCUCCCGGUUCCCCACCC 20 9067 SCNN1A-346 +GUGCCCUCUCCCAUCACCCC 20 4195 SCNN1A-5219 + GCACACGCCUAGACAGGCCC 20 9068SCNN1A-5220 − GCUUCACCUGGGCCCCUCCC 20 9069 SCNN1A-5221 +GCUGAGGAGGAGUCAGAGCC 20 9070 SCNN1A-347 − GGUGGGACAUGGGCAUGGCC 20 4196SCNN1A-5222 − GCGAUUACACAUUCCUGGCC 20 9071 SCNN1A-5223 +GUGAGAAGAAUUGCAAUGCC 20 9072 SCNN1A-5224 − GGGAACCUGGUUUGGAAUCC 20 9073SCNN1A-5225 + GGGAUGCGUCUGCCUCCUCC 20 9074 SCNN1A-5226 +GGAGUCCCAAGUGUGCUUCC 20 9075 SCNN1A-348 − GGCAGCCUCACUCGGGUUCC 20 4197SCNN1A-5227 + GUGCACCUGGAUGUGAAAGC 20 9076 SCNN1A-176 −GCUCAUGAAGGGGAACAAGC 20  811 SCNN1A-5228 − GCAACCUGGGAGUGGGAAGC 20 9077SCNN1A-5229 − GGGGGUGGCGAGGAAUCAGC 20 9078 SCNN1A-5230 −GCUGCUCCCACUUAGUGAGC 20 9079 SCNN1A-349 − GAGUGGGAGAAUGUGGGCGC 20 4198SCNN1A-5231 − GUGUGUAUCAAUGCUCAGGC 20 9080 SCNN1A-5232 +GAAUCAGACCCAAAAAGGGC 20 9081 SCNN1A-5233 + GAAGGAGGGCUCCCGAGGGC 20 9082SCNN1A-5234 + GACAGGUGCAGCGGCCUGGC 20 9083 SCNN1A-5235 +GGAGCCUAGGGGCUCACUGC 20 9084 SCNN1A-5236 + GGAGUUGGGGCCAAAAGUGC 20 9085SCNN1A-5237 − GGUGCUGAGCACCUUAUUGC 20 9086 SCNN1A-5238 +GGUUCCUUUCCAGUUGAAUC 20 9087 SCNN1A-350 − GGUGAUGGGAGAGGGCACUC 20 4199SCNN1A-351 − GGCCAGGGGCAGCCUCACUC 20 4200 SCNN1A-5239 +GGGCUCACUGCAGGAGACUC 20 9088 SCNN1A-5240 + GGACCUGAGAAGGCGGACUC 20 9089SCNN1A-5241 − GUUCUAGGGAAGCCCAGCUC 20 9090 SCNN1A-5242 −GCCCUCCUAGCUGUGGGCUC 20 9091 SCNN1A-352 + GAUUGGGGAGAGCAAGGGUC 20 4201SCNN1A-5243 − GCCAGGCCGCUGCACCUGUC 20 9092 SCNN1A-5244 −GCGAGGAAUCAGCAGGAAAG 20 9093 SCNN1A-5245 + GGAGCUAGAGGCUCAGCAAG 20 9094SCNN1A-5246 − GUGAGAGGGGGCAAGGCAAG 20 9095 SCNN1A-5247 +GGCCAGCGCUGGAAAGGAAG 20 9096 SCNN1A-5248 + GCAGGAAUGUGGGCAACCAG 20 9097SCNN1A-5249 − GCAAGAGACUGCCGCAAGAG 20 9098 SCNN1A-5250 −GAAACAGAAGGCAGAUAGAG 20 9099 SCNN1A-5251 − GUCCAGCCGCAACCUGGGAG 20 9100SCNN1A-5252 − GGGUCUGGACAAGGUUGGAG 20 9101 SCNN1A-5253 −GCCAUGCUGCCUUAAGCUAG 20 9102 SCNN1A-5254 + GAGGGGCACUGAGUGAGUAG 20 9103SCNN1A-353 − GCUCUCCCCAAUCCACUCCG 20 4202 SCNN1A-5255 +GGGCAACCAGAGGCAGCGCG 20 9104 SCNN1A-5256 + GUGAAGCUGGGGGCUAGGCG 20 9105SCNN1A-5257 + GACAGACUCAUGGGGGAUCG 20 9106 SCNN1A-5258 +GAGUACUGGACCUGAGAAGG 20 9107 SCNN1A-5259 + GGGAGUUUUCCGAAGGAAGG 20 9108SCNN1A-5260 + GUGGGAGCAGCGCACUCAGG 20 9109 SCNN1A-5261 −GUAGAUAGCCCCAGAGGAGG 20 9110 SCNN1A-5262 − GGUCUGGACAAGGUUGGAGG 20 9111SCNN1A-354 − GGGAGAAUGUGGGCGCAGGG 20 4203 SCNN1A-5263 −GGCAAAUAGAAAAGGCAGGG 20 9112 SCNN1A-5264 + GGCCUGGGUGGGGAACCGGG 20 9113SCNN1A-5265 + GCAUUGAUACACACCGGGGG 20 9114 SCNN1A-2 −GCCCAUACCAGGUCUCAUGG 20  497 SCNN1A-5266 − GCUGGCUCCAGGAAAGGUGG 20 9115SCNN1A-5267 + GUCACAGAGUUGCAGGAAUG 20 9116 SCNN1A-5268 +GAGGGCCACGCAGGACACUG 20 9117 SCNN1A-5269 − GCACUCUGGGCUGCCUCCUG 20 9118SCNN1A-5270 − GCCGCUGCACCUGUCAGGUG 20 9119 SCNN1A-5271 −GGCCUUUGUCUGCUGGCUUG 20 9120 SCNN1A-355 − GUGGGCGCAGGGUGGGACAU 20 4204SCNN1A-5272 + GAGACAGACUCAUGGGGGAU 20 9121 SCNN1A-5273 −GUCUCCUGCAGUGAGCCCCU 20 9122 SCNN1A-5274 − GGCUGACCUGUGGGUGCCCU 20 9123SCNN1A-5275 + GCCAAGGGCUAGGGGAGCCU 20 9124 SCNN1A-5276 +GCCUUGCCCCCUCUCACUCU 20 9125 SCNN1A-5277 + GACCUGAGAAGGCGGACUCU 20 9126SCNN1A-356 + GGUAUGGGCUGCAGAGGUCU 20 4205 SCNN1A-5278 +GCCAGCAGACCUGCGGGAGU 20 9127 SCNN1A-5279 − GAGGAAGCCACAGACCAGGU 20 9128SCNN1A-357 − GGAGAAUGUGGGCGCAGGGU 20 4206 SCNN1A-5280 +GCGCUGGAAAGGAAGAGGGU 20 9129 SCNN1A-5281 − GUGCAGGGCCUGGGUUGUGU 20 9130SCNN1A-5282 − GAAGGGUCAGUUUCUUCAUU 20 9131 SCNN1A-5283 −GAGUCUCCUCCAGCCCUUUU 20 9132

Table 46B provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the second tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS) and have a high level of orthogonality.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the table can be used with a S. pyogeneseiCas9 molecule or eiCas9 fusion protein (e.g., an eiCas9 fused to atranscription repressor domain) to alter the SCNN1A gene (e.g., reduceor eliminate SCNN1A gene expression, SCNN1A protein function, or thelevel of SCNN1A protein). One or more gRNA may be used to target aneiCas9 to the promoter region of the SCNN1A gene.

TABLE 46B  2nd Tier Target    DNA Site Seq gRNA Name StrandTargeting Domain Length ID SCNN1A-5284 + AAGGAGCCAGCACCAAA 17 9133SCNN1A-5285 + AAACUUAAUGCAGCAAA 17 9134 SCNN1A-5286 − CUGUCUCAGGAAGUAAA17 9135 SCNN1A-5287 + UAAGACAUAAGAGCCAA 17 9136 SCNN1A-5288 +AGUGGGCAGCCCUCCAA 17 9137 SCNN1A-358 − CCAGCUGUCCCUUCCAA 17 4207SCNN1A-359 − AGUAUCAAGGUAAGCAA 17 4208 SCNN1A-5289 + UGGCUGUUUGAUCUCAA17 9138 SCNN1A-5290 − CUAGGACAAAACUCGAA 17 9139 SCNN1A-5291 −UCUGCUGGCUCCAGGAA 17 9140 SCNN1A-5292 − UGAUUUAUCCUUGGGAA 17 9141SCNN1A-5293 + UGUGGCCAGCGCUGGAA 17 9142 SCNN1A-360 − ACUCCGGGGCUCAUGAA17 4209 SCNN1A-5294 + AUUAGCAUCUCAAUUAA 17 9143 SCNN1A-5295 −CCUCCCGGGUCUGGACA 17 9144 SCNN1A-5296 − UUGAGAUCAAACAGCCA 17 9145SCNN1A-5297 + AUAAGACAUAAGAGCCA 17 9146 SCNN1A-5298 − ACCUUUUCACAGAGCCA17 9147 SCNN1A-5299 + CGCCCGCUGGCCGGCCA 17 9148 SCNN1A-88 −CUCCACAGUCCACUCCA 17  609 SCNN1A-5300 + AAGUGGGCAGCCCUCCA 17 9149SCNN1A-5301 + CUGAAUCUUGACAAGCA 17 9150 SCNN1A-361 − CAGUAUCAAGGUAAGCA17 4210 SCNN1A-5302 − ACUCUGUGACCACAGCA 17 9151 SCNN1A-5303 +ACUAGCUUAAGGCAGCA 17 9152 SCNN1A-5304 + UCAAUUAAAGGUGAGCA 17 9153SCNN1A-5305 − UGAGAGGGGGCAAGGCA 17 9154 SCNN1A-5306 + UUAGACGCAGACAGGCA17 9155 SCNN1A-5307 + AGGCCCUGCACGCGGCA 17 9156 SCNN1A-5308 −CUUCCCUGCCGCGUGCA 17 9157 SCNN1A-5309 + CAGGCACUGAAGGUGCA 17 9158SCNN1A-5310 − CUGAGCACCUUAUUGCA 17 9159 SCNN1A-362 − UAUCAUGAGCAGUAUCA17 4211 SCNN1A-363 − AUGGGAGAGGGCACUCA 17 4212 SCNN1A-5311 +UUCCUGAGACAGACUCA 17 9160 SCNN1A-5312 + AGGCUGCCGCUUCCUCA 17 9161SCNN1A-5313 − UGUAAGGACCUGGCUCA 17 9162 SCNN1A-5314 + AGCGCUGGAAAGGAAGA17 9163 SCNN1A-5315 + AGGGCAACACAAGGAGA 17 9164 SCNN1A-5316 +UGGUGGGGGCAAAUAGA 17 9165 SCNN1A-5317 + AGCCGGGAGUUUUCCGA 17 9166SCNN1A-5318 + AACCAGAGGCAGCGCGA 17 9167 SCNN1A-5319 + UGAGCCCACAGCUAGGA17 9168 SCNN1A-5320 + CGCUGGCCGGCCAGGGA 17 9169 SCNN1A-5321 +CCUGCACGCGGCAGGGA 17 9170 SCNN1A-5322 + CUUGUCCAGACCCGGGA 17 9171SCNN1A-5323 + UGAGCAGGGCGGGGGGA 17 9172 SCNN1A-5324 − UGACACCUUCUCUGGGA17 9173 SCNN1A-82 − AUACCAGGUCUCAUGGA 17  501 SCNN1A-364 +UGAUACCUCCCCUUGGA 17 4213 SCNN1A-5325 − CUGUGGGUGCCCUUGGA 17 9174SCNN1A-365 − CACUCCGGGGCUCAUGA 17 4214 SCNN1A-5326 − CUGCACCUGUCAGGUGA17 9175 SCNN1A-366 − UCGGGUUCCAGGGGUGA 17 4215 SCNN1A-5327 +UGGUCCUCCCUGCAAUA 17 9176 SCNN1A-5328 + CGAAGGACAGAGAGAUA 17 9177SCNN1A-5329 + AGGGCUAGGGGAGCCUA 17 9178 SCNN1A-5330 − AAGAACAGAAUGUCCUA17 9179 SCNN1A-5331 + AUAAGAGCCAAGGGCUA 17 9180 SCNN1A-157 +CUCCAUGAGACCUGGUA 17  502 SCNN1A-5332 + AUCCAACCACUAGCUUA 17 9181SCNN1A-5333 − UGGCUGCCAGAUUCAAC 17 9182 SCNN1A-5334 + CCCGAGGGCAGGUGAAC17 9183 SCNN1A-5335 + UGAGCAUUGAUACACAC 17 9184 SCNN1A-5336 +CCUCCAAGGGCACCCAC 17 9185 SCNN1A-5337 + UUCCUCACGGGCCCCAC 17 9186SCNN1A-5338 − AGAGCAGACGAAUCCAC 17 9187 SCNN1A-5339 + UGCAGGAAUGUGGUCAC17 9188 SCNN1A-5340 − CCUGGCUCAAGGGAGAC 17 9189 SCNN1A-5341 +AUGGCACACGCCUAGAC 17 9190 SCNN1A-5342 + CCAGGGAUGGAAGCGAC 17 9191SCNN1A-5343 + UGGGGAACCGGGAGGAC 17 9192 SCNN1A-5344 + UGCGGCUGGACUGGGAC17 9193 SCNN1A-5345 + CCAGGUUGCGGCUGGAC 17 9194 SCNN1A-5346 +CCUCCCCCUCACCUGAC 17 9195 SCNN1A-5347 + AGGUGAACUGGGAGUAC 17 9196SCNN1A-5348 + AGGCUCAGGGUCCAACC 17 9197 SCNN1A-5349 − CCAGUCCAGCCGCAACC17 9198 SCNN1A-5350 + CCAACCUUGUCCAGACC 17 9199 SCNN1A-156 +UUCCCCUCCAUGAGACC 17  653 SCNN1A-5351 − UGCCCAAUGUAAGGACC 17 9200SCNN1A-368 − CCUCUGCAGCCCAUACC 17 4217 SCNN1A-5352 − CUCCCGGUUCCCCACCC17 9201 SCNN1A-5353 + UAAGGUGCUCAGCACCC 17 9202 SCNN1A-5354 +CAACCUUGUCCAGACCC 17 9203 SCNN1A-369 + CCGAGUGAGGCUGCCCC 17 4218SCNN1A-5355 − AGGCCUAUCUCCUCCCC 17 9204 SCNN1A-5356 + ACACAGACCCGGAGCCC17 9205 SCNN1A-5357 + AGACCCGGGAGGGGCCC 17 9206 SCNN1A-5358 −CCUGUCGCUUCCAUCCC 17 9207 SCNN1A-5359 − AGGUUGGACCCUGAGCC 17 9208SCNN1A-5360 + CCAGUCUCCCUUGAGCC 17 9209 SCNN1A-5361 + CCGCCCGCUGGCCGGCC17 9210 SCNN1A-5362 + UGACAGGUGCAGCGGCC 17 9211 SCNN1A-5363 −CUGCCGCGUGCAGGGCC 17 9212 SCNN1A-5364 + AGAAGAAUUGCAAUGCC 17 9213SCNN1A-5365 + UUACACUGUUGGCUGCC 17 9214 SCNN1A-5366 − UCCCGGCUUUCACAUCC17 9215 SCNN1A-5367 − AGCUGAGACACAGAUCC 17 9216 SCNN1A-5368 −UUCCUUCGGAAAACUCC 17 9217 SCNN1A-370 − UCUCCCCAAUCCACUCC 17 4219SCNN1A-87 − CCUCCACAGUCCACUCC 17  608 SCNN1A-5369 + AGAAAAGGCAGUACUCC 179218 SCNN1A-5370 − UUCACCUGGGCCCCUCC 17 9219 SCNN1A-5371 +AUGCGUCUGCCUCCUCC 17 9220 SCNN1A-5372 + UUUGGUCUUCUUCCUCC 17 9221SCNN1A-5373 + AAAGGGAGUCUGUCUCC 17 9222 SCNN1A-371 − AGCCUCACUCGGGUUCC17 4220 SCNN1A-5374 + CUUCUUAAAGUGAAAGC 17 9223 SCNN1A-5375 +CACCUGGAUGUGAAAGC 17 9224 SCNN1A-260 − CAUGAAGGGGAACAAGC 17  868SCNN1A-84 − CAUGGAGGGGAACAAGC 17  607 SCNN1A-5376 + AGGGGCCCAGGUGAAGC 179225 SCNN1A-5377 − AACUCUGUGACCACAGC 17 9226 SCNN1A-372 +CCCUUGGAAGGGACAGC 17 4221 SCNN1A-5378 − AUCCCUGGCCGGCCAGC 17 9227SCNN1A-5379 + CUCAAUUAAAGGUGAGC 17 9228 SCNN1A-5380 + CAAGCAAGGAGUUUAGC17 9229 SCNN1A-5381 + CAGCGCGAGGGCCACGC 17 9230 SCNN1A-5382 +CUGGGGAGCCCGCCCGC 17 9231 SCNN1A-5383 − UUGGCCCCAACUCCCGC 17 9232SCNN1A-5384 − CUCUUCCUUUCCAGCGC 17 9233 SCNN1A-373 − UGGGAGAAUGUGGGCGC17 4222 SCNN1A-5385 − UGGCAAAUAGAAAAGGC 17 9234 SCNN1A-5386 −UGUAUCAAUGCUCAGGC 17 9235 SCNN1A-5387 + ACUGAGUGAGUAGAGGC 17 9236SCNN1A-5388 + CAGGCCCUGCACGCGGC 17 9237 SCNN1A-5389 + CACUCCCAGGUUGCGGC17 9238 SCNN1A-5390 + UCAGACCCAAAAAGGGC 17 9239 SCNN1A-5391 +UUAAAGGUGAGCAGGGC 17 9240 SCNN1A-5392 − CUGGCCGGCCAGCGGGC 17 9241SCNN1A-5393 − UCGCUUCCAUCCCUGGC 17 9242 SCNN1A-5394 + AGGUGCAGCGGCCUGGC17 9243 SCNN1A-5395 + AGAGAAGAGGUCUCUGC 17 9244 SCNN1A-5396 −AACUCCCGCAGGUCUGC 17 9245 SCNN1A-5397 − CCUUCCCUGCCGCGUGC 17 9246SCNN1A-5398 − CAGACUCCCUUUGGUGC 17 9247 SCNN1A-5399 − UUAUCUUAUUGUAUUGC17 9248 SCNN1A-5400 + UGUGGUCACAGAGUUGC 17 9249 SCNN1A-5401 +UCCUUUCCAGUUGAAUC 17 9250 SCNN1A-5402 + CAGACUCAUGGGGGAUC 17 9251SCNN1A-5403 − CGAAAGGUGGCCCUAUC 17 9252 SCNN1A-374 − CUCUCCCCAAUCCACUC17 4223 SCNN1A-375 − CAGGGGCAGCCUCACUC 17 4224 SCNN1A-5404 +CUCACUGCAGGAGACUC 17 9253 SCNN1A-5405 + CCUGAGAAGGCGGACUC 17 9254SCNN1A-5406 + AGGUCAGCCUCACCCUC 17 9255 SCNN1A-5407 − CCAGUUCACCUGCCCUC17 9256 SCNN1A-5408 − CUAGGGAAGCCCAGCUC 17 9257 SCNN1A-5409 +AUGGGGGAUCGGGGCUC 17 9258 SCNN1A-5410 − CUCCUAGCUGUGGGCUC 17 9259SCNN1A-5411 + UGGAUUCGUCUGCUCUC 17 9260 SCNN1A-5412 − CCCCAUGAGUCUGUCUC17 9261 SCNN1A-5413 − AGAGAUGACACCUUCUC 17 9262 SCNN1A-5414 −CCAGAGUCCGCCUUCUC 17 9263 SCNN1A-376 + UGGGGAGAGCAAGGGUC 17 4225SCNN1A-5415 + AAUUGCAAUGCCUGGUC 17 9264 SCNN1A-5416 − AGGCCGCUGCACCUGUC17 9265 SCNN1A-5417 + AGGAGUGGAGUGCCAAG 17 9266 SCNN1A-377 −CAGCUGUCCCUUCCAAG 17 4226 SCNN1A-5418 + CAGCGCUGGAAAGGAAG 17 9267SCNN1A-5419 + ACCCGGAGCCCAGGAAG 17 9268 SCNN1A-5420 − UGGGGCCCGUGAGGAAG17 9269 SCNN1A-378 − CUCCGGGGCUCAUGAAG 17 4227 SCNN1A-5421 +CCUCCCCGCUCACUAAG 17 9270 SCNN1A-5422 − UAAGUAGAUAGCCCCAG 17 9271SCNN1A-5423 − CAUCCCUGGCCGGCCAG 17 9272 SCNN1A-5424 − CUCGAGGUCAGGGCCAG17 9273 SCNN1A-379 − CCUCACUCGGGUUCCAG 17 4228 SCNN1A-5425 −CCCUAUCAGGGAAGCAG 17 9274 SCNN1A-5426 − CUCUGUGACCACAGCAG 17 9275SCNN1A-5427 − UGGGAUAUGUGGGGCAG 17 9276 SCNN1A-5428 + AGGCGGACUCUGGGCAG17 9277 SCNN1A-380 + CCUGGUAUGGGCUGCAG 17 4229 SCNN1A-5429 +UCACCUGACAGGUGCAG 17 9278 SCNN1A-5430 − AGAGACUGCCGCAAGAG 17 9279SCNN1A-5431 − AGGGCCUAGAGUGAGAG 17 9280 SCNN1A-381 + CUUCAUGAGCCCCGGAG17 4230 SCNN1A-5432 + UUGUCCAGACCCGGGAG 17 9281 SCNN1A-5433 −CAAGGCAAGGGGGGGAG 17 9282 SCNN1A-5434 − CAGCCGCAACCUGGGAG 17 9283SCNN1A-5435 − UCUGGACAAGGUUGGAG 17 9284 SCNN1A-5436 − UGAGGGCCUAGAGUGAG17 9285 SCNN1A-5437 − UGCUCCCACUUAGUGAG 17 9286 SCNN1A-5438 −AUGCUGCCUUAAGCUAG 17 9287 SCNN1A-5439 + UAAGAGCCAAGGGCUAG 17 9288SCNN1A-5440 + AACCCAGGCCCUGCACG 17 9289 SCNN1A-5441 + AGCAUUGAUACACACCG17 9290 SCNN1A-5442 + CUCCCACACAGAGCCCG 17 9291 SCNN1A-5443 +AGGAAGGAGGGCUCCCG 17 9292 SCNN1A-382 − CUCCCCAAUCCACUCCG 17 4231SCNN1A-5444 − CUCCCACUUAGUGAGCG 17 9293 SCNN1A-5445 + CAACCAGAGGCAGCGCG17 9294 SCNN1A-5446 + UAAAGGUGAGCAGGGCG 17 9295 SCNN1A-5447 +AGACUCAUGGGGGAUCG 17 9296 SCNN1A-5448 − AAUCAGGACACAGCUCG 17 9297SCNN1A-5449 + AGUUUUCCGAAGGAAGG 17 9298 SCNN1A-5450 + CUCACGGGCCCCACAGG17 9299 SCNN1A-5451 + AAAGGUGAGCAGGGCGG 17 9300 SCNN1A-5452 +AUUAAAGGUGAGCAGGG 17 9301 SCNN1A-383 − AGAAUGUGGGCGCAGGG 17 4232SCNN1A-5453 − AGCACCUUAUUGCAGGG 17 9302 SCNN1A-5454 + CUGGGUGGGGAACCGGG17 9303 SCNN1A-5455 + CCUUGUCCAGACCCGGG 17 9304 SCNN1A-5456 −CCUGGCCGGCCAGCGGG 17 9305 SCNN1A-5457 + AAGGUGAGCAGGGCGGG 17 9306SCNN1A-384 − CUGUCCCUUCCAAGGGG 17 4233 SCNN1A-5458 − CCACUUAGUGAGCGGGG17 9307 SCNN1A-5459 + UUGAUACACACCGGGGG 17 9308 SCNN1A-5460 +CCUAGACAGGCCCUGGG 17 9309 SCNN1A-5461 + CUGAGACAGACUCAUGG 17 9310SCNN1A-81 − CAUACCAGGUCUCAUGG 17  605 SCNN1A-5462 − UGAGACACAGAUCCUGG 179311 SCNN1A-5463 − UGUCUGCUGGCUUGUGG 17 9312 SCNN1A-5464 −CCUGUGGGUGCCCUUGG 17 9313 SCNN1A-5465 + ACAGAGUUGCAGGAAUG 17 9314SCNN1A-5466 + CCUGAGACAGACUCAUG 17 9315 SCNN1A-5467 − UGUUGCCCUCCUAGCUG17 9316 SCNN1A-5468 + UGUAAUCGCCCCUGCUG 17 9317 SCNN1A-385 +CCCCUGGAACCCGAGUG 17 4234 SCNN1A-5469 − CUCCUGUGGGGCCCGUG 17 9318SCNN1A-5470 − AAUCCACGGGCUCUGUG 17 9319 SCNN1A-387 + AGCCCCGGAGUGGAUUG17 4236 SCNN1A-5471 + UGUGGCUUCCUCUCUUG 17 9320 SCNN1A-5472 +CAGACCUGCGGGAGUUG 17 9321 SCNN1A-5473 + UCCUGAGACAGACUCAU 17 9322SCNN1A-5474 + ACACCGGGGGAGGAGAU 17 9323 SCNN1A-5475 + ACAGACUCAUGGGGGAU17 9324 SCNN1A-388 + UGAGCCCCGGAGUGGAU 17 4237 SCNN1A-5476 +UCCUCUGCUUCCCUGAU 17 9325 SCNN1A-389 − CGGGUUCCAGGGGUGAU 17 4238SCNN1A-5477 + AGGAGAAAUUCGUUGAU 17 9326 SCNN1A-158 + UCCAUGAGACCUGGUAU17  654 SCNN1A-5478 + CCGAGGGCAGGUGAACU 17 9327 SCNN1A-5479 −UCUCCUUGCUCACCACU 17 9328 SCNN1A-5480 + CAGGUUGCGGCUGGACU 17 9329SCNN1A-5481 − CAGUCCAGCCGCAACCU 17 9330 SCNN1A-5482 − AGCCCCCAGCUUCACCU17 9331 SCNN1A-5483 − UAGGCUCCCCUAGCCCU 17 9332 SCNN1A-5484 +ACGCCUAGACAGGCCCU 17 9333 SCNN1A-5485 − UGACCUGUGGGUGCCCU 17 9334SCNN1A-5486 + AAGGGCUAGGGGAGCCU 17 9335 SCNN1A-5487 − UGCCGCGUGCAGGGCCU17 9336 SCNN1A-5488 + AUCCUGAGCCCACAGCU 17 9337 SCNN1A-5489 +CCAAAAGUGCCGGAGCU 17 9338 SCNN1A-5490 + CAUAAGAGCCAAGGGCU 17 9339SCNN1A-5491 − CCACAUUCCUGCACUCU 17 9340 SCNN1A-5492 + UUGCCCCCUCUCACUCU17 9341 SCNN1A-5493 + CUGAGAAGGCGGACUCU 17 9342 SCNN1A-5494 −AGUUUCUAGGGGUCUCU 17 9343 SCNN1A-390 + AUGGGCUGCAGAGGUCU 17 4239SCNN1A-5495 + AGGGCUCCAGGAGGUCU 17 9344 SCNN1A-5496 − AGAGGAGAGGCCGUUCU17 9345 SCNN1A-5497 + CUAGAGGCUCAGCAAGU 17 9346 SCNN1A-5498 +CUCCCCGCUCACUAAGU 17 9347 SCNN1A-5499 + AGCAGACCUGCGGGAGU 17 9348SCNN1A-5500 − AGCCGCAACCUGGGAGU 17 9349 SCNN1A-5501 − CCGGGUCUGGACAAGGU17 9350 SCNN1A-5502 + AGUGAGUAGAGGCAGGU 17 9351 SCNN1A-5503 −UGCCUUAAGCUAGUGGU 17 9352 SCNN1A-5504 + CAGAGUUGCAGGAAUGU 17 9353SCNN1A-5505 − UCUGGGCUGCCUCCUGU 17 9354 SCNN1A-5506 − AUCCACGGGCUCUGUGU17 9355 SCNN1A-5507 + AGCCAGGUCCUUACAUU 17 9356 SCNN1A-5508 −CUCCUGGAAGCACACUU 17 9357 SCNN1A-5509 − UGGAGACAGACUCCCUU 17 9358SCNN1A-5510 − UUUUGCUGCAUUAAGUU 17 9359 SCNN1A-392 − AGCAAGGGAACCUGGUU17 4241 SCNN1A-5511 − CCCAGCUCCGGCACUUU 17 9360 SCNN1A-5512 −UCUCCUCCAGCCCUUUU 17 9361 SCNN1A-5513 − CUCCUCCAGCCCUUUUU 17 9362SCNN1A-5514 + UCAGAGAAUCAGACCCAAAA 20 9363 SCNN1A-5515 +UAGAAGGAGCCAGCACCAAA 20 9364 SCNN1A-5516 − CAUGAGCUGGCAAAUAGAAA 20 9365SCNN1A-5517 + AUCUCCUUGGCUCUGUGAAA 20 9366 SCNN1A-5518 +AUAGAAGGAGCCAGCACCAA 20 9367 SCNN1A-5519 − UCCUGGAGGAAGAAGACCAA 20 9368SCNN1A-5520 + AGAUAAGACAUAAGAGCCAA 20 9369 SCNN1A-5521 −AAUCCAGCUGUCCCUUCCAA 20 9370 SCNN1A-393 − AGCAGUAUCAAGGUAAGCAA 20 4242SCNN1A-5522 − AAUGUAAGGACCUGGCUCAA 20 9371 SCNN1A-5523 +CCCUGGCUGUUUGAUCUCAA 20 9372 SCNN1A-5524 − AGGUCUGCUGGCUCCAGGAA 20 9373SCNN1A-5525 − AACUGAUUUAUCCUUGGGAA 20 9374 SCNN1A-394 +CAUGAUACCUCCCCUUGGAA 20 4243 SCNN1A-5526 + CUCAUUAGCAUCUCAAUUAA 20 9375SCNN1A-5527 + ACAGCUAGGAGGGCAACACA 20 9376 SCNN1A-395 −UGUGGGCGCAGGGUGGGACA 20 4244 SCNN1A-5528 − CCUUUGAGAUCAAACAGCCA 20 9377SCNN1A-5529 − CCAGAGAGCAGACGAAUCCA 20 9378 SCNN1A-5530 +AGCAAGUGGGCAGCCCUCCA 20 9379 SCNN1A-5531 − AAAUCCAGCUGUCCCUUCCA 20 9380SCNN1A-5532 + CUGCUGAAUCUUGACAAGCA 20 9381 SCNN1A-5533 +UGUCUCCAGGAAGGAGAGCA 20 9382 SCNN1A-5534 + AUCUCAAUUAAAGGUGAGCA 20 9383SCNN1A-396 − AGUGGGAGAAUGUGGGCGCA 20 4245 SCNN1A-5535 +CCGGAGCCCAGGAAGAGGCA 20 9384 SCNN1A-5536 + CCCAGGCCCUGCACGCGGCA 20 9385SCNN1A-5537 + CCAGGUCCUUACAUUGGGCA 20 9386 SCNN1A-5538 −AGCCUUCCCUGCCGCGUGCA 20 9387 SCNN1A-5539 + AAGCAGGCACUGAAGGUGCA 20 9388SCNN1A-5540 − CUCGAAAGGUGGCCCUAUCA 20 9389 SCNN1A-397 −AGGUAUCAUGAGCAGUAUCA 20 4246 SCNN1A-5541 + AAGGCAGUACUCCAGGCUCA 20 9390SCNN1A-5542 − CAAUGUAAGGACCUGGCUCA 20 9391 SCNN1A-398 +AUUGGGGAGAGCAAGGGUCA 20 4247 SCNN1A-5543 + UGGGAGUACUGGACCUGAGA 20 9392SCNN1A-5544 + CAGAGCCGGGAGUUUUCCGA 20 9393 SCNN1A-5545 +ACAAUAGAGAGGGACAGCGA 20 9394 SCNN1A-5546 + AAGGGAGUCUGUCUCCAGGA 20 9395SCNN1A-5547 + UCCUGAGCCCACAGCUAGGA 20 9396 SCNN1A-5548 +AACCUUGUCCAGACCCGGGA 20 9397 SCNN1A-5549 + CCUGGAUGUGAAAGCCGGGA 20 9398SCNN1A-5550 − AGAUGACACCUUCUCUGGGA 20 9399 SCNN1A-5551 −AAACUGAUUUAUCCUUGGGA 20 9400 SCNN1A-3 − CCCAUACCAGGUCUCAUGGA 20 556SCNN1A-5552 − UUUGUCUGCUGGCUUGUGGA 20 9401 SCNN1A-399 +UCAUGAUACCUCCCCUUGGA 20 4248 SCNN1A-5553 − CGGGUCUGGACAAGGUUGGA 20 9402SCNN1A-400 − AUCCACUCCGGGGCUCAUGA 20 4249 SCNN1A-5554 −CUCUUCUCUGCAGGGCCUGA 20 9403 SCNN1A-5555 − CGGGCUCUGUGUGGGAGUGA 20 9404SCNN1A-5556 − CCGCUGCACCUGUCAGGUGA 20 9405 SCNN1A-401 −CACUCGGGUUCCAGGGGUGA 20 4250 SCNN1A-5557 + UCUCCUCUGCUUCCCUGAUA 20 9406SCNN1A-5558 − AAGGGAGACUGGAGUUUCUA 20 9407 SCNN1A-78 +CCCCUCCAUGAGACCUGGUA 20  500 SCNN1A-5559 − UUUGGAAUCCUGGUUGACAC 20 9408SCNN1A-5560 + AGCCCUCCAAGGGCACCCAC 20 9409 SCNN1A-5561 +CGCUUCCUCACGGGCCCCAC 20 9410 SCNN1A-5562 − CAGAGAGCAGACGAAUCCAC 20 9411SCNN1A-5563 + CAGGGGCUUUAGACGCAGAC 20 9412 SCNN1A-5564 +CGGCCAGGGAUGGAAGCGAC 20 9413 SCNN1A-5565 + CUCCCAGGUUGCGGCUGGAC 20 9414SCNN1A-5566 + UCCAGGCUCAGGGUCCAACC 20 9415 SCNN1A-5567 +AGUGAAAGCCGGUGUCAACC 20 9416 SCNN1A-404 − UCAAGGUAAGCAAGGGAACC 20 4253SCNN1A-5568 + CCUGAGCAUUGAUACACACC 20 9417 SCNN1A-5569 +CCUCCAACCUUGUCCAGACC 20 9418 SCNN1A-5570 − CCAUGCCCAAUGUAAGGACC 20 9419SCNN1A-5571 − AGCAGGAAAGAGGAGGGACC 20 9420 SCNN1A-405 −AGACCUCUGCAGCCCAUACC 20 4254 SCNN1A-5572 + CUCCAACCUUGUCCAGACCC 20 9421SCNN1A-406 + AACCCGAGUGAGGCUGCCCC 20 4255 SCNN1A-5573 +CCUGAUUCUGUCUCUGCCCC 20 9422 SCNN1A-5574 − UGCAGGCCUAUCUCCUCCCC 20 9423SCNN1A-5575 + UGGACACAGACCCGGAGCCC 20 9424 SCNN1A-5576 −AUUCCUGUCGCUUCCAUCCC 20 9425 SCNN1A-5577 − AACGAAUUUCUCCUCCUCCC 20 9426SCNN1A-5578 − ACCUUUGAGAUCAAACAGCC 20 9427 SCNN1A-5579 −AGCGGGCGGGCUCCCCAGCC 20 9428 SCNN1A-5580 + ACAAGGAGAAGGGGCCAGCC 20 9429SCNN1A-5581 − ACCAGGUUGGACCCUGAGCC 20 9430 SCNN1A-5582 +ACUCCAGUCUCCCUUGAGCC 20 9431 SCNN1A-5583 + ACACUGUUGGCUGCCAGGCC 20 9432SCNN1A-5584 + ACCUGACAGGUGCAGCGGCC 20 9433 SCNN1A-5585 −UCCCUGCCGCGUGCAGGGCC 20 9434 SCNN1A-5586 + UUUUUACACUGUUGGCUGCC 20 9435SCNN1A-5587 − CCUUCCCGGCUUUCACAUCC 20 9436 SCNN1A-5588 −AGGAGCUGAGACACAGAUCC 20 9437 SCNN1A-5589 − UCCUUCCUUCGGAAAACUCC 20 9438SCNN1A-408 − UGCUCUCCCCAAUCCACUCC 20 4257 SCNN1A-8 −AGCCCUCCACAGUCCACUCC 20  559 SCNN1A-5590 + AAGAGAAAAGGCAGUACUCC 20 9439SCNN1A-5591 − UGGAGGCAGCCCAGACCUCC 20 9440 SCNN1A-5592 −AGCUUCACCUGGGCCCCUCC 20 9441 SCNN1A-5593 − UUUCUGCCCUCCUGUCCUCC 20 9442SCNN1A-5594 − CUUGCUGAGCCUCUAGCUCC 20 9443 SCNN1A-5595 −CCCGCAGGUCUGCUGGCUCC 20 9444 SCNN1A-5596 + ACCAAAGGGAGUCUGUCUCC 20 9445SCNN1A-5597 − CAGGGGCGAUUACACAUUCC 20 9446 SCNN1A-5598 −UCCCCCCUUGCUCUCCUUCC 20 9447 SCNN1A-5 − UCUCAUGGAGGGGAACAAGC 20  557SCNN1A-5599 − UGCAACUCUGUGACCACAGC 20 9448 SCNN1A-409 +CUCCCCUUGGAAGGGACAGC 20 4258 SCNN1A-5600 − UCCAUCCCUGGCCGGCCAGC 20 9449SCNN1A-5601 + CAUCUCAAUUAAAGGUGAGC 20 9450 SCNN1A-5602 +UGACAAGCAAGGAGUUUAGC 20 9451 SCNN1A-5603 + AGGCAGCGCGAGGGCCACGC 20 9452SCNN1A-5604 + UGGCUGGGGAGCCCGCCCGC 20 9453 SCNN1A-5605 −CUUUUGGCCCCAACUCCCGC 20 9454 SCNN1A-5606 − ACCCUCUUCCUUUCCAGCGC 20 9455SCNN1A-5607 − UCGAGGUCAGGGCCAGAGGC 20 9456 SCNN1A-5608 +ACGCAGACAGGCAAGGAGGC 20 9457 SCNN1A-5609 + ACCCAGGCCCUGCACGCGGC 20 9458SCNN1A-5610 + UCCCACUCCCAGGUUGCGGC 20 9459 SCNN1A-5611 +CAAUUAAAGGUGAGCAGGGC 20 9460 SCNN1A-5612 − UCCCUGGCCGGCCAGCGGGC 20 9461SCNN1A-5613 + UGAGAAGGCGGACUCUGGGC 20 9462 SCNN1A-5614 −CUGUCGCUUCCAUCCCUGGC 20 9463 SCNN1A-5615 + CCUGGAGCCAGCAGACCUGC 20 9464SCNN1A-5616 + AAGAGAGAAGAGGUCUCUGC 20 9465 SCNN1A-5617 −CCCAACUCCCGCAGGUCUGC 20 9466 SCNN1A-5618 − CAGGCUGGGCCUUUGUCUGC 20 9467SCNN1A-5619 − CAGCCUUCCCUGCCGCGUGC 20 9468 SCNN1A-5620 +AAAGCAGGCACUGAAGGUGC 20 9469 SCNN1A-5621 + UUCGUCUGCUCUCUGGGUGC 20 9470SCNN1A-5622 − ACCUUAUCUUAUUGUAUUGC 20 9471 SCNN1A-5623 +UGCUGUGGUCACAGAGUUGC 20 9472 SCNN1A-5624 − CCUGGGGCAGAGACAGAAUC 20 9473SCNN1A-5625 + AGACAGACUCAUGGGGGAUC 20 9474 SCNN1A-5626 −ACUCGAAAGGUGGCCCUAUC 20 9475 SCNN1A-410 − UUGCUCUCCCCAAUCCACUC 20 4259SCNN1A-5627 + UAAGUGGGAGCAGCGCACUC 20 9476 SCNN1A-5628 +AAAAGGGCUGGAGGAGACUC 20 9477 SCNN1A-5629 + CACAGGUCAGCCUCACCCUC 20 9478SCNN1A-5630 − CGUGGCCCUCGCGCUGCCUC 20 9479 SCNN1A-411 +UCAGGGUCAAGGCUGAGCUC 20 4260 SCNN1A-5631 + AAAGGCAGUACUCCAGGCUC 20 9480SCNN1A-5632 + CUCAUGGGGGAUCGGGGCUC 20 9481 SCNN1A-5633 −CCCGGUGUGUAUCAAUGCUC 20 9482 SCNN1A-5634 + CCGUGGAUUCGUCUGCUCUC 20 9483SCNN1A-5635 − CUGGAGUUUCUAGGGGUCUC 20 9484 SCNN1A-5636 −AUCCCCCAUGAGUCUGUCUC 20 9485 SCNN1A-5637 − AGCAGAGAUGACACCUUCUC 20 9486SCNN1A-5638 − UGCCCAGAGUCCGCCUUCUC 20 9487 SCNN1A-5639 −UCAGGACACAGCUCGAGGUC 20 9488 SCNN1A-5640 + AAGAAUUGCAAUGCCUGGUC 20 9489SCNN1A-5641 − UAAGCUAGUGGUUGGAUUUC 20 9490 SCNN1A-5642 +AUAAGGAGUGGAGUGCCAAG 20 9491 SCNN1A-412 − AUCCAGCUGUCCCUUCCAAG 20 4261SCNN1A-5643 + CAGACCCGGAGCCCAGGAAG 20 9492 SCNN1A-5644 −CUGUGGGGCCCGUGAGGAAG 20 9493 SCNN1A-5645 + UCUCCUCCCCGCUCACUAAG 20 9494SCNN1A-5646 − CGCUAAGUAGAUAGCCCCAG 20 9495 SCNN1A-5647 −UUCCAUCCCUGGCCGGCCAG 20 9496 SCNN1A-5648 − CAGCUCGAGGUCAGGGCCAG 20 9497SCNN1A-413 − UGGGACAUGGGCAUGGCCAG 20 4262 SCNN1A-414 −CAGCCUCACUCGGGUUCCAG 20 4263 SCNN1A-5649 − UGGCCCUAUCAGGGAAGCAG 20 9498SCNN1A-5650 − CAACUCUGUGACCACAGCAG 20 9499 SCNN1A-5651 −CUCUGGGAUAUGUGGGGCAG 20 9500 SCNN1A-5652 + AGAAGGCGGACUCUGGGCAG 20 9501SCNN1A-415 + AGACCUGGUAUGGGCUGCAG 20 4264 SCNN1A-5653 −CUGAGGGCCUAGAGUGAGAG 20 9502 SCNN1A-5654 + UGCAGCAAAAGGAUAAGGAG 20 9503SCNN1A-5655 + ACCUUGUCCAGACCCGGGAG 20 9504 SCNN1A-4 −CCAUACCAGGUCUCAUGGAG 20  498 SCNN1A-5656 + AAGGGGCCAGCCAGGCUGAG 20 9505SCNN1A-5657 − AGCUGAGGGCCUAGAGUGAG 20 9506 SCNN1A-5658 −CGCUGCUCCCACUUAGUGAG 20 9507 SCNN1A-5659 − CGCUGCACCUGUCAGGUGAG 20 9508SCNN1A-5660 + CAAGGGCUAGGGGAGCCUAG 20 9509 SCNN1A-5661 +AGUGUGCUUCCAGGAGCUAG 20 9510 SCNN1A-5662 + ACAUAAGAGCCAAGGGCUAG 20 9511SCNN1A-5663 − AGGGAGACUGGAGUUUCUAG 20 9512 SCNN1A-5664 +CACAACCCAGGCCCUGCACG 20 9513 SCNN1A-5665 + CUGAGCAUUGAUACACACCG 20 9514SCNN1A-5666 + UCACUCCCACACAGAGCCCG 20 9515 SCNN1A-5667 +CGAAGGAAGGAGGGCUCCCG 20 9516 SCNN1A-5668 − CUGCUCCCACUUAGUGAGCG 20 9517SCNN1A-5669 + AAUUAAAGGUGAGCAGGGCG 20 9518 SCNN1A-5670 −CAAGGUUGGAGGGGGUGGCG 20 9519 SCNN1A-5671 − UGUGUCCACAGUGUCCUGCG 20 9520SCNN1A-5672 − CAGAAUCAGGACACAGCUCG 20 9521 SCNN1A-5673 −CUAGGACAAAACUCGAAAGG 20 9522 SCNN1A-5674 + UUAGACGCAGACAGGCAAGG 20 9523SCNN1A-5675 + UUCCUCACGGGCCCCACAGG 20 9524 SCNN1A-5676 +UGGGGAACCGGGAGGACAGG 20 9525 SCNN1A-5677 + ACUGAGUGAGUAGAGGCAGG 20 9526SCNN1A-5678 − UAAGUAGAUAGCCCCAGAGG 20 9527 SCNN1A-5679 −UGAGGGCCUAGAGUGAGAGG 20 9528 SCNN1A-5680 + AUCCUGAGCCCACAGCUAGG 20 9529SCNN1A-5681 + AGGUGAAGCUGGGGGCUAGG 20 9530 SCNN1A-5682 +UGAGCAUUGAUACACACCGG 20 9531 SCNN1A-5683 + AUUAAAGGUGAGCAGGGCGG 20 9532SCNN1A-5684 + CAGGCACUGAAGGUGCAGGG 20 9533 SCNN1A-5685 −CUGAGCACCUUAUUGCAGGG 20 9534 SCNN1A-5686 + CAACCUUGUCCAGACCCGGG 20 9535SCNN1A-5687 − AUCCCUGGCCGGCCAGCGGG 20 9536 SCNN1A-5688 +UUAAAGGUGAGCAGGGCGGG 20 9537 SCNN1A-416 − CAGCUGUCCCUUCCAAGGGG 20 4265SCNN1A-5689 − CUCCCACUUAGUGAGCGGGG 20 9538 SCNN1A-5690 −CUGGACAAGGUUGGAGGGGG 20 9539 SCNN1A-5691 + ACGCCUAGACAGGCCCUGGG 20 9540SCNN1A-5692 + UUCCUGAGACAGACUCAUGG 20 9541 SCNN1A-5693 −AGCUGAGACACAGAUCCUGG 20 9542 SCNN1A-5694 + UCAGACCCAAAAAGGGCUGG 20 9543SCNN1A-75 + AGCCCUGGAGUGGACUGUGG 20  602 SCNN1A-5695 −CUUUGUCUGCUGGCUUGUGG 20 9544 SCNN1A-5696 − UGACCUGUGGGUGCCCUUGG 20 9545SCNN1A-5697 − CCGGGUCUGGACAAGGUUGG 20 9546 SCNN1A-5698 +CUUCCUGAGACAGACUCAUG 20 9547 SCNN1A-5699 + CUGAAGGUGCAGGGAGGAUG 20 9548SCNN1A-5700 − CUAGGGGUCUCUGGGAUAUG 20 9549 SCNN1A-5701 +UCCUGGAGCCAGCAGACCUG 20 9550 SCNN1A-5702 − CUGAGGGUGAGGCUGACCUG 20 9551SCNN1A-5703 − UCUCUUCUCUGCAGGGCCUG 20 9552 SCNN1A-5704 −UUGUGUUGCCCUCCUAGCUG 20 9553 SCNN1A-5705 + CAGGUGCAGCGGCCUGGCUG 20 9554SCNN1A-5706 + AUGUGUAAUCGCCCCUGCUG 20 9555 SCNN1A-5707 +AGAAUUCUCCUCCUCCUCUG 20 9556 SCNN1A-5708 + UCAGGGUCCAACCUGGUCUG 20 9557SCNN1A-5709 + AAGGAUAAAUCAGUUUUCUG 20 9558 SCNN1A-5710 −CUGGGAUAUGUGGGGCAGUG 20 9559 SCNN1A-417 + UCACCCCUGGAACCCGAGUG 20 4266SCNN1A-5711 − ACGGGCUCUGUGUGGGAGUG 20 9560 SCNN1A-5712 −UGCCUCCUGUGGGGCCCGUG 20 9561 SCNN1A-5713 + UGAGUGAGUAGAGGCAGGUG 20 9562SCNN1A-5714 − CUCUGCAGGGCCUGAGGGUG 20 9563 SCNN1A-5715 −AGGGGUCUCUGGGAUAUGUG 20 9564 SCNN1A-5716 − ACUCUGGGCUGCCUCCUGUG 20 9565SCNN1A-5717 − ACGAAUCCACGGGCUCUGUG 20 9566 SCNN1A-5718 −CGUGCAGGGCCUGGGUUGUG 20 9567 SCNN1A-419 + AUGAGCCCCGGAGUGGAUUG 20 4268SCNN1A-5719 + CAGCAGACCUGCGGGAGUUG 20 9568 SCNN1A-5720 +CUGAGGUUAGAAAACAAAAU 20 9569 SCNN1A-5721 + CUUGAGCCAGGUCCUUACAU 20 9570SCNN1A-5722 + ACAGCGAAGGACAGAGAGAU 20 9571 SCNN1A-5723 +UACACACCGGGGGAGGAGAU 20 9572 SCNN1A-420 + UCAUGAGCCCCGGAGUGGAU 20 4269SCNN1A-5724 + CUCUCCUCUGCUUCCCUGAU 20 9573 SCNN1A-421 −ACUCGGGUUCCAGGGGUGAU 20 4270 SCNN1A-5725 + AGGAGGAGAAAUUCGUUGAU 20 9574SCNN1A-79 + CCCUCCAUGAGACCUGGUAU 20  604 SCNN1A-5726 +CUCCCGAGGGCAGGUGAACU 20 9575 SCNN1A-5727 − CUAGCUCCUGGAAGCACACU 20 9576SCNN1A-5728 − CUCUCUCCUUGCUCACCACU 20 9577 SCNN1A-5729 +AAAAAGGGCUGGAGGAGACU 20 9578 SCNN1A-5730 + UCCCAGGUUGCGGCUGGACU 20 9579SCNN1A-5731 − UCCCAGUCCAGCCGCAACCU 20 9580 SCNN1A-5732 −CCUAGCCCCCAGCUUCACCU 20 9581 SCNN1A-5733 − CCCUAGGCUCCCCUAGCCCU 20 9582SCNN1A-5734 + CACACGCCUAGACAGGCCCU 20 9583 SCNN1A-5735 +UGGGGGCUAGGCGGGGCCCU 20 9584 SCNN1A-5736 − ACUCCCAGUUCACCUGCCCU 20 9585SCNN1A-5737 − CCCUGCCGCGUGCAGGGCCU 20 9586 SCNN1A-5738 +UGGGUGCUGGGUUAUCUCCU 20 9587 SCNN1A-5739 − UCCUGGAGCCCUGCAGUCCU 20 9588SCNN1A-5740 + AGGAUCCUGAGCCCACAGCU 20 9589 SCNN1A-5741 −UGUGUAUCAAUGCUCAGGCU 20 9590 SCNN1A-5742 + CGCAGACAGGCAAGGAGGCU 20 9591SCNN1A-5743 + AGACAUAAGAGCCAAGGGCU 20 9592 SCNN1A-5744 +ACAGGUGCAGCGGCCUGGCU 20 9593 SCNN1A-5745 + UCGUCUGCUCUCUGGGUGCU 20 9594SCNN1A-5746 − UGACCACAUUCCUGCACUCU 20 9595 SCNN1A-422 +CAGGGUCAAGGCUGAGCUCU 20 4271 SCNN1A-5747 + CGUGGAUUCGUCUGCUCUCU 20 9596SCNN1A-5748 − UGGAGUUUCUAGGGGUCUCU 20 9597 SCNN1A-5749 +UGCAGGGCUCCAGGAGGUCU 20 9598 SCNN1A-5750 − AGCAGAGGAGAGGCCGUUCU 20 9599SCNN1A-5751 − CAAGGGAGACUGGAGUUUCU 20 9600 SCNN1A-5752 +CUCCUCCCCGCUCACUAAGU 20 9601 SCNN1A-5753 − UCUGGGAUAUGUGGGGCAGU 20 9602SCNN1A-5754 − UCCAGCCGCAACCUGGGAGU 20 9603 SCNN1A-5755 −CUCCCGGGUCUGGACAAGGU 20 9604 SCNN1A-5756 + CUGAGUGAGUAGAGGCAGGU 20 9605SCNN1A-5757 + UGGGAGCAGCGCACUCAGGU 20 9606 SCNN1A-5758 −UGCUGCCUUAAGCUAGUGGU 20 9607 SCNN1A-5759 − AGGGAGGAGUGGGAGAAUGU 20 9608SCNN1A-5760 + UCACAGAGUUGCAGGAAUGU 20 9609 SCNN1A-5761 −UAGGGGUCUCUGGGAUAUGU 20 9610 SCNN1A-5762 + UCUGUUCUUUUUUACACUGU 20 9611SCNN1A-5763 − UGAGGGUGAGGCUGACCUGU 20 9612 SCNN1A-5764 −CACUCUGGGCUGCCUCCUGU 20 9613 SCNN1A-5765 − UGUGUUGCCCUCCUAGCUGU 20 9614SCNN1A-5766 − CGAAUCCACGGGCUCUGUGU 20 9615 SCNN1A-5767 +UUGAGCCAGGUCCUUACAUU 20 9616 SCNN1A-425 + CAUGAGCCCCGGAGUGGAUU 20 4274SCNN1A-5768 − UAGCUCCUGGAAGCACACUU 20 9617 SCNN1A-5769 −UCCUGGAGACAGACUCCCUU 20 9618 SCNN1A-5770 − CUCGGGAGCCCUCCUUCCUU 20 9619SCNN1A-5771 − UCCUUUUGCUGCAUUAAGUU 20 9620 SCNN1A-5772 +CCAGCAGACCUGCGGGAGUU 20 9621 SCNN1A-5773 − UUAAGUUUGGAAAGAGAUUU 20 9622SCNN1A-5774 − AAGCCCAGCUCCGGCACUUU 20 9623 SCNN1A-5775 −AGUCUCCUCCAGCCCUUUUU 20 9624

Table 46C provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the third tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS) and start with a 5′G. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a S. pyogenes eiCas9 molecule oreiCas9 fusion protein (e.g., an eiCas9 fused to a transcriptionrepressor domain) to alter the SCNN1A gene (e.g., reduce or eliminateSCNN9A gene expression, SCNN1A protein function, or the level of SCNN1Aprotein). One or more gRNA may be used to target an eiCas9 to thepromoter region of the SCNN1A gene

TABLE 46C 3rd Tier Target DNA Site Seq gRNA Name Strand Targeting DomainLength ID SCNN1A-5776 − GGGGGCAGAGACAGAAA 17 9625 SCNN1A-5777 −GAGAGGGGGCAAGGCAA 17 9626 SCNN1A-5778 − GUAAGGACCUGGCUCAA 17 9627SCNN1A-5779 − GAAGAAGACCAAAGGAA 17 9628 SCNN1A-426 − GGACAUGGGCAUGGCCA17 4275 SCNN1A-427 + GUGGAUUGGGGAGAGCA 17 4276 SCNN1A-5780 −GGCAAAUAGAAAAGGCA 17 9629 SCNN1A-5781 + GAGCCCAGGAAGAGGCA 17 9630SCNN1A-428 + GGGGAGAGCAAGGGUCA 17 4277 SCNN1A-5782 + GGAAGCCUUCCCAGAGA17 9631 SCNN1A-5783 + GAGGGAGACAAUAGAGA 17 9632 SCNN1A-5784 +GGCCAGCCAGGCUGAGA 17 9633 SCNN1A-5785 − GGAAGAAGACCAAAGGA 17 9634SCNN1A-5786 + GAGGCUGGGGGACAGGA 17 9635 SCNN1A-5787 + GAGAUAGGGAUGGAGGA17 9636 SCNN1A-5788 − GAAAGGUGGAGGAGGGA 17 9637 SCNN1A-5789 +GGACAGAGAGAUAGGGA 17 9638 SCNN1A-5790 + GGGAAAGCAGGCACUGA 17 9639SCNN1A-5791 + GACAGGAUGGCAGGUGA 17 9640 SCNN1A-5792 + GGGCCUGGGUGGGGAAC17 9641 SCNN1A-5793 + GGCCUGGGUGGGGAACC 17 9642 SCNN1A-5794 −GAAUUUCUCCUCCUCCC 17 9643 SCNN1A-5795 + GAGGAGGAGUCAGAGCC 17 9644SCNN1A-5796 + GCCAGGCUGAGAGGGCC 17 9645 SCNN1A-429 − GGGACAUGGGCAUGGCC17 4278 SCNN1A-5797 − GCCUCUUCCUGGGCUCC 17 9646 SCNN1A-5798 −GCAGGUCUGCUGGCUCC 17 9647 SCNN1A-5799 + GAAGAGGCAGGGAAAGC 17 9648SCNN1A-5800 − GCCAGAAAGAGGAGAGC 17 9649 SCNN1A-86 − GAACAAGCUGGAGGAGC 17531 SCNN1A-5801 − GGAUUUCAGGCAUGAGC 17 9650 SCNN1A-5802 −GCUCCCACUUAGUGAGC 17 9651 SCNN1A-5803 + GGAGCCCAGGAAGAGGC 17 9652SCNN1A-5804 − GGGAGAGGAAGAGAGGC 17 9653 SCNN1A-5805 − GAGAGGGAGUGAGAGGC17 9654 SCNN1A-5806 − GAUUAGAGAGAGGAGGC 17 9655 SCNN1A-5807 −GGCUUGUGGAGGGAGGC 17 9656 SCNN1A-5808 + GGAGGGCUCCCGAGGGC 17 9657SCNN1A-5809 − GGCCCUCUCAGCCUGGC 17 9658 SCNN1A-5810 + GAGGCAGCCCAGAGUGC17 9659 SCNN1A-5811 + GAAUUCUCCUCCUCCUC 17 9660 SCNN1A-430 +GGGUCAAGGCUGAGCUC 17 4279 SCNN1A-5812 − GGAGGCAGGCCAGAAAG 17 9661SCNN1A-5813 + GACAGGAGGGCAGAAAG 17 9662 SCNN1A-5814 + GGCAACACAAGGAGAAG17 9663 SCNN1A-5815 − GGGGGGGAGAGGAAGAG 17 9664 SCNN1A-5816 +GGUGAGCAAGGAGAGAG 17 9665 SCNN1A-5817 − GAGGCAGGAUUAGAGAG 17 9666SCNN1A-5818 − GAGGAGGGAGGGAGGAG 17 9667 SCNN1A-5819 + GAGCAGGGCGGGGGGAG17 9668 SCNN1A-5820 + GGGCCAGCCAGGCUGAG 17 9669 SCNN1A-5821 −GAUAGAGAGGGAGUGAG 17 9670 SCNN1A-5822 − GGUUGGAGGGGGUGGCG 17 9671SCNN1A-5823 − GCUGGCUCCAGGAAAGG 17 9672 SCNN1A-5824 − GAGGGGGCAAGGCAAGG17 9673 SCNN1A-5825 + GACUGCAGGGCUCCAGG 17 9674 SCNN1A-5826 +GAGUGAGUAGAGGCAGG 17 9675 SCNN1A-5827 + GAGCAAGGAGAGAGAGG 17 9676SCNN1A-5828 − GCAGGAUUAGAGAGAGG 17 9677 SCNN1A-5829 − GAGGAGGGACCAGGAGG17 9678 SCNN1A-5830 − GAUAGCCCCAGAGGAGG 17 9679 SCNN1A-5831 +GGGGGGAGGGGCUGAGG 17 9680 SCNN1A-5832 − GCACCUGUCAGGUGAGG 17 9681SCNN1A-5833 − GGCAGAGACAGAAAGGG 17 9682 SCNN1A-5834 + GCUGGAAAGGAAGAGGG17 9683 SCNN1A-5835 − GGAAAGGUGGAGGAGGG 17 9684 SCNN1A-5836 −GGGGGCAAGGCAAGGGG 17 9685 SCNN1A-5837 − GACAAGGUUGGAGGGGG 17 9686SCNN1A-5838 + GUGAGCAGGGCGGGGGG 17 9687 SCNN1A-5839 + GGCUGAGAGGGCCUGGG17 9688 SCNN1A-5840 + GAGUAGAGGCAGGUGGG 17 9689 SCNN1A-5841 −GGCCUGGGUUGUGUGGG 17 9690 SCNN1A-431 − GAAGGGGAACAAGCUGG 17 4280SCNN1A-85 − GGAGGGGAACAAGCUGG 17 530 SCNN1A-5842 + GGCCCAGGUGAAGCUGG 179691 SCNN1A-5843 − GGCUCCAGGAAAGGUGG 17 9692 SCNN1A-5844 +GUGGGGGGCAGUGGUGG 17 9693 SCNN1A-5845 − GGAGGAGUGGGAGAAUG 17 9694SCNN1A-5846 − GGAGCCCUGCAGUCCUG 17 9695 SCNN1A-5847 + GGGCCCAGGUGAAGCUG17 9696 SCNN1A-5848 − GCCAGAGGCUGGAGCUG 17 9697 SCNN1A-5849 +GACAGGCAAGGAGGCUG 17 9698 SCNN1A-5850 + GGCGGGGGGAGGGGCUG 17 9699SCNN1A-5851 − GGAUAUGUGGGGCAGUG 17 9700 SCNN1A-5852 − GGCUCUGUGUGGGAGUG17 9701 SCNN1A-5853 + GGACAGGAUGGCAGGUG 17 9702 SCNN1A-5854 +GGUGGGGGGCAGUGGUG 17 9703 SCNN1A-5855 − GCAGGGCCUGGGUUGUG 17 9704SCNN1A-5856 − GCUCCUGGAAGCACACU 17 9705 SCNN1A-5857 + GGGGCCCAGGUGAAGCU17 9706 SCNN1A-5858 − GAAGCCACAGACCAGGU 17 9707 SCNN1A-5859 +GCUGAGAGGGCCUGGGU 17 9708 SCNN1A-5860 − GAGGAGUGGGAGAAUGU 17 9709SCNN1A-5861 − GAGGGGGAGGAGAGGUU 17 9710 SCNN1A-5862 + GCCUUCUGUUUCUCUUU17 9711 SCNN1A-5863 − GAAGGGGGCAGAGACAGAAA 20 9712 SCNN1A-432 +GAGUGGAUUGGGGAGAGCAA 20 4281 SCNN1A-5864 − GGAAGGGGGCAGAGACAGAA 20 9713SCNN1A-5865 − GAGGAAGAAGACCAAAGGAA 20 9714 SCNN1A-5866 −GAGACCUUUUCACAGAGCCA 20 9715 SCNN1A-9 − GCCCUCCACAGUCCACUCCA 20 499SCNN1A-5867 − GCAACUCUGUGACCACAGCA 20 9716 SCNN1A-433 +GGAGUGGAUUGGGGAGAGCA 20 4282 SCNN1A-5868 − GAGUGAGAGGGGGCAAGGCA 20 9717SCNN1A-5869 + GGAAAGGAAGAGGGUGGGCA 20 9718 SCNN1A-5870 +GUCUCUGCCCCAGGACUGCA 20 9719 SCNN1A-434 + GAGAGCAAGGGUCAGGGUCA 20 4283SCNN1A-5871 − GAGACCCAAAGAGAAACAGA 20 9720 SCNN1A-435 −GUUCCAGGGGUGAUGGGAGA 20 4284 SCNN1A-5872 + GAAGGAAGGAGGGCUCCCGA 20 9721SCNN1A-5873 − GGAGGAAGAAGACCAAAGGA 20 9722 SCNN1A-5874 +GGGGAACCGGGAGGACAGGA 20 9723 SCNN1A-5875 − GGAAUCAGCAGGAAAGAGGA 20 9724SCNN1A-5876 + GUGAGCAAGGAGAGAGAGGA 20 9725 SCNN1A-5877 −GCUCCAGGAAAGGUGGAGGA 20 9726 SCNN1A-5878 + GAAGGACAGAGAGAUAGGGA 20 9727SCNN1A-5879 + GCAGGGAAAGCAGGCACUGA 20 9728 SCNN1A-5880 −GGGCCAGAGGCUGGAGCUGA 20 9729 SCNN1A-5881 + GGGGACAGGAUGGCAGGUGA 20 9730SCNN1A-5882 + GAGAGCCACCCACACAACCC 20 9731 SCNN1A-5883 +GCCUCCAGCUUCCCACUCCC 20 9732 SCNN1A-5884 − GGGAGUGAGGGAGGCCUUCC 20 9733SCNN1A-5885 + GGGAGGGGCCCAGGUGAAGC 20 9734 SCNN1A-5886 +GGCUGAGGAGGAGUCAGAGC 20 9735 SCNN1A-7 − GGGGAACAAGCUGGAGGAGC 20 504SCNN1A-5887 + GGGGCCAAAAGUGCCGGAGC 20 9736 SCNN1A-5888 −GUUGGAUUUCAGGCAUGAGC 20 9737 SCNN1A-5889 − GGGGGGAGAGGAAGAGAGGC 20 9738SCNN1A-5890 + GGCACUGAGUGAGUAGAGGC 20 9739 SCNN1A-5891 −GCUGGCUUGUGGAGGGAGGC 20 9740 SCNN1A-5892 + GGUGAAGCUGGGGGCUAGGC 20 9741SCNN1A-5893 − GUGACCACAUUCCUGCACUC 20 9742 SCNN1A-5894 +GAGGACAGGAGGGCAGAAAG 20 9743 SCNN1A-5895 + GAGGGCAACACAAGGAGAAG 20 9744SCNN1A-5896 + GAAAGAGGGAGACAAUAGAG 20 9745 SCNN1A-5897 −GUGGAGGAGGGAGGGAGGAG 20 9746 SCNN1A-5898 + GAGAGAUAGGGAUGGAGGAG 20 9747SCNN1A-5899 + GGUGAGCAGGGCGGGGGGAG 20 9748 SCNN1A-5900 −GGGCAAGGCAAGGGGGGGAG 20 9749 SCNN1A-436 − GGUUCCAGGGGUGAUGGGAG 20 4285SCNN1A-5901 − GCAGAUAGAGAGGGAGUGAG 20 9750 SCNN1A-5902 +GGGACAGGAUGGCAGGUGAG 20 9751 SCNN1A-5903 − GGAAGAAGACCAAAGGAAGG 20 9752SCNN1A-5904 + GGUGAGCAAGGAGAGAGAGG 20 9753 SCNN1A-5905 −GAGGCAGGAUUAGAGAGAGG 20 9754 SCNN1A-5906 − GGCUCCAGGAAAGGUGGAGG 20 9755SCNN1A-5907 + GGCGGGGGGAGGGGCUGAGG 20 9756 SCNN1A-5908 −GCUGCACCUGUCAGGUGAGG 20 9757 SCNN1A-5909 − GGGGGCAGAGACAGAAAGGG 20 9758SCNN1A-5910 − GAGAGGGGGCAAGGCAAGGG 20 9759 SCNN1A-5911 −GAAAGGUGGAGGAGGGAGGG 20 9760 SCNN1A-5912 − GUCUGCUGGCUUGUGGAGGG 20 9761SCNN1A-5913 − GCUCUGUGUGGGAGUGAGGG 20 9762 SCNN1A-5914 −GCACCUGUCAGGUGAGGGGG 20 9763 SCNN1A-5915 + GGACAGAGAGAUAGGGAUGG 20 9764SCNN1A-5916 + GAGUGAGUAGAGGCAGGUGG 20 9765 SCNN1A-5917 −GAGGGAGGAGUGGGAGAAUG 20 9766 SCNN1A-5918 + GAGGGGCCCAGGUGAAGCUG 20 9767SCNN1A-5919 + GCAGACAGGCAAGGAGGCUG 20 9768 SCNN1A-5920 +GGGGGACAGGAUGGCAGGUG 20 9769 SCNN1A-5921 + GCAGGUGGGGGGCAGUGGUG 20 9770SCNN1A-5922 + GUCUGUGGCUUCCUCUCUUG 20 9771 SCNN1A-5923 +GGAGGGGCCCAGGUGAAGCU 20 9772 SCNN1A-5924 + GGGCCAAAAGUGCCGGAGCU 20 9773SCNN1A-5925 − GAGACAGAAAGGGAGGUGCU 20 9774 SCNN1A-5926 −GCAGAGAUGACACCUUCUCU 20 9775 SCNN1A-5927 + GAGCUAGAGGCUCAGCAAGU 20 9776SCNN1A-5928 + GGCAGGUGGGGGGCAGUGGU 20 9777 SCNN1A-5929 −GGUGAGGGGGAGGAGAGGUU 20 9778 SCNN1A-437 − GUAAGCAAGGGAACCUGGUU 20 4286

Table 46D provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the fourth tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS). It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. pyogenes eiCas9 molecule or eiCas9 fusion protein(e.g., an eiCas9 fused to a transcription repressor domain) to alter theSCNN1A gene (e.g., reduce or eliminate SCNN1A gene expression, SCNN1Aprotein function, or the level of SCNN1A protein). One or more gRNA maybe used to target an eiCas9 to the promoter region of the SCNN1A gene

TABLE 46D 4th Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID SCNN1A-5930 + AGAAUCAGACCCAAAAA 17 9779 SCNN1A-5931 +AAAGAUUGUCUUUAAAA 17 9780 SCNN1A-5932 + CAGGCAAAGAAGAGAAA 17 9781SCNN1A-5933 + UCCUUGGCUCUGUGAAA 17 9782 SCNN1A-5934 + CACAAGCCAGCAGACAA17 9783 SCNN1A-5935 − UGGAGGAAGAAGACCAA 17 9784 SCNN1A-5936 +UCCAGGAAGGAGAGCAA 17 9785 SCNN1A-438 + UGGAUUGGGGAGAGCAA 17 4287SCNN1A-5937 + AAUAGUUUUCAUAUCAA 17 9786 SCNN1A-5938 − AGGGGGCAGAGACAGAA17 9787 SCNN1A-5939 − AAUUUCUCCUCCUCCCA 17 9788 SCNN1A-439 −UCCAGCUGUCCCUUCCA 17 4288 SCNN1A-5940 + CUCCAGGAAGGAGAGCA 17 9789SCNN1A-5941 − UAGAGUGAGAGGGGGCA 17 9790 SCNN1A-440 − AGGGUGGGACAUGGGCA17 4289 SCNN1A-5942 + AAGGCGGACUCUGGGCA 17 9791 SCNN1A-5943 +AAGGAAGAGGGUGGGCA 17 9792 SCNN1A-5944 + UCUGCCCCAGGACUGCA 17 9793SCNN1A-5945 − CUUCUCUCUUCUCUGCA 17 9794 SCNN1A-5946 + AAAUAGUUUUCAUAUCA17 9795 SCNN1A-441 + AGCAAGGGUCAGGGUCA 17 4290 SCNN1A-5947 +ACAGGAGGGCAGAAAGA 17 9796 SCNN1A-5948 − ACCCAAAGAGAAACAGA 17 9797SCNN1A-5949 − CAGAAGGCAGAUAGAGA 17 9798 SCNN1A-443 − CCAGGGGUGAUGGGAGA17 4292 SCNN1A-5950 + AGAUCUGAACAAGUAGA 17 9799 SCNN1A-5951 +AUAGAGAGGGACAGCGA 17 9800 SCNN1A-5952 − AUCAGCAGGAAAGAGGA 17 9801SCNN1A-5953 + AGCAAGGAGAGAGAGGA 17 9802 SCNN1A-5954 − CCAGGAAAGGUGGAGGA17 9803 SCNN1A-5955 − CUGAUUUAUCCUUGGGA 17 9804 SCNN1A-155 +CUGGAGUGGACUGUGGA 17 652 SCNN1A-5956 − UUCUCUGCAGGGCCUGA 17 9805SCNN1A-5957 − CCAGAGGCUGGAGCUGA 17 9806 SCNN1A-5958 + UGCAAUACAAUAAGAUA17 9807 SCNN1A-5959 + AAUGCAGCAAAAGGAUA 17 9808 SCNN1A-5960 +CCUCUGCUUCCCUGAUA 17 9809 SCNN1A-444 + UGGGCUGCAGAGGUCUA 17 4293SCNN1A-5961 + CAAGGAGGCUGGGGGAC 17 9810 SCNN1A-5962 + AACCAGGAUUCCAAACC17 9811 SCNN1A-445 − AGGUAAGCAAGGGAACC 17 4294 SCNN1A-5963 +CGGGGCUCAGGUGCACC 17 9812 SCNN1A-5964 − UAGCCCCCAGCUUCACC 17 9813SCNN1A-5965 + CACUGUGGACACAGACC 17 9814 SCNN1A-5966 − AGAGGAAGCCACAGACC17 9815 SCNN1A-5967 − AGGAAAGAGGAGGGACC 17 9816 SCNN1A-5968 +AGCCACCCACACAACCC 17 9817 SCNN1A-446 + CCCUCUCCCAUCACCCC 17 4295SCNN1A-151 + UUCCCCUUCAUGAGCCC 17 648 SCNN1A-5969 + CACGCCUAGACAGGCCC 179818 SCNN1A-5970 + UCCAGCUUCCCACUCCC 17 9819 SCNN1A-5971 −UCACCUGGGCCCCUCCC 17 9820 SCNN1A-5972 + ACCUGGAUGUGAAAGCC 17 9821SCNN1A-5973 − UUUGAGAUCAAACAGCC 17 9822 SCNN1A-5974 + AGGAGAAGGGGCCAGCC17 9823 SCNN1A-5975 − CCCAGGCCCUCUCAGCC 17 9824 SCNN1A-5976 +CUGUUGGCUGCCAGGCC 17 9825 SCNN1A-5977 − AUUACACAUUCCUGGCC 17 9826SCNN1A-5978 − AACCUGGUUUGGAAUCC 17 9827 SCNN1A-5979 − AGGCAGCCCAGACCUCC17 9828 SCNN1A-5980 − CUGCCCUCCUGUCCUCC 17 9829 SCNN1A-5981 +CAGGACUGCAGGGCUCC 17 9830 SCNN1A-5982 − CUGGAGCCCUGCAGUCC 17 9831SCNN1A-5983 − AGUGAGGGAGGCCUUCC 17 9832 SCNN1A-5984 − CCCCUUGCUCUCCUUCC17 9833 SCNN1A-5985 − CUUUCCCUGCCUCUUCC 17 9834 SCNN1A-5986 +CCCUCCUCCACCUUUCC 17 9835 SCNN1A-5987 − ACCUGGGAGUGGGAAGC 17 9836SCNN1A-5988 + UGAGGAGGAGUCAGAGC 17 9837 SCNN1A-5989 − AGGUCAGGGCCAGAGGC17 9838 SCNN1A-5990 + CAGACAGGCAAGGAGGC 17 9839 SCNN1A-5991 +CUGGGGGACAGGAUGGC 17 9840 SCNN1A-5992 + CUCUGCCCCAGGACUGC 17 9841SCNN1A-5993 − UCUUCUCUCUUCUCUGC 17 9842 SCNN1A-5994 − ACCACAUUCCUGCACUC17 9843 SCNN1A-5995 + AGGGCUGGAGGAGACUC 17 9844 SCNN1A-5996 +CCCUCAGCUCCAGCCUC 17 9845 SCNN1A-5997 − UGCCUCUUCCUGGGCUC 17 9846SCNN1A-5998 + CAGGGCUCCAGGAGGUC 17 9847 SCNN1A-5999 − UGGGCCCCUCCCGGGUC17 9848 SCNN1A-6000 + UCCUGCUCUCCUCUUUC 17 9849 SCNN1A-6001 −AGGAAUCAGCAGGAAAG 17 9850 SCNN1A-6002 + CCAGGAAGGAGAGCAAG 17 9851SCNN1A-6003 − AGAGGGGGCAAGGCAAG 17 9852 SCNN1A-6004 + UGCAGAGAAGAGAGAAG17 9853 SCNN1A-6005 − AAGAAGACCAAAGGAAG 17 9854 SCNN1A-6006 +AGGCAGGUGGGGGGCAG 17 9855 SCNN1A-6007 + AGAGGGAGACAAUAGAG 17 9856SCNN1A-6008 − ACAGAAGGCAGAUAGAG 17 9857 SCNN1A-6009 + AGCAAAAGGAUAAGGAG17 9858 SCNN1A-6010 − UCAGGGAAGCAGAGGAG 17 9859 SCNN1A-6011 −CAGGUGAGGGGGAGGAG 17 9860 SCNN1A-6012 + AGAUAGGGAUGGAGGAG 17 9861SCNN1A-448 − UCCAGGGGUGAUGGGAG 17 4297 SCNN1A-83 − UACCAGGUCUCAUGGAG 17606 SCNN1A-6013 + ACAGGAUGGCAGGUGAG 17 9862 SCNN1A-6014 −UGCACCUGUCAGGUGAG 17 9863 SCNN1A-6015 + AAGCUGGGGGCUAGGCG 17 9864SCNN1A-6016 + CAGGAAGGAGAGCAAGG 17 9865 SCNN1A-6017 + UACUGGACCUGAGAAGG17 9866 SCNN1A-6018 − AGAAGACCAAAGGAAGG 17 9867 SCNN1A-6019 −AAAGAGGAGGGACCAGG 17 9868 SCNN1A-6020 − AAUCAGCAGGAAAGAGG 17 9869SCNN1A-6021 + AGACAGGCCCUGGGAGG 17 9870 SCNN1A-6022 + AGAGAUAGGGAUGGAGG17 9871 SCNN1A-6023 − UCCAGGAAAGGUGGAGG 17 9872 SCNN1A-6024 −CUGGACAAGGUUGGAGG 17 9873 SCNN1A-6025 + CUGAGCCCACAGCUAGG 17 9874SCNN1A-6026 + UGAAGCUGGGGGCUAGG 17 9875 SCNN1A-6027 + AGGAAGGAGAGCAAGGG17 9876 SCNN1A-6028 − AGGGGGCAAGGCAAGGG 17 9877 SCNN1A-6029 −AAAUAGAAAAGGCAGGG 17 9878 SCNN1A-6030 − AGGUGGAGGAGGGAGGG 17 9879SCNN1A-6031 − UGCUGGCUUGUGGAGGG 17 9880 SCNN1A-6032 − CUGUGUGGGAGUGAGGG17 9881 SCNN1A-6033 − CCUGUCAGGUGAGGGGG 17 9882 SCNN1A-6034 +CAGAGAGAUAGGGAUGG 17 9883 SCNN1A-6035 − UGGGAGUGGGAAGCUGG 17 9884SCNN1A-6036 + ACAGGCAAGGAGGCUGG 17 9885 SCNN1A-6037 + CAGGUGGGGGGCAGUGG17 9886 SCNN1A-6038 + UGAGUAGAGGCAGGUGG 17 9887 SCNN1A-154 +CCUGGAGUGGACUGUGG 17 651 SCNN1A-6039 + CCCAGAGUGCAGGAAUG 17 9888SCNN1A-6040 + AAGGUGCAGGGAGGAUG 17 9889 SCNN1A-153 + AGCCCUGGAGUGGACUG17 650 SCNN1A-6041 + UGGAGCCAGCAGACCUG 17 9890 SCNN1A-6042 −AGGGUGAGGCUGACCUG 17 9891 SCNN1A-6043 − CUUCUCUGCAGGGCCUG 17 9892SCNN1A-6044 − CUCUGGGCUGCCUCCUG 17 9893 SCNN1A-6045 + AUUCUCCUCCUCCUCUG17 9894 SCNN1A-6046 − UGCAGGGCCUGAGGGUG 17 9895 SCNN1A-6047 +CUGAGAGGGCCUGGGUG 17 9896 SCNN1A-6048 − CUGGGCUGCCUCCUGUG 17 9897SCNN1A-6049 − CUUUGUCUGCUGGCUUG 17 9898 SCNN1A-6050 + UUCCCACUCCCAGGUUG17 9899 SCNN1A-6051 + AGGUUAGAAAACAAAAU 17 9900 SCNN1A-449 −CCAGGGGCAGCCUCACU 17 4298 SCNN1A-6052 + AAGGGCUGGAGGAGACU 17 9901SCNN1A-6053 − UCCUGCAGUGAGCCCCU 17 9902 SCNN1A-450 + CUCAUGAUACCUCCCCU17 4299 SCNN1A-6054 − CCCAGUUCACCUGCCCU 17 9903 SCNN1A-6055 +CCAGGCUGAGAGGGCCU 17 9904 SCNN1A-6056 − UGGAGCCCUGCAGUCCU 17 9905SCNN1A-6057 − AAAGAACAGAAUGUCCU 17 9906 SCNN1A-6058 − UUUCCCUGCCUCUUCCU17 9907 SCNN1A-6059 + AGACAGGCAAGGAGGCU 17 9908 SCNN1A-6060 +AGGUGAAGCUGGGGGCU 17 9909 SCNN1A-6061 − ACAGAAAGGGAGGUGCU 17 9910SCNN1A-6062 + UCUGCUCUCUGGGUGCU 17 9911 SCNN1A-6063 + AAUUCUCCUCCUCCUCU17 9912 SCNN1A-6064 − CCUCCCAGGGCCUGUCU 17 9913 SCNN1A-6065 −AGGAGGGAGGGAGGAGU 17 9914 SCNN1A-6066 + CUGGAAAGGAAGAGGGU 17 9915SCNN1A-6067 + AGGUGGGGGGCAGUGGU 17 9916 SCNN1A-6068 − CAGGGCCUGGGUUGUGU17 9917 SCNN1A-6069 − AAAACUGAUUUAUCCUU 17 9918 SCNN1A-6070 +UCUCUGCCCCCUUCCUU 17 9919 SCNN1A-6071 + UGCCUUCUGUUUCUCUU 17 9920SCNN1A-6072 − AGUUUGGAAAGAGAUUU 17 9921 SCNN1A-6073 +CAGAGAAUCAGACCCAAAAA 20 9922 SCNN1A-6074 + UUAAAAGAUUGUCUUUAAAA 20 9923SCNN1A-6075 + UCCAAACUUAAUGCAGCAAA 20 9924 SCNN1A-6076 +UAGCAGGCAAAGAAGAGAAA 20 9925 SCNN1A-6077 − AGUCUGUCUCAGGAAGUAAA 20 9926SCNN1A-6078 + CUCCACAAGCCAGCAGACAA 20 9927 SCNN1A-6079 −AGUGAGAGGGGGCAAGGCAA 20 9928 SCNN1A-451 − UCCACUCCGGGGCUCAUGAA 20 4300SCNN1A-6080 − ACGAAUUUCUCCUCCUCCCA 20 9929 SCNN1A-6081 +ACCACUAGCUUAAGGCAGCA 20 9930 SCNN1A-452 − CGCAGGGUGGGACAUGGGCA 20 4301SCNN1A-6082 − CCUCUUCUCUCUUCUCUGCA 20 9931 SCNN1A-6083 +UACUUCCUGAGACAGACUCA 20 9932 SCNN1A-6084 − CAGGACACAGCUCGAGGUCA 20 9933SCNN1A-6085 + AGGACAGGAGGGCAGAAAGA 20 9934 SCNN1A-6086 +UCAGGAAGCCUUCCCAGAGA 20 9935 SCNN1A-6087 + AAAGAGGGAGACAAUAGAGA 20 9936SCNN1A-6088 − AAACAGAAGGCAGAUAGAGA 20 9937 SCNN1A-6089 +AGGAGGGCAACACAAGGAGA 20 9938 SCNN1A-6090 + AGGGGCCAGCCAGGCUGAGA 20 9939SCNN1A-6091 + CAGUGGUGGGGGCAAAUAGA 20 9940 SCNN1A-6092 +CAAAGAUCUGAACAAGUAGA 20 9941 SCNN1A-6093 + AAGGAGGCUGGGGGACAGGA 20 9942SCNN1A-6094 + AGAGAGAUAGGGAUGGAGGA 20 9943 SCNN1A-6095 −CAGGAAAGGUGGAGGAGGGA 20 9944 SCNN1A-6096 + AGGUGAGCAGGGCGGGGGGA 20 9945SCNN1A-6097 + CAGCGAAGGACAGAGAGAUA 20 9946 SCNN1A-6098 +CUUAAUGCAGCAAAAGGAUA 20 9947 SCNN1A-6099 + CCAAGGGCUAGGGGAGCCUA 20 9948SCNN1A-6100 − AAAAAGAACAGAAUGUCCUA 20 9949 SCNN1A-6101 +AGAGGGCCUGGGUGGGGAAC 20 9950 SCNN1A-6102 + AGGCAAGGAGGCUGGGGGAC 20 9951SCNN1A-6103 + UCUCCUCCCCCUCACCUGAC 20 9952 SCNN1A-6104 −AAGAGAGGAAGCCACAGACC 20 9953 SCNN1A-77 + UUGUUCCCCUCCAUGAGACC 20 603SCNN1A-6105 + CAAUAAGGUGCUCAGCACCC 20 9954 SCNN1A-72 +UUGUUCCCCUUCAUGAGCCC 20 599 SCNN1A-6106 + UCCAGACCCGGGAGGGGCCC 20 9955SCNN1A-6107 + UGCACCUGGAUGUGAAAGCC 20 9956 SCNN1A-6108 −CCACCCAGGCCCUCUCAGCC 20 9957 SCNN1A-6109 + AGCCCGCCCGCUGGCCGGCC 20 9958SCNN1A-6110 + CCAGCCAGGCUGAGAGGGCC 20 9959 SCNN1A-6111 +UCCUUUGGUCUUCUUCCUCC 20 9960 SCNN1A-6112 + CCCCAGGACUGCAGGGCUCC 20 9961SCNN1A-6113 − CCUGCCUCUUCCUGGGCUCC 20 9962 SCNN1A-6114 −CUCCUGGAGCCCUGCAGUCC 20 9963 SCNN1A-6115 − CUGCUUUCCCUGCCUCUUCC 20 9964SCNN1A-6116 + CCUCCCUCCUCCACCUUUCC 20 9965 SCNN1A-6117 +CAGGAAGAGGCAGGGAAAGC 20 9966 SCNN1A-6118 + CGACUUCUUAAAGUGAAAGC 20 9967SCNN1A-6119 − CAGGCCAGAAAGAGGAGAGC 20 9968 SCNN1A-6120 +AGGGAGGAUGUGGCCAGCGC 20 9969 SCNN1A-6121 − AGCUGGCAAAUAGAAAAGGC 20 9970SCNN1A-6122 + CCCGGAGCCCAGGAAGAGGC 20 9971 SCNN1A-6123 −AUAGAGAGGGAGUGAGAGGC 20 9972 SCNN1A-6124 − CAGGAUUAGAGAGAGGAGGC 20 9973SCNN1A-6125 + AGGCUGGGGGACAGGAUGGC 20 9974 SCNN1A-6126 −CCAGGCCCUCUCAGCCUGGC 20 9975 SCNN1A-6127 + UGGGGAGCCCGCCCGCUGGC 20 9976SCNN1A-6128 + UGUCUCUGCCCCAGGACUGC 20 9977 SCNN1A-6129 −ACCUCUUCUCUCUUCUCUGC 20 9978 SCNN1A-6130 + CAGGAGGCAGCCCAGAGUGC 20 9979SCNN1A-6131 − AGACAGACUCCCUUUGGUGC 20 9980 SCNN1A-6132 −CUCCCAGUUCACCUGCCCUC 20 9981 SCNN1A-6133 + AGGCCCUCAGCUCCAGCCUC 20 9982SCNN1A-6134 + UCAGAAUUCUCCUCCUCCUC 20 9983 SCNN1A-6135 −CCCUGCCUCUUCCUGGGCUC 20 9984 SCNN1A-6136 + CUGCAGGGCUCCAGGAGGUC 20 9985SCNN1A-6137 − ACCUGGGCCCCUCCCGGGUC 20 9986 SCNN1A-6138 +CUCUCCUGCUCUCCUCUUUC 20 9987 SCNN1A-6139 − AGAGGAGGCAGGCCAGAAAG 20 9988SCNN1A-6140 + UCUCCAGGAAGGAGAGCAAG 20 9989 SCNN1A-6141 +CCCUGCAGAGAAGAGAGAAG 20 9990 SCNN1A-6142 − AGGAAGAAGACCAAAGGAAG 20 9991SCNN1A-453 − CCACUCCGGGGCUCAUGAAG 20 4302 SCNN1A-6143 +UAGAGGCAGGUGGGGGGCAG 20 9992 SCNN1A-6144 + CCCUCACCUGACAGGUGCAG 20 9993SCNN1A-6145 − CAAGGGGGGGAGAGGAAGAG 20 9994 SCNN1A-6146 +AGUGGUGAGCAAGGAGAGAG 20 9995 SCNN1A-6147 − AGAGAGGCAGGAUUAGAGAG 20 9996SCNN1A-6148 − CUAUCAGGGAAGCAGAGGAG 20 9997 SCNN1A-6149 −UGUCAGGUGAGGGGGAGGAG 20 9998 SCNN1A-454 + CCCCUUCAUGAGCCCCGGAG 20 4303SCNN1A-6150 − UCUGCUGGCUCCAGGAAAGG 20 9999 SCNN1A-6151 +CUCCAGGAAGGAGAGCAAGG 20 10000 SCNN1A-6152 − UGAGAGGGGGCAAGGCAAGG 2010001 SCNN1A-6153 − AGGAAAGAGGAGGGACCAGG 20 10002 SCNN1A-6154 +CAGGACUGCAGGGCUCCAGG 20 10003 SCNN1A-6155 − AGGAAUCAGCAGGAAAGAGG 2010004 SCNN1A-6156 − AAAGAGGAGGGACCAGGAGG 20 10005 SCNN1A-6157 +CCUAGACAGGCCCUGGGAGG 20 10006 SCNN1A-6158 + CAGAGAGAUAGGGAUGGAGG 2010007 SCNN1A-6159 + UCCAGGAAGGAGAGCAAGGG 20 10008 SCNN1A-6160 +UCAAUUAAAGGUGAGCAGGG 20 10009 SCNN1A-6161 + AGCGCUGGAAAGGAAGAGGG 2010010 SCNN1A-6162 − CCAGGAAAGGUGGAGGAGGG 20 10011 SCNN1A-6163 −AGAGGGGGCAAGGCAAGGGG 20 10012 SCNN1A-6164 + AAGGUGAGCAGGGCGGGGGG 2010013 SCNN1A-6165 + CCAGGCUGAGAGGGCCUGGG 20 10014 SCNN1A-6166 +AGUGAGUAGAGGCAGGUGGG 20 10015 SCNN1A-6167 − CAGGGCCUGGGUUGUGUGGG 2010016 SCNN1A-455 − CAUGAAGGGGAACAAGCUGG 20 4304 SCNN1A-6 −CAUGGAGGGGAACAAGCUGG 20 558 SCNN1A-6168 − ACCUGGGAGUGGGAAGCUGG 20 10017SCNN1A-6169 + AGGGGCCCAGGUGAAGCUGG 20 10018 SCNN1A-6170 +CAGACAGGCAAGGAGGCUGG 20 10019 SCNN1A-6171 + AGGCAGGUGGGGGGCAGUGG 2010020 SCNN1A-6172 + CAGGUGGGGGGCAGUGGUGG 20 10021 SCNN1A-6173 +CAGCCCAGAGUGCAGGAAUG 20 10022 SCNN1A-6174 − CCUGGAGCCCUGCAGUCCUG 2010023 SCNN1A-6175 − AGGGCCAGAGGCUGGAGCUG 20 10024 SCNN1A-6176 +CAGGGCGGGGGGAGGGGCUG 20 10025 SCNN1A-6177 + AGGCUGAGAGGGCCUGGGUG 2010026 SCNN1A-6178 + AGCUUCCCACUCCCAGGUUG 20 10027 SCNN1A-6179 +ACUUCCUGAGACAGACUCAU 20 10028 SCNN1A-456 − UGGCCAGGGGCAGCCUCACU 20 4305SCNN1A-457 + CUGCUCAUGAUACCUCCCCU 20 4306 SCNN1A-6180 +CAGCCAGGCUGAGAGGGCCU 20 10029 SCNN1A-6181 − UCAGAAAACUGAUUUAUCCU 2010030 SCNN1A-6182 − AAAAAAGAACAGAAUGUCCU 20 10031 SCNN1A-6183 −UGCUUUCCCUGCCUCUUCCU 20 10032 SCNN1A-6184 + CCCAGGUGAAGCUGGGGGCU 2010033 SCNN1A-6185 + CAGAAUUCUCCUCCUCCUCU 20 10034 SCNN1A-6186 −CCUCCUCCCAGGGCCUGUCU 20 10035 SCNN1A-6187 − UGGAGGAGGGAGGGAGGAGU 2010036 SCNN1A-6188 + CAGGCUGAGAGGGCCUGGGU 20 10037 SCNN1A-6189 −CAGAAAACUGAUUUAUCCUU 20 10038 SCNN1A-6190 + CUGUCUCUGCCCCCUUCCUU 2010039 SCNN1A-6191 + AUCUGCCUUCUGUUUCUCUU 20 10040 SCNN1A-6192 +UCUGCCUUCUGUUUCUCUUU 20 10041

Table 46E provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the fifth tier parameters. Thetargeting domains bind within the additional 500 bp (e.g., upstream ordownstream) of a transcription start site (TSS), e.g., extending to 1 kbupstream and downstream of a TSS. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a S. pyogenes eiCas9 molecule or eiCas9 fusion protein(e.g., an eiCas9 fused to a transcription repressor domain) to alter theSCNN1A gene (e.g., reduce or eliminate SCNN1A gene expression, SCNN1Aprotein function, or the level of SCNN1A protein). One or more gRNA maybe used to target an eiCas9 to the promoter region of the SCNN1A gene.

TABLE 46E 5th Tier Target Site gRNA Name DNA Strand Targeting DomainLength Seq ID SCNN1A-6193 − GAAAAUAAAAGCAAAAA 17 10042 SCNN1A-6194 −AAAGAUCAUCUUUAAAA 17 10043 SCNN1A-6195 + UCCUUUCCCUCCCCAAA 17 10044SCNN1A-6196 + GUCUGGGCUGAGCCAAA 17 10045 SCNN1A-6197 + UUCCUUUCCCUCCCCAA17 10046 SCNN1A-6198 + GGUCUGGGCUGAGCCAA 17 10047 SCNN1A-125 +CCAGUACAUCAUGCCAA 17 632 SCNN1A-6199 − UUGGGGAGGGAAAGGAA 17 10048SCNN1A-6200 + GCGCAGGCACCAGGGAA 17 10049 SCNN1A-6201 − CCCCUUUGGGGAGGGAA17 10050 SCNN1A-6202 − GGUGCCUGCGCCUGGAA 17 10051 SCNN1A-90 −ACUCCAGGGCUCAUGAA 17 611 SCNN1A-6203 − UACAUGUAAGUUUAUAA 17 10052SCNN1A-6204 − GAAAGGAAGGGGACUAA 17 10053 SCNN1A-6205 + GAGCUCUACCUGGGACA17 10054 SCNN1A-6206 + UCCAGGCGCAGGCACCA 17 10055 SCNN1A-99 −GGCGCCCCAGCAGCCCA 17 536 SCNN1A-104 − AACAACACCACCAUCCA 17 617 SCNN1A-88− CUCCACAGUCCACUCCA 17 609 SCNN1A-6207 − CCUGGAAGGGUGGUCCA 17 10056SCNN1A-94 − AACAAGCGUGAGGAGCA 17 613 SCNN1A-6208 − GAAACAUACCUAUAGCA 1710057 SCNN1A-6209 − CCCGGCAGGACGUGGCA 17 10058 SCNN1A-141 +GCGGUGGAACUCGAUCA 17 551 SCNN1A-106 − GCACAACCGCAUGAAGA 17 540SCNN1A-126 + CCACAGCACUGCCCAGA 17 633 SCNN1A-442 + ACCAGGGAAGGGGCAGA 174291 SCNN1A-115 + GGGAUUGAGGGUGCAGA 17 542 SCNN1A-6210 −UUUGGGGAGGGAAAGGA 17 10059 SCNN1A-132 + GGAGCACACCAGGCGGA 17 547SCNN1A-6211 + GGCGCAGGCACCAGGGA 17 10060 SCNN1A-6212 − UGGCUCCCCUUUGGGGA17 10061 SCNN1A-6213 − UGGUGCCUGCGCCUGGA 17 10062 SCNN1A-134 +GCGGAUGGCGCCGUGGA 17 548 SCNN1A-155 + CUGGAGUGGACUGUGGA 17 652 SCNN1A-89− CACUCCAGGGCUCAUGA 17 610 SCNN1A-6214 − CAGAGCCUCAGACCUGA 17 10063SCNN1A-121 + GUUGAUGUUGAGGCUGA 17 545 SCNN1A-367 + CGACCUGUAGGGAUUGA 174216 SCNN1A-6215 − GGAAAGGAAGGGGACUA 17 10064 SCNN1A-6216 +CCACGUCCUGCCGGGUA 17 10065 SCNN1A-331 + GGACUAACCGACCUGUA 17 4180SCNN1A-6217 − GACAGAUAUACAAAUUA 17 10066 SCNN1A-6218 + CUGGAGCGGGCUAGAAC17 10067 SCNN1A-6219 − GGUGCUGAGGUGCUCAC 17 10068 SCNN1A-6220 +UUAUUUAUCUUAGAGAC 17 10069 SCNN1A-6221 + UGAGCUCUACCUGGGAC 17 10070SCNN1A-122 + UUGAUGUUGAGGCUGAC 17 629 SCNN1A-332 − GCACCCUCAAUCCCUAC 174181 SCNN1A-111 − CCUUUGGCAUGAUGUAC 17 622 SCNN1A-130 +UGUGCUGGGAGCACACC 17 637 SCNN1A-6222 + UUCCAGGCGCAGGCACC 17 10071SCNN1A-6223 − UUGGCUCAGCCCAGACC 17 10072 SCNN1A-6224 + AAUAGAAAUCUGAGACC17 10073 SCNN1A-6225 + CUGCAGCAUUCUAGACC 17 10074 SCNN1A-6226 −AUUGCCACUCCCAUACC 17 10075 SCNN1A-6227 + CAGCAGUGAGCUCUACC 17 10076SCNN1A-6228 + UGAGCACCUCAGCACCC 17 10077 SCNN1A-151 + UUCCCCUUCAUGAGCCC17 648 SCNN1A-6229 − ACUGACACCCCUGUCCC 17 10078 SCNN1A-447 −UCCCUCUGCCCCUUCCC 17 4296 SCNN1A-105 − CCACGGCGCCAUCCGCC 17 618SCNN1A-6230 − UCCCUGGUGCCUGCGCC 17 10079 SCNN1A-5364 + AGAAGAAUUGCAAUGCC17 9213 SCNN1A-6231 + CCCUGCCACGUCCUGCC 17 10080 SCNN1A-87 −CCUCCACAGUCCACUCC 17 608 SCNN1A-6232 − CUGUUCUAGCCCGCUCC 17 10081SCNN1A-6233 − ACUUCUGACCAAAGUCC 17 10082 SCNN1A-6234 − GCCUGGAAGGGUGGUCC17 10083 SCNN1A-6235 + CCCUGGACCACCCUUCC 17 10084 SCNN1A-124 +AGUACUCUCCGAAAAGC 17 631 SCNN1A-93 − GAACAAGCGUGAGGAGC 17 533SCNN1A-6236 + CAUUCUAGACCUGGAGC 17 10085 SCNN1A-147 + GGCUGCUGGGGCGCCGC17 554 SCNN1A-6237 + ACCACCCUUCCAGGCGC 17 10086 SCNN1A-6238 +UGCACUAUCCUCUAGGC 17 10087 SCNN1A-6239 − CCACUCCCAUACCCGGC 17 10088SCNN1A-96 − GCGUGAGGAGCAGGGGC 17 534 SCNN1A-6240 − UGAGGUGCUCACUGGGC 1710089 SCNN1A-6241 − ACCCGGCAGGACGUGGC 17 10090 SCNN1A-6242 −CAGGUAGAGCUCACUGC 17 10091 SCNN1A-117 + GUGCAGAUGGUCACUGC 17 544SCNN1A-6243 + ACCCUGCCACGUCCUGC 17 10092 SCNN1A-144 + CCUCCGCCGUGGGCUGC17 643 SCNN1A-128 + UCUUCAUGCGGUUGUGC 17 635 SCNN1A-140 +AGCGGUGGAACUCGAUC 17 642 SCNN1A-6244 + UGUCAGUUCCCACCCUC 17 10093SCNN1A-5415 + AAUUGCAAUGCCUGGUC 17 9264 SCNN1A-107 − GCAUGAAGACGGCCUUC17 541 SCNN1A-149 + UGGGGCGCCGCAGGUUC 17 647 SCNN1A-6245 +CCUUUCCCUCCCCAAAG 17 10094 SCNN1A-6246 − UGGGGAGGGAAAGGAAG 17 10095SCNN1A-6247 + CGCAGGCACCAGGGAAG 17 10096 SCNN1A-91 − CUCCAGGGCUCAUGAAG17 612 SCNN1A-6248 + AGCUCUACCUGGGACAG 17 10097 SCNN1A-95 −ACAAGCGUGAGGAGCAG 17 614 SCNN1A-6249 + CACCAGGGAAGGGGCAG 17 10098SCNN1A-138 + AGAGCUCUCGGUAGGAG 17 641 SCNN1A-6250 + CCUGCCGGGUAUGGGAG 1710099 SCNN1A-6251 + GCAUUCUAGACCUGGAG 17 10100 SCNN1A-152 +CUUCAUGAGCCCUGGAG 17 649 SCNN1A-6252 − GCUGUACUCCAGCCUAG 17 10101SCNN1A-6253 − CCAUACCCGGCAGGACG 17 10102 SCNN1A-123 + UGAUGUUGAGGCUGACG17 630 SCNN1A-142 + GGCCUCCUCCUCCGCCG 17 552 SCNN1A-133 +CCAGGCGGAUGGCGCCG 17 638 SCNN1A-118 + UGCAGAUGGUCACUGCG 17 626SCNN1A-150 + GGGGCGCCGCAGGUUCG 17 555 SCNN1A-131 + GCUGGGAGCACACCAGG 17546 SCNN1A-103 − GCCCACGGCGGAGGAGG 17 539 SCNN1A-102 − GCAGCCCACGGCGGAGG17 538 SCNN1A-100 − GCCCCAGCAGCCCACGG 17 537 SCNN1A-139 +GCUCUCGGUAGGAGCGG 17 550 SCNN1A-101 − CCAGCAGCCCACGGCGG 17 616SCNN1A-6254 + UGGGCUGAGCCAAAGGG 17 10103 SCNN1A-6255 − GCCUGCGCCUGGAAGGG17 10104 SCNN1A-6256 − AGCCUCAGACCUGAGGG 17 10105 SCNN1A-6257 −GUGGCUCCCCUUUGGGG 17 10106 SCNN1A-135 + GAUGGCGCCGUGGAUGG 17 549SCNN1A-6258 − AGAUAUACAAAUUAUGG 17 10107 SCNN1A-154 + CCUGGAGUGGACUGUGG17 651 SCNN1A-127 + AGAAGGCCGUCUUCAUG 17 634 SCNN1A-116 +GGUGCAGAUGGUCACUG 17 543 SCNN1A-153 + AGCCCUGGAGUGGACUG 17 650 SCNN1A-98− GCUGGGCCCCGAACCUG 17 535 SCNN1A-6259 − GCAGAGCCUCAGACCUG 17 10108SCNN1A-146 + UCCGCCGUGGGCUGCUG 17 645 SCNN1A-109 − CCUUCUGGGCAGUGCUG 17620 SCNN1A-6260 − GGUGGUCCAGGGUGCUG 17 10109 SCNN1A-6261 +UCCCACCCUCAGGUCUG 17 10110 SCNN1A-92 − GAAGGGGAACAAGCGUG 17 532SCNN1A-6262 + ACAGGCUUGGUGUUGUG 17 10111 SCNN1A-386 + CCGACCUGUAGGGAUUG17 4235 SCNN1A-119 + CGAGCUUGUCCGAGUUG 17 627 SCNN1A-120 +AGUUGAGGUUGAUGUUG 17 628 SCNN1A-6263 − AUGGUGGCUCCCCUUUG 17 10112SCNN1A-6264 + GACAGAGACCAUGCUAU 17 10113 SCNN1A-6265 + CACGUCCUGCCGGGUAU17 10114 SCNN1A-114 − CAACAUCAACCUCAACU 17 625 SCNN1A-6266 −UAGAAUGCUGCAGCACU 17 10115 SCNN1A-6267 − GUGCUGAGGUGCUCACU 17 10116SCNN1A-6268 + AGCAGUGAGCUCUACCU 17 10117 SCNN1A-6269 + GCGGGCUAGAACAGGCU17 10118 SCNN1A-97 − CGUGAGGAGCAGGGGCU 17 615 SCNN1A-145 +CUCCGCCGUGGGCUGCU 17 644 SCNN1A-129 + CUUCAUGCGGUUGUGCU 17 636SCNN1A-6270 + AUCAUGCACUAUCCUCU 17 10119 SCNN1A-136 + AGAACUCGAAGAGCUCU17 639 SCNN1A-6271 + AUUGCAAUGCCUGGUCU 17 10120 SCNN1A-108 −CAUGAAGACGGCCUUCU 17 619 SCNN1A-143 + GCCUCCUCCUCCGCCGU 17 553SCNN1A-391 − CCUCAAUCCCUACAGGU 17 4240 SCNN1A-137 + CUCGAAGAGCUCUCGGU 17640 SCNN1A-6272 − GCCUCAGACCUGAGGGU 17 10121 SCNN1A-338 +GGGACUAACCGACCUGU 17 4187 SCNN1A-112 − AUGAUGUACUGGCAAUU 17 623SCNN1A-6273 + AUCUGAGACCUGGACUU 17 10122 SCNN1A-110 − CUGUGGCUCUGCACCUU17 621 SCNN1A-6274 − GCAGGGUCACCACCCUU 17 10123 SCNN1A-6275 −UUAUGGUGGCUCCCCUU 17 10124 SCNN1A-148 + CUGGGGCGCCGCAGGUU 17 646SCNN1A-6276 − UAUGGUGGCUCCCCUUU 17 10125 SCNN1A-113 − CAAUUCGGCCUGCUUUU17 624 SCNN1A-6277 − UAAGAAAAUAAAAGCAAAAA 20 10126 SCNN1A-6278 −UUAAAAGAUCAUCUUUAAAA 20 10127 SCNN1A-6279 + CCUUCCUUUCCCUCCCCAAA 2010128 SCNN1A-6280 + CUGGUCUGGGCUGAGCCAAA 20 10129 SCNN1A-6281 +CCCUUCCUUUCCCUCCCCAA 20 10130 SCNN1A-6282 + CCUGGUCUGGGCUGAGCCAA 2010131 SCNN1A-46 + UUGCCAGUACAUCAUGCCAA 20 580 SCNN1A-6283 −CCUUUGGGGAGGGAAAGGAA 20 10132 SCNN1A-6284 + CAGGCGCAGGCACCAGGGAA 2010133 SCNN1A-6285 − GCUCCCCUUUGGGGAGGGAA 20 10134 SCNN1A-6286 −CCUGGUGCCUGCGCCUGGAA 20 10135 SCNN1A-11 − UCCACUCCAGGGCUCAUGAA 20 560SCNN1A-6287 − AAAUACAUGUAAGUUUAUAA 20 10136 SCNN1A-6288 −AGGGAAAGGAAGGGGACUAA 20 10137 SCNN1A-6289 + AGUGAGCUCUACCUGGGACA 2010138 SCNN1A-6290 + CCUUCCAGGCGCAGGCACCA 20 10139 SCNN1A-20 −UGCGGCGCCCCAGCAGCCCA 20 565 SCNN1A-25 − UGCAACAACACCACCAUCCA 20 567SCNN1A-9 − GCCCUCCACAGUCCACUCCA 20 499 SCNN1A-6291 −GCGCCUGGAAGGGUGGUCCA 20 10140 SCNN1A-15 − GGGAACAAGCGUGAGGAGCA 20 507SCNN1A-6292 − GUAGAAACAUACCUAUAGCA 20 10141 SCNN1A-6293 −AUACCCGGCAGGACGUGGCA 20 10142 SCNN1A-62 + GGAGCGGUGGAACUCGAUCA 20 525SCNN1A-27 − CCAGCACAACCGCAUGAAGA 20 569 SCNN1A-47 + GAGCCACAGCACUGCCCAGA20 521 SCNN1A-6294 + GGCACCAGGGAAGGGGCAGA 20 10143 SCNN1A-36 +GUAGGGAUUGAGGGUGCAGA 20 516 SCNN1A-6295 − CCCUUUGGGGAGGGAAAGGA 20 10144SCNN1A-53 + CUGGGAGCACACCAGGCGGA 20 585 SCNN1A-6296 +CCAGGCGCAGGCACCAGGGA 20 10145 SCNN1A-6297 − UGGUGGCUCCCCUUUGGGGA 2010146 SCNN1A-6298 − CCCUGGUGCCUGCGCCUGGA 20 10147 SCNN1A-55 +CAGGCGGAUGGCGCCGUGGA 20 587 SCNN1A-76 + GCCCUGGAGUGGACUGUGGA 20 528SCNN1A-10 − GUCCACUCCAGGGCUCAUGA 20 505 SCNN1A-6299 −AGGCAGAGCCUCAGACCUGA 20 10148 SCNN1A-42 + GAGGUUGAUGUUGAGGCUGA 20 519SCNN1A-402 + AACCGACCUGUAGGGAUUGA 20 4251 SCNN1A-6300 −GAGGGAAAGGAAGGGGACUA 20 10149 SCNN1A-6301 + CUGCCACGUCCUGCCGGGUA 2010150 SCNN1A-345 + GAGGGACUAACCGACCUGUA 20 4194 SCNN1A-6302 −AUAGACAGAUAUACAAAUUA 20 10151 SCNN1A-6303 + GACCUGGAGCGGGCUAGAAC 2010152 SCNN1A-6304 − CAGGGUGCUGAGGUGCUCAC 20 10153 SCNN1A-6305 +UUCUUAUUUAUCUUAGAGAC 20 10154 SCNN1A-6306 + CAGUGAGCUCUACCUGGGAC 2010155 SCNN1A-43 + AGGUUGAUGUUGAGGCUGAC 20 578 SCNN1A-403 −UCUGCACCCUCAAUCCCUAC 20 4252 SCNN1A-32 − GCACCUUUGGCAUGAUGUAC 20 514SCNN1A-51 + GGUUGUGCUGGGAGCACACC 20 522 SCNN1A-6307 +CCCUUCCAGGCGCAGGCACC 20 10156 SCNN1A-6308 − CCUUUGGCUCAGCCCAGACC 2010157 SCNN1A-6309 + GAAAAUAGAAAUCUGAGACC 20 10158 SCNN1A-6310 +GUGCUGCAGCAUUCUAGACC 20 10159 SCNN1A-6311 − CGCAUUGCCACUCCCAUACC 2010160 SCNN1A-6312 + UGCCAGCAGUGAGCUCUACC 20 10161 SCNN1A-6313 +CAGUGAGCACCUCAGCACCC 20 10162 SCNN1A-72 + UUGUUCCCCUUCAUGAGCCC 20 599SCNN1A-6314 − GGAACUGACACCCCUGUCCC 20 10163 SCNN1A-407 −UAGUCCCUCUGCCCCUUCCC 20 4256 SCNN1A-26 − CAUCCACGGCGCCAUCCGCC 20 568SCNN1A-6315 − CCUUCCCUGGUGCCUGCGCC 20 10164 SCNN1A-5223 +GUGAGAAGAAUUGCAAUGCC 20 9072 SCNN1A-6316 + UGACCCUGCCACGUCCUGCC 20 10165SCNN1A-8 − AGCCCUCCACAGUCCACUCC 20 559 SCNN1A-6317 −AGCCUGUUCUAGCCCGCUCC 20 10166 SCNN1A-6318 − UGGACUUCUGACCAAAGUCC 2010167 SCNN1A-6319 − UGCGCCUGGAAGGGUGGUCC 20 10168 SCNN1A-6320 +GCACCCUGGACCACCCUUCC 20 10169 SCNN1A-45 + UGAAGUACUCUCCGAAAAGC 20 579SCNN1A-14 − GGGGAACAAGCGUGAGGAGC 20 506 SCNN1A-6321 +CAGCAUUCUAGACCUGGAGC 20 10170 SCNN1A-68 + GUGGGCUGCUGGGGCGCCGC 20 526SCNN1A-6322 + UGGACCACCCUUCCAGGCGC 20 10171 SCNN1A-6323 +UCAUGCACUAUCCUCUAGGC 20 10172 SCNN1A-6324 − UUGCCACUCCCAUACCCGGC 2010173 SCNN1A-17 − CAAGCGUGAGGAGCAGGGGC 20 563 SCNN1A-6325 −UGCUGAGGUGCUCACUGGGC 20 10174 SCNN1A-6326 − CAUACCCGGCAGGACGUGGC 2010175 SCNN1A-6327 − UCCCAGGUAGAGCUCACUGC 20 10176 SCNN1A-38 +AGGGUGCAGAUGGUCACUGC 20 575 SCNN1A-6328 + GUGACCCUGCCACGUCCUGC 20 10177SCNN1A-65 + CCUCCUCCGCCGUGGGCUGC 20 594 SCNN1A-49 + CCGUCUUCAUGCGGUUGUGC20 582 SCNN1A-61 + AGGAGCGGUGGAACUCGAUC 20 591 SCNN1A-6329 +GGGUGUCAGUUCCCACCCUC 20 10178 SCNN1A-5640 + AAGAAUUGCAAUGCCUGGUC 20 9489SCNN1A-28 − ACCGCAUGAAGACGGCCUUC 20 570 SCNN1A-70 + UGCUGGGGCGCCGCAGGUUC20 598 SCNN1A-6330 + CUUCCUUUCCCUCCCCAAAG 20 10179 SCNN1A-6331 −CUUUGGGGAGGGAAAGGAAG 20 10180 SCNN1A-6332 + AGGCGCAGGCACCAGGGAAG 2010181 SCNN1A-12 − CCACUCCAGGGCUCAUGAAG 20 561 SCNN1A-6333 +GUGAGCUCUACCUGGGACAG 20 10182 SCNN1A-16 − GGAACAAGCGUGAGGAGCAG 20 508SCNN1A-6334 + AGGCACCAGGGAAGGGGCAG 20 10183 SCNN1A-59 +CGAAGAGCUCUCGGUAGGAG 20 589 SCNN1A-6335 + CGUCCUGCCGGGUAUGGGAG 20 10184SCNN1A-6336 + GCAGCAUUCUAGACCUGGAG 20 10185 SCNN1A-73 +CCCCUUCAUGAGCCCUGGAG 20 600 SCNN1A-6337 − GCUGCUGUACUCCAGCCUAG 20 10186SCNN1A-6338 − CUCCCAUACCCGGCAGGACG 20 10187 SCNN1A-44 +GGUUGAUGUUGAGGCUGACG 20 520 SCNN1A-63 + CAGGGCCUCCUCCUCCGCCG 20 592SCNN1A-54 + ACACCAGGCGGAUGGCGCCG 20 586 SCNN1A-39 + GGGUGCAGAUGGUCACUGCG20 518 SCNN1A-71 + GCUGGGGCGCCGCAGGUUCG 20 527 SCNN1A-52 +UGUGCUGGGAGCACACCAGG 20 584 SCNN1A-24 − GCAGCCCACGGCGGAGGAGG 20 512SCNN1A-23 − CCAGCAGCCCACGGCGGAGG 20 566 SCNN1A-21 − GGCGCCCCAGCAGCCCACGG20 510 SCNN1A-60 + AGAGCUCUCGGUAGGAGCGG 20 590 SCNN1A-22 −GCCCCAGCAGCCCACGGCGG 20 511 SCNN1A-6339 + GUCUGGGCUGAGCCAAAGGG 20 10188SCNN1A-6340 − GGUGCCUGCGCCUGGAAGGG 20 10189 SCNN1A-6341 −CAGAGCCUCAGACCUGAGGG 20 10190 SCNN1A-6342 − AUGGUGGCUCCCCUUUGGGG 2010191 SCNN1A-56 + GCGGAUGGCGCCGUGGAUGG 20 523 SCNN1A-6343 −GACAGAUAUACAAAUUAUGG 20 10192 SCNN1A-75 + AGCCCUGGAGUGGACUGUGG 20 602SCNN1A-48 + CCCAGAAGGCCGUCUUCAUG 20 581 SCNN1A-37 + GAGGGUGCAGAUGGUCACUG20 517 SCNN1A-74 + AUGAGCCCUGGAGUGGACUG 20 601 SCNN1A-19 −GGGGCUGGGCCCCGAACCUG 20 509 SCNN1A-6344 − CAGGCAGAGCCUCAGACCUG 20 10193SCNN1A-67 + UCCUCCGCCGUGGGCUGCUG 20 596 SCNN1A-30 − CGGCCUUCUGGGCAGUGCUG20 572 SCNN1A-6345 − AAGGGUGGUCCAGGGUGCUG 20 10194 SCNN1A-6346 +AGUUCCCACCCUCAGGUCUG 20 10195 SCNN1A-13 − CAUGAAGGGGAACAAGCGUG 20 562SCNN1A-6347 + AGAACAGGCUUGGUGUUGUG 20 10196 SCNN1A-418 +UAACCGACCUGUAGGGAUUG 20 4267 SCNN1A-40 + AGACGAGCUUGUCCGAGUUG 20 576SCNN1A-41 + CCGAGUUGAGGUUGAUGUUG 20 577 SCNN1A-6348 −AUUAUGGUGGCUCCCCUUUG 20 10197 SCNN1A-6349 + UAUGACAGAGACCAUGCUAU 2010198 SCNN1A-6350 + UGCCACGUCCUGCCGGGUAU 20 10199 SCNN1A-35 −CCUCAACAUCAACCUCAACU 20 574 SCNN1A-6351 − GUCUAGAAUGCUGCAGCACU 20 10200SCNN1A-6352 − AGGGUGCUGAGGUGCUCACU 20 10201 SCNN1A-6353 +GCCAGCAGUGAGCUCUACCU 20 10202 SCNN1A-6354 + GGAGCGGGCUAGAACAGGCU 2010203 SCNN1A-18 − AAGCGUGAGGAGCAGGGGCU 20 564 SCNN1A-66 +CUCCUCCGCCGUGGGCUGCU 20 595 SCNN1A-50 + CGUCUUCAUGCGGUUGUGCU 20 583SCNN1A-6355 + AGGAUCAUGCACUAUCCUCU 20 10204 SCNN1A-57 +AGAAGAACUCGAAGAGCUCU 20 588 SCNN1A-6356 + AGAAUUGCAAUGCCUGGUCU 20 10205SCNN1A-29 − CCGCAUGAAGACGGCCUUCU 20 571 SCNN1A-64 + AGGGCCUCCUCCUCCGCCGU20 593 SCNN1A-423 − CACCCUCAAUCCCUACAGGU 20 4272 SCNN1A-58 +GAACUCGAAGAGCUCUCGGU 20 524 SCNN1A-6357 − AGAGCCUCAGACCUGAGGGU 20 10206SCNN1A-424 + AGAGGGACUAACCGACCUGU 20 4273 SCNN1A-33 −GGCAUGAUGUACUGGCAAUU 20 515 SCNN1A-6358 + GAAAUCUGAGACCUGGACUU 20 10207SCNN1A-31 − GUGCUGUGGCUCUGCACCUU 20 513 SCNN1A-6359 −GUGGCAGGGUCACCACCCUU 20 10208 SCNN1A-6360 − AAAUUAUGGUGGCUCCCCUU 2010209 SCNN1A-69 + CUGCUGGGGCGCCGCAGGUU 20 597 SCNN1A-6361 −AAUUAUGGUGGCUCCCCUUU 20 10210 SCNN1A-34 − UGGCAAUUCGGCCUGCUUUU 20 573

Table 47A provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the first tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS), have a high level of orthogonality,start with a 5′G, and PAM is NNGRRT. It is contemplated herein that inan embodiment the targeting domain hybridizes to the target domainthrough complementary base pairing. Any of the targeting domains in thetable can be used with a S. aureus eiCas9 molecule or eiCas9 fusionprotein (e.g., an eiCas9 fused to a transcription repressor domain) toalter the SCNN1A gene (e.g., reduce or eliminate SCNN1A gene expression,SCNN1A protein function, or the level of SCNN1A protein). One or moregRNA may be used to target an eiCas9 to the promoter region of theSCNN1A gene.

TABLE 47A 1st Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-6362 + GAAGGAGCCAGCACCAAA 18 10211 SCNN1A-6363 +GCCAGCGCUGGAAAGGAA 18 10212 SCNN1A-6364 + GGCCAGCGCUGGAAAGGAA 19 10213SCNN1A-6365 + GUGGCCAGCGCUGGAAAGGAA 21 10214 SCNN1A-6366 +GAUGUGGCCAGCGCUGGAAAGGAA 24 10215 SCNN1A-6367 + GCUGAAUCUUGACAAGCA 1810216 SCNN1A-6368 + GUAAUCGCCCCUGCUGUGGUCA 22 10217 SCNN1A-6369 +GUGUAAUCGCCCCUGCUGUGGUCA 24 10218 SCNN1A-6370 + GUGAAAGCCGGUGUCAAC 1810219 SCNN1A-1304 + GCCCUCUCCCAUCACCCCUGGAAC 24 5153 SCNN1A-6371 +GAUCGGGGCUCAGGUGCAC 19 10220 SCNN1A-6372 + GGAUCGGGGCUCAGGUGCAC 20 10221SCNN1A-6373 + GGGAUCGGGGCUCAGGUGCAC 21 10222 SCNN1A-6374 +GGGGAUCGGGGCUCAGGUGCAC 22 10223 SCNN1A-6375 + GGGGGAUCGGGGCUCAGGUGCAC 2310224 SCNN1A-6376 + GCCAGGGAUGGAAGCGAC 18 10225 SCNN1A-6377 +GGCCAGGGAUGGAAGCGAC 19 10226 SCNN1A-6378 + GCCGGCCAGGGAUGGAAGCGAC 2210227 SCNN1A-6379 + GGCCGGCCAGGGAUGGAAGCGAC 23 10228 SCNN1A-6380 +GAAGAAACUGACCCUUCCC 19 10229 SCNN1A-6381 + GCCCCACAGGAGGCAGCC 18 10230SCNN1A-6382 + GGCCCCACAGGAGGCAGCC 19 10231 SCNN1A-6383 +GGGCCCCACAGGAGGCAGCC 20 10232 SCNN1A-5221 + GCUGAGGAGGAGUCAGAGCC 20 9070SCNN1A-6384 + GCCCGCCCGCUGGCCGGCC 19 10233 SCNN1A-6385 +GAGCCCGCCCGCUGGCCGGCC 21 10234 SCNN1A-6386 + GGAGCCCGCCCGCUGGCCGGCC 2210235 SCNN1A-6387 + GGGAGCCCGCCCGCUGGCCGGCC 23 10236 SCNN1A-6388 +GGGGAGCCCGCCCGCUGGCCGGCC 24 10237 SCNN1A-1305 + GUCAAGGCUGAGCUCUGGGCC 215154 SCNN1A-1306 + GGUCAAGGCUGAGCUCUGGGCC 22 5155 SCNN1A-1307 +GGGUCAAGGCUGAGCUCUGGGCC 23 5156 SCNN1A-1308 + GAGUGGAUUGGGGAGAGC 18 5157SCNN1A-1309 + GGAGUGGAUUGGGGAGAGC 19 5158 SCNN1A-1310 +GCCCCGGAGUGGAUUGGGGAGAGC 24 5159 SCNN1A-1311 + GCCCUGGAGUGGACUGUGGAGGGC24 5160 SCNN1A-6389 + GGAGGCAGCCCAGAGUGC 18 10238 SCNN1A-6390 +GCUGUGGUCACAGAGUUGC 19 10239 SCNN1A-1312 + GUAUGGGCUGCAGAGGUC 18 5161SCNN1A-1313 + GGUAUGGGCUGCAGAGGUC 19 5162 SCNN1A-1314 +GACCUGGUAUGGGCUGCAGAGGUC 24 5163 SCNN1A-1315 + GAUACCUCCCCUUGGAAGGGACAG24 5164 SCNN1A-6391 + GGACUGGUUCCUUUCCAG 18 10240 SCNN1A-6392 +GGGACUGGUUCCUUUCCAG 19 10241 SCNN1A-6393 + GACUGGGACUGGUUCCUUUCCAG 2310242 SCNN1A-6394 + GGACUGGGACUGGUUCCUUUCCAG 24 10243 SCNN1A-6395 +GCAGCAAAAGGAUAAGGAG 19 10244 SCNN1A-6396 + GGCAAAGAUCUGAACAAGUAG 2110245 SCNN1A-6397 + GGGCAAAGAUCUGAACAAGUAG 22 10246 SCNN1A-6398 +GGGGCAAAGAUCUGAACAAGUAG 23 10247 SCNN1A-6399 + GCAGGCACUGAAGGUGCAGG 2010248 SCNN1A-6400 + GGGAGCAGCGCACUCAGG 18 10249 SCNN1A-5260 +GUGGGAGCAGCGCACUCAGG 20 9109 SCNN1A-6401 + GAUUCGUCUGCUCUCUGGGUG 2110250 SCNN1A-6402 + GGAUUCGUCUGCUCUCUGGGUG 22 10251 SCNN1A-6403 +GUGGAUUCGUCUGCUCUCUGGGUG 24 10252 SCNN1A-6404 + GCCCGUGGAUUCGUCUGCUCU 2110253 SCNN1A-6405 + GAGCCCGUGGAUUCGUCUGCUCU 23 10254 SCNN1A-1322 +GAUUGGGGAGAGCAAGGGU 19 5171 SCNN1A-1323 + GGAUUGGGGAGAGCAAGGGU 20 5172SCNN1A-1324 + GUGGAUUGGGGAGAGCAAGGGU 22 5173 SCNN1A-1325 +GAGUGGAUUGGGGAGAGCAAGGGU 24 5174 SCNN1A-6406 + GCAGAGCUAUAAACAGAAUU 2010255 SCNN1A-6407 + GAGCAGAGCUAUAAACAGAAUU 22 10256 SCNN1A-6408 +GGAGCAGAGCUAUAAACAGAAUU 23 10257 SCNN1A-6409 + GCUUCCCUGAUAGGGCCACCUU 2210258 SCNN1A-6410 − GCCAACAGUGUAAAAAAGAA 20 10259 SCNN1A-6411 −GCAGCCAACAGUGUAAAAAAGAA 23 10260 SCNN1A-6412 − GGCAGCCAACAGUGUAAAAAAGAA24 10261 SCNN1A-6413 − GAGAAAAUAUAGCCCAUCA 19 10262 SCNN1A-6414 −GGAGAAAAUAUAGCCCAUCA 20 10263 SCNN1A-6415 − GCAGUCCUGGGGCAGAGA 18 10264SCNN1A-6416 − GGUCUGGACAAGGUUGGA 18 10265 SCNN1A-6417 −GGGUCUGGACAAGGUUGGA 19 10266 SCNN1A-6418 − GAGGCAGACGCAUCCCAC 18 10267SCNN1A-6419 − GGAGGCAGACGCAUCCCAC 19 10268 SCNN1A-6420 −GAGGAGGCAGACGCAUCCCAC 21 10269 SCNN1A-6421 − GGAGGAGGCAGACGCAUCCCAC 2210270 SCNN1A-1335 − GGCCAGGGGCAGCCUCAC 18 5184 SCNN1A-6422 −GACCUGGCUCAAGGGAGAC 19 10271 SCNN1A-5207 − GGACCUGGCUCAAGGGAGAC 20 9056SCNN1A-6423 − GCACCUGAGCCCCGAUCCCCC 21 10272 SCNN1A-6424 −GUGCACCUGAGCCCCGAUCCCCC 23 10273 SCNN1A-6425 − GGUGCACCUGAGCCCCGAUCCCCC24 10274 SCNN1A-6426 − GACCAGGUUGGACCCUGAGCC 21 10275 SCNN1A-6427 −GCGUCUAAAGCCCCUGCC 18 10276 SCNN1A-6428 − GUCUGCGUCUAAAGCCCCUGCC 2210277 SCNN1A-1336 − GCAGCCUCACUCGGGUUCC 19 5185 SCNN1A-348 −GGCAGCCUCACUCGGGUUCC 20 4197 SCNN1A-6429 − GAACCUUUGAGAUCAAACAGC 2110278 SCNN1A-6430 − GCCUUCCCUGCCGCGUGCAGGGC 23 10279 SCNN1A-6431 −GCUUCACCUGGGCCCCUC 18 10280 SCNN1A-6432 − GUUGUGUGGGUGGCUCUC 18 10281SCNN1A-6433 − GGUUGUGUGGGUGGCUCUC 19 10282 SCNN1A-6434 −GGGUUGUGUGGGUGGCUCUC 20 10283 SCNN1A-6435 − GGAGUUUCUAGGGGUCUC 18 10284SCNN1A-6436 − GACUGGAGUUUCUAGGGGUCUC 22 10285 SCNN1A-6437 −GAGACUGGAGUUUCUAGGGGUCUC 24 10286 SCNN1A-6438 − GAUAACCCAGCACCCAGAGAGCAG24 10287 SCNN1A-6439 − GAUAGCCCCAGAGGAGGAG 19 10288 SCNN1A-6440 −GUAGAUAGCCCCAGAGGAGGAG 22 10289 SCNN1A-6441 − GAGUGGGAGAAUGUGGGCG 1910290 SCNN1A-6442 − GGAGUGGGAGAAUGUGGGCG 20 10291 SCNN1A-6443 −GACAAGGUUGGAGGGGGUGGCG 22 10292 SCNN1A-6444 − GGACAAGGUUGGAGGGGGUGGCG 2310293 SCNN1A-6445 − GCUGCCUUAAGCUAGUGG 18 10294 SCNN1A-6446 −GCCAUGCUGCCUUAAGCUAGUGG 23 10295 SCNN1A-6447 − GUCCCAGUCCAGCCGCAACCU 2110296 SCNN1A-6448 − GCCUGAGGGUGAGGCUGACCU 21 10297 SCNN1A-6449 −GGCCUGAGGGUGAGGCUGACCU 22 10298 SCNN1A-6450 − GGGCCUGAGGGUGAGGCUGACCU 2310299 SCNN1A-6451 − GCCCUCCUAGCUGUGGGCU 19 10300 SCNN1A-6452 −GCUCAAGGGAGACUGGAGUUUCU 23 10301 SCNN1A-6453 − GGCUCAAGGGAGACUGGAGUUUCU24 10302 SCNN1A-6454 − GAAUCCACGGGCUCUGUGU 19 10303 SCNN1A-6455 −GACGAAUCCACGGGCUCUGUGU 22 10304 SCNN1A-6456 − GUGCAGGGCCUGGGUUGU 1810305 SCNN1A-6457 − GCGUGCAGGGCCUGGGUUGU 20 10306 SCNN1A-6458 −GCCGCGUGCAGGGCCUGGGUUGU 23 10307 SCNN1A-437 − GUAAGCAAGGGAACCUGGUU 204286 SCNN1A-1339 − GGUAAGCAAGGGAACCUGGUU 21 5188 SCNN1A-6459 −GAGUCUCCUCCAGCCCUUU 19 10308

Table 47B provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the second tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS), have a high level of orthogonality andPAM is NNGRRT. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the table can be used witha S. aureus eiCas9 molecule or eiCas9 fusion protein (e.g., an eiCas9fused to a transcription repressor domain) to alter the SCNN1A gene(e.g., reduce or eliminate SCNN1A gene expression, SCNN1A proteinfunction, or the level of SCNN1A protein). One or more gRNA may be usedto target an eiCas9 to the promoter region of the SCNN1A gene.

TABLE 47B 2nd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-6460 + AGAAGGAGCCAGCACCAAA 19 10309 SCNN1A-5515 +UAGAAGGAGCCAGCACCAAA 20 9364 SCNN1A-6461 + UAGGAGCAGAGCUAUAAA 18 10310SCNN1A-6462 + AUAGGAGCAGAGCUAUAAA 19 10311 SCNN1A-6463 +AAUAGGAGCAGAGCUAUAAA 20 10312 SCNN1A-6464 + AAAUAGGAGCAGAGCUAUAAA 2110313 SCNN1A-6465 + AAAAUAGGAGCAGAGCUAUAAA 22 10314 SCNN1A-6466 +CAAAAUAGGAGCAGAGCUAUAAA 23 10315 SCNN1A-6467 + ACAAAAUAGGAGCAGAGCUAUAAA24 10316 SCNN1A-6468 + UUUCCAAACUUAAUGCAGCAA 21 10317 SCNN1A-6469 +CUUUCCAAACUUAAUGCAGCAA 22 10318 SCNN1A-6470 + UCUUUCCAAACUUAAUGCAGCAA 2310319 SCNN1A-6471 + CUCUUUCCAAACUUAAUGCAGCAA 24 10320 SCNN1A-6472 +UGGCCAGCGCUGGAAAGGAA 20 10321 SCNN1A-6473 + UGUGGCCAGCGCUGGAAAGGAA 2210322 SCNN1A-6474 + AUGUGGCCAGCGCUGGAAAGGAA 23 10323 SCNN1A-6475 +UGCUGAAUCUUGACAAGCA 19 10324 SCNN1A-5532 + CUGCUGAAUCUUGACAAGCA 20 9381SCNN1A-6476 + UCUGCUGAAUCUUGACAAGCA 21 10325 SCNN1A-6477 +CUCUGCUGAAUCUUGACAAGCA 22 10326 SCNN1A-6478 + UCUCUGCUGAAUCUUGACAAGCA 2310327 SCNN1A-6479 + AUCUCUGCUGAAUCUUGACAAGCA 24 10328 SCNN1A-6480 +AGGGAUGGAGGAGGGGCA 18 10329 SCNN1A-6481 + UAGGGAUGGAGGAGGGGCA 19 10330SCNN1A-6482 + AUAGGGAUGGAGGAGGGGCA 20 10331 SCNN1A-6483 +UCGCCCCUGCUGUGGUCA 18 10332 SCNN1A-6484 + AUCGCCCCUGCUGUGGUCA 19 10333SCNN1A-6485 + AAUCGCCCCUGCUGUGGUCA 20 10334 SCNN1A-6486 +UAAUCGCCCCUGCUGUGGUCA 21 10335 SCNN1A-6487 + UGUAAUCGCCCCUGCUGUGGUCA 2310336 SCNN1A-6488 + UAAUGCAGCAAAAGGAUA 18 10337 SCNN1A-6489 +UUAAUGCAGCAAAAGGAUA 19 10338 SCNN1A-6098 + CUUAAUGCAGCAAAAGGAUA 20 9947SCNN1A-6490 + AGUGAAAGCCGGUGUCAAC 19 10339 SCNN1A-6491 +AAGUGAAAGCCGGUGUCAAC 20 10340 SCNN1A-6492 + AAAGUGAAAGCCGGUGUCAAC 2110341 SCNN1A-6493 + UAAAGUGAAAGCCGGUGUCAAC 22 10342 SCNN1A-6494 +UUAAAGUGAAAGCCGGUGUCAAC 23 10343 SCNN1A-6495 + CUUAAAGUGAAAGCCGGUGUCAAC24 10344 SCNN1A-1344 + UCCCAUCACCCCUGGAAC 18 5193 SCNN1A-1345 +CUCCCAUCACCCCUGGAAC 19 5194 SCNN1A-1346 + UCUCCCAUCACCCCUGGAAC 20 5195SCNN1A-1347 + CUCUCCCAUCACCCCUGGAAC 21 5196 SCNN1A-1348 +CCUCUCCCAUCACCCCUGGAAC 22 5197 SCNN1A-1349 + CCCUCUCCCAUCACCCCUGGAAC 235198 SCNN1A-6496 + AUCGGGGCUCAGGUGCAC 18 10345 SCNN1A-6497 +UGGGGGAUCGGGGCUCAGGUGCAC 24 10346 SCNN1A-5564 + CGGCCAGGGAUGGAAGCGAC 209413 SCNN1A-6498 + CCGGCCAGGGAUGGAAGCGAC 21 10347 SCNN1A-6499 +UGGCCGGCCAGGGAUGGAAGCGAC 24 10348 SCNN1A-6500 + CACUCCCACACAGAGCCC 1810349 SCNN1A-6501 + UCACUCCCACACAGAGCCC 19 10350 SCNN1A-6502 +CUCACUCCCACACAGAGCCC 20 10351 SCNN1A-6503 + AAGAAACUGACCCUUCCC 18 10352SCNN1A-6504 + UGAAGAAACUGACCCUUCCC 20 10353 SCNN1A-6505 +AUGAAGAAACUGACCCUUCCC 21 10354 SCNN1A-6506 + AAUGAAGAAACUGACCCUUCCC 2210355 SCNN1A-6507 + UAAUGAAGAAACUGACCCUUCCC 23 10356 SCNN1A-6508 +CUAAUGAAGAAACUGACCCUUCCC 24 10357 SCNN1A-6509 + CGGGCCCCACAGGAGGCAGCC 2110358 SCNN1A-6510 + ACGGGCCCCACAGGAGGCAGCC 22 10359 SCNN1A-6511 +CACGGGCCCCACAGGAGGCAGCC 23 10360 SCNN1A-6512 + UCACGGGCCCCACAGGAGGCAGCC24 10361 SCNN1A-6513 + UGAGGAGGAGUCAGAGCC 18 10362 SCNN1A-6514 +CUGAGGAGGAGUCAGAGCC 19 10363 SCNN1A-6515 + ACUGUUGGCUGCCAGGCC 18 10364SCNN1A-6516 + CACUGUUGGCUGCCAGGCC 19 10365 SCNN1A-5583 +ACACUGUUGGCUGCCAGGCC 20 9432 SCNN1A-6517 + UACACUGUUGGCUGCCAGGCC 2110366 SCNN1A-6518 + UUACACUGUUGGCUGCCAGGCC 22 10367 SCNN1A-6519 +UUUACACUGUUGGCUGCCAGGCC 23 10368 SCNN1A-6520 + UUUUACACUGUUGGCUGCCAGGCC24 10369 SCNN1A-6521 + CCCGCCCGCUGGCCGGCC 18 10370 SCNN1A-6109 +AGCCCGCCCGCUGGCCGGCC 20 9958 SCNN1A-1350 + AAGGCUGAGCUCUGGGCC 18 5199SCNN1A-1351 + CAAGGCUGAGCUCUGGGCC 19 5200 SCNN1A-1352 +UCAAGGCUGAGCUCUGGGCC 20 5201 SCNN1A-1353 + AGGGUCAAGGCUGAGCUCUGGGCC 245202 SCNN1A-1354 + CGGAGUGGAUUGGGGAGAGC 20 5203 SCNN1A-1355 +CCGGAGUGGAUUGGGGAGAGC 21 5204 SCNN1A-1356 + CCCGGAGUGGAUUGGGGAGAGC 225205 SCNN1A-1357 + CCCCGGAGUGGAUUGGGGAGAGC 23 5206 SCNN1A-1358 +CUGGAGUGGACUGUGGAGGGC 21 5207 SCNN1A-1359 + CCUGGAGUGGACUGUGGAGGGC 225208 SCNN1A-1360 + CCCUGGAGUGGACUGUGGAGGGC 23 5209 SCNN1A-6522 +UGGAGCCAGCAGACCUGC 18 10371 SCNN1A-6523 + CUGGAGCCAGCAGACCUGC 19 10372SCNN1A-5615 + CCUGGAGCCAGCAGACCUGC 20 9464 SCNN1A-6524 +AGGAGGCAGCCCAGAGUGC 19 10373 SCNN1A-6130 + CAGGAGGCAGCCCAGAGUGC 20 9979SCNN1A-6525 + ACAGGAGGCAGCCCAGAGUGC 21 10374 SCNN1A-6526 +CACAGGAGGCAGCCCAGAGUGC 22 10375 SCNN1A-6527 + CCACAGGAGGCAGCCCAGAGUGC 2310376 SCNN1A-6528 + CCCACAGGAGGCAGCCCAGAGUGC 24 10377 SCNN1A-6529 +CUGUGGUCACAGAGUUGC 18 10378 SCNN1A-5623 + UGCUGUGGUCACAGAGUUGC 20 9472SCNN1A-6530 + CUGCUGUGGUCACAGAGUUGC 21 10379 SCNN1A-6531 +CCUGCUGUGGUCACAGAGUUGC 22 10380 SCNN1A-6532 + CCCUGCUGUGGUCACAGAGUUGC 2310381 SCNN1A-6533 + CCCCUGCUGUGGUCACAGAGUUGC 24 10382 SCNN1A-6534 +CCUUUGGUCUUCUUCCUC 18 10383 SCNN1A-6535 + UCCUUUGGUCUUCUUCCUC 19 10384SCNN1A-6536 + UUCCUUUGGUCUUCUUCCUC 20 10385 SCNN1A-1361 +UGGUAUGGGCUGCAGAGGUC 20 5210 SCNN1A-1362 + CUGGUAUGGGCUGCAGAGGUC 21 5211SCNN1A-1363 + CCUGGUAUGGGCUGCAGAGGUC 22 5212 SCNN1A-1364 +ACCUGGUAUGGGCUGCAGAGGUC 23 5213 SCNN1A-1365 + UCCCCUUGGAAGGGACAG 18 5214SCNN1A-1366 + CUCCCCUUGGAAGGGACAG 19 5215 SCNN1A-1367 +CCUCCCCUUGGAAGGGACAG 20 5216 SCNN1A-1368 + ACCUCCCCUUGGAAGGGACAG 21 5217SCNN1A-1369 + UACCUCCCCUUGGAAGGGACAG 22 5218 SCNN1A-1370 +AUACCUCCCCUUGGAAGGGACAG 23 5219 SCNN1A-6537 + UGGGACUGGUUCCUUUCCAG 2010386 SCNN1A-6538 + CUGGGACUGGUUCCUUUCCAG 21 10387 SCNN1A-6539 +ACUGGGACUGGUUCCUUUCCAG 22 10388 SCNN1A-6540 + CAGCAAAAGGAUAAGGAG 1810389 SCNN1A-5654 + UGCAGCAAAAGGAUAAGGAG 20 9503 SCNN1A-6541 +AUGCAGCAAAAGGAUAAGGAG 21 10390 SCNN1A-6542 + AAUGCAGCAAAAGGAUAAGGAG 2210391 SCNN1A-6543 + UAAUGCAGCAAAAGGAUAAGGAG 23 10392 SCNN1A-6544 +UUAAUGCAGCAAAAGGAUAAGGAG 24 10393 SCNN1A-6545 + UAUCAAGGGCUCUGUGAG 1810394 SCNN1A-6546 + AUAUCAAGGGCUCUGUGAG 19 10395 SCNN1A-6547 +CAUAUCAAGGGCUCUGUGAG 20 10396 SCNN1A-6548 + UCAUAUCAAGGGCUCUGUGAG 2110397 SCNN1A-6549 + UUCAUAUCAAGGGCUCUGUGAG 22 10398 SCNN1A-6550 +UUUCAUAUCAAGGGCUCUGUGAG 23 10399 SCNN1A-6551 + UUUUCAUAUCAAGGGCUCUGUGAG24 10400 SCNN1A-6552 + AGGGGCAAAGAUCUGAACAAGUAG 24 10401 SCNN1A-6553 +AGGCACUGAAGGUGCAGG 18 10402 SCNN1A-6554 + CAGGCACUGAAGGUGCAGG 19 10403SCNN1A-6555 + UGGGAGCAGCGCACUCAGG 19 10404 SCNN1A-6556 +AGUGGGAGCAGCGCACUCAGG 21 10405 SCNN1A-6557 + AAGUGGGAGCAGCGCACUCAGG 2210406 SCNN1A-6558 + UAAGUGGGAGCAGCGCACUCAGG 23 10407 SCNN1A-6559 +CUAAGUGGGAGCAGCGCACUCAGG 24 10408 SCNN1A-6560 + CAGGAAGGAGAGCAAGGG 1810409 SCNN1A-6561 + CCAGGAAGGAGAGCAAGGG 19 10410 SCNN1A-6159 +UCCAGGAAGGAGAGCAAGGG 20 10008 SCNN1A-6562 + UCCUGAGACAGACUCAUG 18 10411SCNN1A-6563 + UUCCUGAGACAGACUCAUG 19 10412 SCNN1A-5698 +CUUCCUGAGACAGACUCAUG 20 9547 SCNN1A-6564 + ACUUCCUGAGACAGACUCAUG 2110413 SCNN1A-6565 + UACUUCCUGAGACAGACUCAUG 22 10414 SCNN1A-6566 +UUACUUCCUGAGACAGACUCAUG 23 10415 SCNN1A-6567 + UUUACUUCCUGAGACAGACUCAUG24 10416 SCNN1A-6568 + UCGUCUGCUCUCUGGGUG 18 10417 SCNN1A-6569 +UUCGUCUGCUCUCUGGGUG 19 10418 SCNN1A-6570 + AUUCGUCUGCUCUCUGGGUG 20 10419SCNN1A-6571 + UGGAUUCGUCUGCUCUCUGGGUG 23 10420 SCNN1A-6572 +AGCGAAGGACAGAGAGAU 18 10421 SCNN1A-6573 + CAGCGAAGGACAGAGAGAU 19 10422SCNN1A-5722 + ACAGCGAAGGACAGAGAGAU 20 9571 SCNN1A-6574 +CCCGAGGGCAGGUGAACU 18 10423 SCNN1A-6575 + UCCCGAGGGCAGGUGAACU 19 10424SCNN1A-5726 + CUCCCGAGGGCAGGUGAACU 20 9575 SCNN1A-6576 +AAGGCAGUACUCCAGGCU 18 10425 SCNN1A-6577 + AAAGGCAGUACUCCAGGCU 19 10426SCNN1A-6578 + AAAAGGCAGUACUCCAGGCU 20 10427 SCNN1A-6579 +CGUGGAUUCGUCUGCUCU 18 10428 SCNN1A-6580 + CCGUGGAUUCGUCUGCUCU 19 10429SCNN1A-6581 + CCCGUGGAUUCGUCUGCUCU 20 10430 SCNN1A-6582 +AGCCCGUGGAUUCGUCUGCUCU 22 10431 SCNN1A-6583 + AGAGCCCGUGGAUUCGUCUGCUCU24 10432 SCNN1A-6584 + UCUGCCUUCUGUUUCUCU 18 10433 SCNN1A-6585 +AUCUGCCUUCUGUUUCUCU 19 10434 SCNN1A-6586 + UAUCUGCCUUCUGUUUCUCU 20 10435SCNN1A-6587 + CUAUCUGCCUUCUGUUUCUCU 21 10436 SCNN1A-6588 +UCUAUCUGCCUUCUGUUUCUCU 22 10437 SCNN1A-6589 + CUCUAUCUGCCUUCUGUUUCUCU 2310438 SCNN1A-6590 + UCUCUAUCUGCCUUCUGUUUCUCU 24 10439 SCNN1A-1377 +AUUGGGGAGAGCAAGGGU 18 5226 SCNN1A-1378 + UGGAUUGGGGAGAGCAAGGGU 21 5227SCNN1A-1379 + AGUGGAUUGGGGAGAGCAAGGGU 23 5228 SCNN1A-6591 +AGAGCUAUAAACAGAAUU 18 10440 SCNN1A-6592 + CAGAGCUAUAAACAGAAUU 19 10441SCNN1A-6593 + AGCAGAGCUAUAAACAGAAUU 21 10442 SCNN1A-6594 +AGGAGCAGAGCUAUAAACAGAAUU 24 10443 SCNN1A-6595 + CUUCCCUGAUAGGGCCACCUU 2110444 SCNN1A-6596 + UGCUUCCCUGAUAGGGCCACCUU 23 10445 SCNN1A-6597 +CUGCUUCCCUGAUAGGGCCACCUU 24 10446 SCNN1A-6598 − CAACAGUGUAAAAAAGAA 1810447 SCNN1A-6599 − CCAACAGUGUAAAAAAGAA 19 10448 SCNN1A-6600 −AGCCAACAGUGUAAAAAAGAA 21 10449 SCNN1A-6601 − CAGCCAACAGUGUAAAAAAGAA 2210450 SCNN1A-6602 − AGAAAAUAUAGCCCAUCA 18 10451 SCNN1A-6603 −UGCAGUCCUGGGGCAGAGA 19 10452 SCNN1A-6604 − CUGCAGUCCUGGGGCAGAGA 20 10453SCNN1A-5553 − CGGGUCUGGACAAGGUUGGA 20 9402 SCNN1A-6605 −CCGGGUCUGGACAAGGUUGGA 21 10454 SCNN1A-6606 − CCCGGGUCUGGACAAGGUUGGA 2210455 SCNN1A-6607 − UCCCGGGUCUGGACAAGGUUGGA 23 10456 SCNN1A-6608 −CUCCCGGGUCUGGACAAGGUUGGA 24 10457 SCNN1A-6609 − AGGAGGCAGACGCAUCCCAC 2010458 SCNN1A-6610 − AGGAGGAGGCAGACGCAUCCCAC 23 10459 SCNN1A-6611 −CAGGAGGAGGCAGACGCAUCCCAC 24 10460 SCNN1A-1392 − UGGCCAGGGGCAGCCUCAC 195241 SCNN1A-1393 − AUGGCCAGGGGCAGCCUCAC 20 5242 SCNN1A-6612 −ACCUGGCUCAAGGGAGAC 18 10461 SCNN1A-6613 − CCUGAGCCCCGAUCCCCC 18 10462SCNN1A-6614 − ACCUGAGCCCCGAUCCCCC 19 10463 SCNN1A-6615 −CACCUGAGCCCCGAUCCCCC 20 10464 SCNN1A-6616 − UGCACCUGAGCCCCGAUCCCCC 2210465 SCNN1A-6617 − CAGGUUGGACCCUGAGCC 18 10466 SCNN1A-6618 −CCAGGUUGGACCCUGAGCC 19 10467 SCNN1A-5581 − ACCAGGUUGGACCCUGAGCC 20 9430SCNN1A-6619 − AGACCAGGUUGGACCCUGAGCC 22 10468 SCNN1A-6620 −CAGACCAGGUUGGACCCUGAGCC 23 10469 SCNN1A-6621 − ACAGACCAGGUUGGACCCUGAGCC24 10470 SCNN1A-6622 − UGCGUCUAAAGCCCCUGCC 19 10471 SCNN1A-6623 −CUGCGUCUAAAGCCCCUGCC 20 10472 SCNN1A-6624 − UCUGCGUCUAAAGCCCCUGCC 2110473 SCNN1A-6625 − UGUCUGCGUCUAAAGCCCCUGCC 23 10474 SCNN1A-6626 −CUGUCUGCGUCUAAAGCCCCUGCC 24 10475 SCNN1A-1394 − CAGCCUCACUCGGGUUCC 185243 SCNN1A-6627 − CCUUUGAGAUCAAACAGC 18 10476 SCNN1A-6628 −ACCUUUGAGAUCAAACAGC 19 10477 SCNN1A-6629 − AACCUUUGAGAUCAAACAGC 20 10478SCNN1A-6630 − AGAACCUUUGAGAUCAAACAGC 22 10479 SCNN1A-6631 −CAGAACCUUUGAGAUCAAACAGC 23 10480 SCNN1A-6632 − UCAGAACCUUUGAGAUCAAACAGC24 10481 SCNN1A-6633 − CCCUGCCGCGUGCAGGGC 18 10482 SCNN1A-6634 −UCCCUGCCGCGUGCAGGGC 19 10483 SCNN1A-6635 − UUCCCUGCCGCGUGCAGGGC 20 10484SCNN1A-6636 − CUUCCCUGCCGCGUGCAGGGC 21 10485 SCNN1A-6637 −CCUUCCCUGCCGCGUGCAGGGC 22 10486 SCNN1A-6638 − AGCCUUCCCUGCCGCGUGCAGGGC24 10487 SCNN1A-6639 − AGCUUCACCUGGGCCCCUC 19 10488 SCNN1A-6640 −CAGCUUCACCUGGGCCCCUC 20 10489 SCNN1A-6641 − CCAGCUUCACCUGGGCCCCUC 2110490 SCNN1A-6642 − CCCAGCUUCACCUGGGCCCCUC 22 10491 SCNN1A-6643 −CCCCAGCUUCACCUGGGCCCCUC 23 10492 SCNN1A-6644 − CCCCCAGCUUCACCUGGGCCCCUC24 10493 SCNN1A-6645 − UGGAGUUUCUAGGGGUCUC 19 10494 SCNN1A-5635 −CUGGAGUUUCUAGGGGUCUC 20 9484 SCNN1A-6646 − ACUGGAGUUUCUAGGGGUCUC 2110495 SCNN1A-6647 − AGACUGGAGUUUCUAGGGGUCUC 23 10496 SCNN1A-6648 −CCAGCACCCAGAGAGCAG 18 10497 SCNN1A-6649 − CCCAGCACCCAGAGAGCAG 19 10498SCNN1A-6650 − ACCCAGCACCCAGAGAGCAG 20 10499 SCNN1A-6651 −AACCCAGCACCCAGAGAGCAG 21 10500 SCNN1A-6652 − UAACCCAGCACCCAGAGAGCAG 2210501 SCNN1A-6653 − AUAACCCAGCACCCAGAGAGCAG 23 10502 SCNN1A-6654 −AUAGCCCCAGAGGAGGAG 18 10503 SCNN1A-6655 − AGAUAGCCCCAGAGGAGGAG 20 10504SCNN1A-6656 − UAGAUAGCCCCAGAGGAGGAG 21 10505 SCNN1A-6657 −AGUAGAUAGCCCCAGAGGAGGAG 23 10506 SCNN1A-6658 − AAGUAGAUAGCCCCAGAGGAGGAG24 10507 SCNN1A-6659 − AGUGGGAGAAUGUGGGCG 18 10508 SCNN1A-6660 −AGGUUGGAGGGGGUGGCG 18 10509 SCNN1A-6661 − AAGGUUGGAGGGGGUGGCG 19 10510SCNN1A-5670 − CAAGGUUGGAGGGGGUGGCG 20 9519 SCNN1A-6662 −ACAAGGUUGGAGGGGGUGGCG 21 10511 SCNN1A-6663 − UGGACAAGGUUGGAGGGGGUGGCG 2410512 SCNN1A-6664 − AACUGAUUUAUCCUUGGG 18 10513 SCNN1A-6665 −AAACUGAUUUAUCCUUGGG 19 10514 SCNN1A-6666 − AAAACUGAUUUAUCCUUGGG 20 10515SCNN1A-6667 − UGCUGCCUUAAGCUAGUGG 19 10516 SCNN1A-6668 −AUGCUGCCUUAAGCUAGUGG 20 10517 SCNN1A-6669 − CAUGCUGCCUUAAGCUAGUGG 2110518 SCNN1A-6670 − CCAUGCUGCCUUAAGCUAGUGG 22 10519 SCNN1A-6671 −UGCCAUGCUGCCUUAAGCUAGUGG 24 10520 SCNN1A-6672 − CCAGUCCAGCCGCAACCU 1810521 SCNN1A-6673 − CCCAGUCCAGCCGCAACCU 19 10522 SCNN1A-5731 −UCCCAGUCCAGCCGCAACCU 20 9580 SCNN1A-6674 − AGUCCCAGUCCAGCCGCAACCU 2210523 SCNN1A-6675 − CAGUCCCAGUCCAGCCGCAACCU 23 10524 SCNN1A-6676 −CCAGUCCCAGUCCAGCCGCAACCU 24 10525 SCNN1A-6677 − UGAGGGUGAGGCUGACCU 1810526 SCNN1A-6678 − CUGAGGGUGAGGCUGACCU 19 10527 SCNN1A-6679 −CCUGAGGGUGAGGCUGACCU 20 10528 SCNN1A-6680 − AGGGCCUGAGGGUGAGGCUGACCU 2410529 SCNN1A-6681 − CUCUUCUCUGCAGGGCCU 18 10530 SCNN1A-6682 −UCUCUUCUCUGCAGGGCCU 19 10531 SCNN1A-6683 − CUCUCUUCUCUGCAGGGCCU 20 10532SCNN1A-6684 − UCUCUCUUCUCUGCAGGGCCU 21 10533 SCNN1A-6685 −UUCUCUCUUCUCUGCAGGGCCU 22 10534 SCNN1A-6686 − CUUCUCUCUUCUCUGCAGGGCCU 2310535 SCNN1A-6687 − UCUUCUCUCUUCUCUGCAGGGCCU 24 10536 SCNN1A-6688 −CCUGCCUCUUCCUGGGCU 18 10537 SCNN1A-6689 − CCCUGCCUCUUCCUGGGCU 19 10538SCNN1A-6690 − UCCCUGCCUCUUCCUGGGCU 20 10539 SCNN1A-6691 −CCCUCCUAGCUGUGGGCU 18 10540 SCNN1A-6692 − UGCCCUCCUAGCUGUGGGCU 20 10541SCNN1A-6693 − AGGGAGACUGGAGUUUCU 18 10542 SCNN1A-6694 −AAGGGAGACUGGAGUUUCU 19 10543 SCNN1A-5751 − CAAGGGAGACUGGAGUUUCU 20 9600SCNN1A-6695 − UCAAGGGAGACUGGAGUUUCU 21 10544 SCNN1A-6696 −CUCAAGGGAGACUGGAGUUUCU 22 10545 SCNN1A-6697 − AAUCCACGGGCUCUGUGU 1810546 SCNN1A-5766 − CGAAUCCACGGGCUCUGUGU 20 9615 SCNN1A-6698 −ACGAAUCCACGGGCUCUGUGU 21 10547 SCNN1A-6699 − AGACGAAUCCACGGGCUCUGUGU 2310548 SCNN1A-6700 − CAGACGAAUCCACGGGCUCUGUGU 24 10549 SCNN1A-6701 −CGUGCAGGGCCUGGGUUGU 19 10550 SCNN1A-6702 − CGCGUGCAGGGCCUGGGUUGU 2110551 SCNN1A-6703 − CCGCGUGCAGGGCCUGGGUUGU 22 10552 SCNN1A-6704 −UGCCGCGUGCAGGGCCUGGGUUGU 24 10553 SCNN1A-1405 − AAGCAAGGGAACCUGGUU 185254 SCNN1A-1406 − UAAGCAAGGGAACCUGGUU 19 5255 SCNN1A-1407 −AGGUAAGCAAGGGAACCUGGUU 22 5256 SCNN1A-1408 − AAGGUAAGCAAGGGAACCUGGUU 235257 SCNN1A-1409 − CAAGGUAAGCAAGGGAACCUGGUU 24 5258 SCNN1A-6705 −AGUCUCCUCCAGCCCUUU 18 10554 SCNN1A-6706 − CGAGUCUCCUCCAGCCCUUU 20 10555SCNN1A-6707 − CCGAGUCUCCUCCAGCCCUUU 21 10556 SCNN1A-6708 −CCCGAGUCUCCUCCAGCCCUUU 22 10557 SCNN1A-6709 − UCCCGAGUCUCCUCCAGCCCUUU 2310558 SCNN1A-6710 − CUCCCGAGUCUCCUCCAGCCCUUU 24 10559

Table 47C provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the third tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS), and PAM is NNGRRT. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a S. aureus eiCas9 molecule oreiCas9 fusion protein (e.g., an eiCas9 fused to a transcriptionrepressor domain) to alter the SCNN1A gene (e.g., reduce or eliminateSCNN1A gene expression, SCNN1A protein function, or the level of SCNN1Aprotein). One or more gRNA may be used to target an eiCas9 to thepromoter region of the SCNN1A gene.

TABLE 47C 3rd Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-6711 + AUAGAAGGAGCCAGCACCAAA 21 10560 SCNN1A-6712 +AAUAGAAGGAGCCAGCACCAAA 22 10561 SCNN1A-6713 + AAAUAGAAGGAGCCAGCACCAAA 2310562 SCNN1A-6714 + CAAAUAGAAGGAGCCAGCACCAAA 24 10563 SCNN1A-6715 +CCAAACUUAAUGCAGCAA 18 10564 SCNN1A-6716 + UCCAAACUUAAUGCAGCAA 19 10565SCNN1A-6717 + UUCCAAACUUAAUGCAGCAA 20 10566 SCNN1A-6718 +GAUAGGGAUGGAGGAGGGGCA 21 10567 SCNN1A-6719 + AGAUAGGGAUGGAGGAGGGGCA 2210568 SCNN1A-6720 + GAGAUAGGGAUGGAGGAGGGGCA 23 10569 SCNN1A-6721 +AGAGAUAGGGAUGGAGGAGGGGCA 24 10570 SCNN1A-6722 + GGAGAGAGAGGAGGGUCA 1810571 SCNN1A-6723 + AGGAGAGAGAGGAGGGUCA 19 10572 SCNN1A-6724 +AAGGAGAGAGAGGAGGGUCA 20 10573 SCNN1A-6725 + CAAGGAGAGAGAGGAGGGUCA 2110574 SCNN1A-6726 + GCAAGGAGAGAGAGGAGGGUCA 22 10575 SCNN1A-6727 +AGCAAGGAGAGAGAGGAGGGUCA 23 10576 SCNN1A-6728 + GAGCAAGGAGAGAGAGGAGGGUCA24 10577 SCNN1A-1410 + CCCUUCAUGAGCCCCGGA 18 5259 SCNN1A-1411 +CCCCUUCAUGAGCCCCGGA 19 5260 SCNN1A-1412 + UCCCCUUCAUGAGCCCCGGA 20 5261SCNN1A-1413 + UUCCCCUUCAUGAGCCCCGGA 21 5262 SCNN1A-1414 +GUUCCCCUUCAUGAGCCCCGGA 22 5263 SCNN1A-1415 + UGUUCCCCUUCAUGAGCCCCGGA 235264 SCNN1A-1416 + UUGUUCCCCUUCAUGAGCCCCGGA 24 5265 SCNN1A-6729 +GGCAAGGAGGCUGGGGGA 18 10578 SCNN1A-6730 + AGGCAAGGAGGCUGGGGGA 19 10579SCNN1A-6731 + CAGGCAAGGAGGCUGGGGGA 20 10580 SCNN1A-6732 +ACAGGCAAGGAGGCUGGGGGA 21 10581 SCNN1A-6733 + GACAGGCAAGGAGGCUGGGGGA 2210582 SCNN1A-6734 + AGACAGGCAAGGAGGCUGGGGGA 23 10583 SCNN1A-6735 +CAGACAGGCAAGGAGGCUGGGGGA 24 10584 SCNN1A-6736 + AUGGAGGAGGGGCACUGA 1810585 SCNN1A-6737 + GAUGGAGGAGGGGCACUGA 19 10586 SCNN1A-6738 +GGAUGGAGGAGGGGCACUGA 20 10587 SCNN1A-6739 + GGGAUGGAGGAGGGGCACUGA 2110588 SCNN1A-6740 + AGGGAUGGAGGAGGGGCACUGA 22 10589 SCNN1A-6741 +UAGGGAUGGAGGAGGGGCACUGA 23 10590 SCNN1A-6742 + AUAGGGAUGGAGGAGGGGCACUGA24 10591 SCNN1A-6743 + ACUUAAUGCAGCAAAAGGAUA 21 10592 SCNN1A-6744 +AACUUAAUGCAGCAAAAGGAUA 22 10593 SCNN1A-6745 + AAACUUAAUGCAGCAAAAGGAUA 2310594 SCNN1A-6746 + CAAACUUAAUGCAGCAAAAGGAUA 24 10595 SCNN1A-6747 +CCUCACUCCCACACAGAGCCC 21 10596 SCNN1A-6748 + CCCUCACUCCCACACAGAGCCC 2210597 SCNN1A-6749 + UCCCUCACUCCCACACAGAGCCC 23 10598 SCNN1A-6750 +CUCCCUCACUCCCACACAGAGCCC 24 10599 SCNN1A-1417 + GUUCCCCUUCAUGAGCCC 185266 SCNN1A-1418 + UGUUCCCCUUCAUGAGCCC 19 5267 SCNN1A-72 +UUGUUCCCCUUCAUGAGCCC 20 599 SCNN1A-1419 + CUUGUUCCCCUUCAUGAGCCC 21 5268SCNN1A-1420 + GCUUGUUCCCCUUCAUGAGCCC 22 5269 SCNN1A-1421 +AGCUUGUUCCCCUUCAUGAGCCC 23 5270 SCNN1A-1422 + CAGCUUGUUCCCCUUCAUGAGCCC24 5271 SCNN1A-6751 + GGCUGAGGAGGAGUCAGAGCC 21 10600 SCNN1A-6752 +GGGCUGAGGAGGAGUCAGAGCC 22 10601 SCNN1A-6753 + GGGGCUGAGGAGGAGUCAGAGCC 2310602 SCNN1A-6754 + AGGGGCUGAGGAGGAGUCAGAGCC 24 10603 SCNN1A-6755 +CAGCCAGGCUGAGAGGGC 18 10604 SCNN1A-6756 + CCAGCCAGGCUGAGAGGGC 19 10605SCNN1A-6757 + GCCAGCCAGGCUGAGAGGGC 20 10606 SCNN1A-6758 +GGCCAGCCAGGCUGAGAGGGC 21 10607 SCNN1A-6759 + GGGCCAGCCAGGCUGAGAGGGC 2210608 SCNN1A-6760 + GGGGCCAGCCAGGCUGAGAGGGC 23 10609 SCNN1A-6761 +AGGGGCCAGCCAGGCUGAGAGGGC 24 10610 SCNN1A-1431 + GAGUGGACUGUGGAGGGC 185280 SCNN1A-1432 + GGAGUGGACUGUGGAGGGC 19 5281 SCNN1A-201 +UGGAGUGGACUGUGGAGGGC 20 830 SCNN1A-6762 + UCCUGGAGCCAGCAGACCUGC 21 10611SCNN1A-6763 + UUCCUGGAGCCAGCAGACCUGC 22 10612 SCNN1A-6764 +UUUCCUGGAGCCAGCAGACCUGC 23 10613 SCNN1A-6765 + CUUUCCUGGAGCCAGCAGACCUGC24 10614 SCNN1A-6766 + CUUCCUUUGGUCUUCUUCCUC 21 10615 SCNN1A-6767 +CCUUCCUUUGGUCUUCUUCCUC 22 10616 SCNN1A-6768 + CCCUUCCUUUGGUCUUCUUCCUC 2310617 SCNN1A-6769 + CCCCUUCCUUUGGUCUUCUUCCUC 24 10618 SCNN1A-6770 +GUGAGCAAGGAGAGAGAG 18 10619 SCNN1A-6771 + GGUGAGCAAGGAGAGAGAG 19 10620SCNN1A-6772 + UGGUGAGCAAGGAGAGAGAG 20 10621 SCNN1A-6773 +GUGGUGAGCAAGGAGAGAGAG 21 10622 SCNN1A-6774 + AGUGGUGAGCAAGGAGAGAGAG 2210623 SCNN1A-6775 + AAGUGGUGAGCAAGGAGAGAGAG 23 10624 SCNN1A-6776 +CAAGUGGUGAGCAAGGAGAGAGAG 24 10625 SCNN1A-6777 + AAAGAUCUGAACAAGUAG 1810626 SCNN1A-6778 + CAAAGAUCUGAACAAGUAG 19 10627 SCNN1A-6779 +GCAAAGAUCUGAACAAGUAG 20 10628 SCNN1A-6780 + AGCAGGCACUGAAGGUGCAGG 2110629 SCNN1A-6781 + AAGCAGGCACUGAAGGUGCAGG 22 10630 SCNN1A-6782 +AAAGCAGGCACUGAAGGUGCAGG 23 10631 SCNN1A-6783 + GAAAGCAGGCACUGAAGGUGCAGG24 10632 SCNN1A-6784 + CGGGGGGAGGGGCUGAGG 18 10633 SCNN1A-6785 +GCGGGGGGAGGGGCUGAGG 19 10634 SCNN1A-5907 + GGCGGGGGGAGGGGCUGAGG 20 9756SCNN1A-6786 + GGGCGGGGGGAGGGGCUGAGG 21 10635 SCNN1A-6787 +AGGGCGGGGGGAGGGGCUGAGG 22 10636 SCNN1A-6788 + CAGGGCGGGGGGAGGGGCUGAGG 2310637 SCNN1A-6789 + GCAGGGCGGGGGGAGGGGCUGAGG 24 10638 SCNN1A-6790 +CUCCAGGAAGGAGAGCAAGGG 21 10639 SCNN1A-6791 + UCUCCAGGAAGGAGAGCAAGGG 2210640 SCNN1A-6792 + GUCUCCAGGAAGGAGAGCAAGGG 23 10641 SCNN1A-6793 +UGUCUCCAGGAAGGAGAGCAAGGG 24 10642 SCNN1A-6794 + GAGAAGGUGUCAUCUCUG 1810643 SCNN1A-6795 + AGAGAAGGUGUCAUCUCUG 19 10644 SCNN1A-6796 +CAGAGAAGGUGUCAUCUCUG 20 10645 SCNN1A-6797 + CCAGAGAAGGUGUCAUCUCUG 2110646 SCNN1A-6798 + CCCAGAGAAGGUGUCAUCUCUG 22 10647 SCNN1A-6799 +UCCCAGAGAAGGUGUCAUCUCUG 23 10648 SCNN1A-6800 + UUCCCAGAGAAGGUGUCAUCUCUG24 10649 SCNN1A-6801 + GACAGCGAAGGACAGAGAGAU 21 10650 SCNN1A-6802 +GGACAGCGAAGGACAGAGAGAU 22 10651 SCNN1A-6803 + GGGACAGCGAAGGACAGAGAGAU 2310652 SCNN1A-6804 + AGGGACAGCGAAGGACAGAGAGAU 24 10653 SCNN1A-6805 +GCUCCCGAGGGCAGGUGAACU 21 10654 SCNN1A-6806 + GGCUCCCGAGGGCAGGUGAACU 2210655 SCNN1A-6807 + GGGCUCCCGAGGGCAGGUGAACU 23 10656 SCNN1A-6808 +AGGGCUCCCGAGGGCAGGUGAACU 24 10657 SCNN1A-6809 + GAAAAGGCAGUACUCCAGGCU 2110658 SCNN1A-6810 + AGAAAAGGCAGUACUCCAGGCU 22 10659 SCNN1A-6811 +GAGAAAAGGCAGUACUCCAGGCU 23 10660 SCNN1A-6812 + AGAGAAAAGGCAGUACUCCAGGCU24 10661 SCNN1A-6813 + CCCUGAUAGGGCCACCUU 18 10662 SCNN1A-6814 +UCCCUGAUAGGGCCACCUU 19 10663 SCNN1A-6815 + UUCCCUGAUAGGGCCACCUU 20 10664SCNN1A-6816 − UGGAGAAAAUAUAGCCCAUCA 21 10665 SCNN1A-6817 −UUGGAGAAAAUAUAGCCCAUCA 22 10666 SCNN1A-6818 − UUUGGAGAAAAUAUAGCCCAUCA 2310667 SCNN1A-6819 − UUUUGGAGAAAAUAUAGCCCAUCA 24 10668 SCNN1A-6820 −CCUGCAGUCCUGGGGCAGAGA 21 10669 SCNN1A-6821 − CCCUGCAGUCCUGGGGCAGAGA 2210670 SCNN1A-6822 − GCCCUGCAGUCCUGGGGCAGAGA 23 10671 SCNN1A-6823 −AGCCCUGCAGUCCUGGGGCAGAGA 24 10672 SCNN1A-6824 − ACAGAAGGCAGAUAGAGA 1810673 SCNN1A-6825 − AACAGAAGGCAGAUAGAGA 19 10674 SCNN1A-6088 −AAACAGAAGGCAGAUAGAGA 20 9937 SCNN1A-6826 − GAAACAGAAGGCAGAUAGAGA 2110675 SCNN1A-6827 − AGAAACAGAAGGCAGAUAGAGA 22 10676 SCNN1A-6828 −GAGAAACAGAAGGCAGAUAGAGA 23 10677 SCNN1A-6829 − AGAGAAACAGAAGGCAGAUAGAGA24 10678 SCNN1A-1437 − CAUGGCCAGGGGCAGCCUCAC 21 5286 SCNN1A-1438 −GCAUGGCCAGGGGCAGCCUCAC 22 5287 SCNN1A-1439 − GGCAUGGCCAGGGGCAGCCUCAC 235288 SCNN1A-1440 − GGGCAUGGCCAGGGGCAGCCUCAC 24 5289 SCNN1A-6830 −AGGACCUGGCUCAAGGGAGAC 21 10679 SCNN1A-6831 − AAGGACCUGGCUCAAGGGAGAC 2210680 SCNN1A-6832 − UAAGGACCUGGCUCAAGGGAGAC 23 10681 SCNN1A-6833 −GUAAGGACCUGGCUCAAGGGAGAC 24 10682 SCNN1A-6834 − AGGCUGGAGCUGAGGGCC 1810683 SCNN1A-6835 − GAGGCUGGAGCUGAGGGCC 19 10684 SCNN1A-6836 −AGAGGCUGGAGCUGAGGGCC 20 10685 SCNN1A-6837 − CAGAGGCUGGAGCUGAGGGCC 2110686 SCNN1A-6838 − CCAGAGGCUGGAGCUGAGGGCC 22 10687 SCNN1A-6839 −GCCAGAGGCUGGAGCUGAGGGCC 23 10688 SCNN1A-6840 − GGCCAGAGGCUGGAGCUGAGGGCC24 10689 SCNN1A-1441 − GGGCAGCCUCACUCGGGUUCC 21 5290 SCNN1A-1442 −GGGGCAGCCUCACUCGGGUUCC 22 5291 SCNN1A-1443 − AGGGGCAGCCUCACUCGGGUUCC 235292 SCNN1A-1444 − CAGGGGCAGCCUCACUCGGGUUCC 24 5293 SCNN1A-6841 −UGGGUUGUGUGGGUGGCUCUC 21 10690 SCNN1A-6842 − CUGGGUUGUGUGGGUGGCUCUC 2210691 SCNN1A-6843 − CCUGGGUUGUGUGGGUGGCUCUC 23 10692 SCNN1A-6844 −GCCUGGGUUGUGUGGGUGGCUCUC 24 10693 SCNN1A-6845 − CUUCUCUGGGAAGGCUUC 1810694 SCNN1A-6846 − CCUUCUCUGGGAAGGCUUC 19 10695 SCNN1A-6847 −ACCUUCUCUGGGAAGGCUUC 20 10696 SCNN1A-6848 − CACCUUCUCUGGGAAGGCUUC 2110697 SCNN1A-6849 − ACACCUUCUCUGGGAAGGCUUC 22 10698 SCNN1A-6850 −GACACCUUCUCUGGGAAGGCUUC 23 10699 SCNN1A-6851 − UGACACCUUCUCUGGGAAGGCUUC24 10700 SCNN1A-6852 − AGGAGUGGGAGAAUGUGGGCG 21 10701 SCNN1A-6853 −GAGGAGUGGGAGAAUGUGGGCG 22 10702 SCNN1A-6854 − GGAGGAGUGGGAGAAUGUGGGCG 2310703 SCNN1A-6855 − GGGAGGAGUGGGAGAAUGUGGGCG 24 10704 SCNN1A-6856 −GGGGGAGAGGAAGAGAGG 18 10705 SCNN1A-6857 − GGGGGGAGAGGAAGAGAGG 19 10706SCNN1A-6858 − GGGGGGGAGAGGAAGAGAGG 20 10707 SCNN1A-6859 −AGGGGGGGAGAGGAAGAGAGG 21 10708 SCNN1A-6860 − AAGGGGGGGAGAGGAAGAGAGG 2210709 SCNN1A-6861 − CAAGGGGGGGAGAGGAAGAGAGG 23 10710 SCNN1A-6862 −GCAAGGGGGGGAGAGGAAGAGAGG 24 10711 SCNN1A-6863 − AAGGUGGAGGAGGGAGGG 1810712 SCNN1A-6864 − AAAGGUGGAGGAGGGAGGG 19 10713 SCNN1A-5911 −GAAAGGUGGAGGAGGGAGGG 20 9760 SCNN1A-6865 − GGAAAGGUGGAGGAGGGAGGG 2110714 SCNN1A-6866 − AGGAAAGGUGGAGGAGGGAGGG 22 10715 SCNN1A-6867 −CAGGAAAGGUGGAGGAGGGAGGG 23 10716 SCNN1A-6868 − CCAGGAAAGGUGGAGGAGGGAGGG24 10717 SCNN1A-6869 − GAAAACUGAUUUAUCCUUGGG 21 10718 SCNN1A-6870 −AGAAAACUGAUUUAUCCUUGGG 22 10719 SCNN1A-6871 − CAGAAAACUGAUUUAUCCUUGGG 2310720 SCNN1A-6872 − UCAGAAAACUGAUUUAUCCUUGGG 24 10721 SCNN1A-6873 −GGAGGGAGGGAGGAGUGG 18 10722 SCNN1A-6874 − AGGAGGGAGGGAGGAGUGG 19 10723SCNN1A-6875 − GAGGAGGGAGGGAGGAGUGG 20 10724 SCNN1A-6876 −GGAGGAGGGAGGGAGGAGUGG 21 10725 SCNN1A-6877 − UGGAGGAGGGAGGGAGGAGUGG 2210726 SCNN1A-6878 − GUGGAGGAGGGAGGGAGGAGUGG 23 10727 SCNN1A-6879 −GGUGGAGGAGGGAGGGAGGAGUGG 24 10728 SCNN1A-6880 − UUCCCUGCCUCUUCCUGGGCU 2110729 SCNN1A-6881 − UUUCCCUGCCUCUUCCUGGGCU 22 10730 SCNN1A-6882 −CUUUCCCUGCCUCUUCCUGGGCU 23 10731 SCNN1A-6883 − GCUUUCCCUGCCUCUUCCUGGGCU24 10732 SCNN1A-6884 − UUGCCCUCCUAGCUGUGGGCU 21 10733 SCNN1A-6885 −GUUGCCCUCCUAGCUGUGGGCU 22 10734 SCNN1A-6886 − UGUUGCCCUCCUAGCUGUGGGCU 2310735 SCNN1A-6887 − GUGUUGCCCUCCUAGCUGUGGGCU 24 10736 SCNN1A-6888 −CAGAGGAGGAGGAGAAUU 18 10737 SCNN1A-6889 − CCAGAGGAGGAGGAGAAUU 19 10738SCNN1A-6890 − CCCAGAGGAGGAGGAGAAUU 20 10739 SCNN1A-6891 −CCCCAGAGGAGGAGGAGAAUU 21 10740 SCNN1A-6892 − GCCCCAGAGGAGGAGGAGAAUU 2210741 SCNN1A-6893 − AGCCCCAGAGGAGGAGGAGAAUU 23 10742 SCNN1A-6894 −UAGCCCCAGAGGAGGAGGAGAAUU 24 10743

Table 47D provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the fourth tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS), and PAM is NNGRRV. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a S. aureus eiCas9 molecule oreiCas9 fusion protein (e.g., an eiCas9 fused to a transcriptionrepressor domain) to alter the SCNN1A gene (e.g., reduce or eliminateSCNN1A gene expression, SCNN1A protein function, or the level of SCNN1Aprotein). One or more gRNA may be used to target an eiCas9 to thepromoter region of the SCNN1A gene.

TABLE 47D 4th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-6895 + UGAGGUUAGAAAACAAAA 18 10744 SCNN1A-6896 +CUGAGGUUAGAAAACAAAA 19 10745 SCNN1A-6897 + UCUGAGGUUAGAAAACAAAA 20 10746SCNN1A-6898 + UUCUGAGGUUAGAAAACAAAA 21 10747 SCNN1A-6899 +UUUCUGAGGUUAGAAAACAAAA 22 10748 SCNN1A-6900 + UUUUCUGAGGUUAGAAAACAAAA 2310749 SCNN1A-6901 + GUUUUCUGAGGUUAGAAAACAAAA 24 10750 SCNN1A-6902 +CAGAGAAUCAGACCCAAA 18 10751 SCNN1A-6903 + UCAGAGAAUCAGACCCAAA 19 10752SCNN1A-6904 + GUCAGAGAAUCAGACCCAAA 20 10753 SCNN1A-6905 +GGUCAGAGAAUCAGACCCAAA 21 10754 SCNN1A-6906 + GGGUCAGAGAAUCAGACCCAAA 2210755 SCNN1A-6907 + AGGGUCAGAGAAUCAGACCCAAA 23 10756 SCNN1A-6908 +GAGGGUCAGAGAAUCAGACCCAAA 24 10757 SCNN1A-6909 + GGCAGUGGUGGGGGCAAA 1810758 SCNN1A-6910 + GGGCAGUGGUGGGGGCAAA 19 10759 SCNN1A-6911 +GGGGCAGUGGUGGGGGCAAA 20 10760 SCNN1A-6912 + GGGGGCAGUGGUGGGGGCAAA 2110761 SCNN1A-6913 + GGGGGGCAGUGGUGGGGGCAAA 22 10762 SCNN1A-6914 +UGGGGGGCAGUGGUGGGGGCAAA 23 10763 SCNN1A-6915 + GUGGGGGGCAGUGGUGGGGGCAAA24 10764 SCNN1A-6916 + AGGACAGGAGGGCAGAAA 18 10765 SCNN1A-6917 +GAGGACAGGAGGGCAGAAA 19 10766 SCNN1A-6918 + GGAGGACAGGAGGGCAGAAA 20 10767SCNN1A-6919 + GGGAGGACAGGAGGGCAGAAA 21 10768 SCNN1A-6920 +CGGGAGGACAGGAGGGCAGAAA 22 10769 SCNN1A-6921 + CCGGGAGGACAGGAGGGCAGAAA 2310770 SCNN1A-6922 + ACCGGGAGGACAGGAGGGCAGAAA 24 10771 SCNN1A-6923 +CUCUUGCGACUUCUUAAA 18 10772 SCNN1A-6924 + UCUCUUGCGACUUCUUAAA 19 10773SCNN1A-6925 + GUCUCUUGCGACUUCUUAAA 20 10774 SCNN1A-6926 +AGUCUCUUGCGACUUCUUAAA 21 10775 SCNN1A-6927 + CAGUCUCUUGCGACUUCUUAAA 2210776 SCNN1A-6928 + GCAGUCUCUUGCGACUUCUUAAA 23 10777 SCNN1A-6929 +GGCAGUCUCUUGCGACUUCUUAAA 24 10778 SCNN1A-6930 + UAAAAGAUUGUCUUUAAA 1810779 SCNN1A-6931 + UUAAAAGAUUGUCUUUAAA 19 10780 SCNN1A-6932 +UUUAAAAGAUUGUCUUUAAA 20 10781 SCNN1A-6933 + CUUUAAAAGAUUGUCUUUAAA 2110782 SCNN1A-6934 + ACUUUAAAAGAUUGUCUUUAAA 22 10783 SCNN1A-6935 +CACUUUAAAAGAUUGUCUUUAAA 23 10784 SCNN1A-6936 + ACACUUUAAAAGAUUGUCUUUAAA24 10785 SCNN1A-6937 + GCAGAAAGAGGGAGACAA 18 10786 SCNN1A-6938 +GGCAGAAAGAGGGAGACAA 19 10787 SCNN1A-6939 + GGGCAGAAAGAGGGAGACAA 20 10788SCNN1A-6940 + AGGGCAGAAAGAGGGAGACAA 21 10789 SCNN1A-6941 +GAGGGCAGAAAGAGGGAGACAA 22 10790 SCNN1A-6942 + GGAGGGCAGAAAGAGGGAGACAA 2310791 SCNN1A-6943 + AGGAGGGCAGAAAGAGGGAGACAA 24 10792 SCNN1A-6944 +AGAAGGAGCCAGCACCAA 18 10793 SCNN1A-6945 + UAGAAGGAGCCAGCACCAA 19 10794SCNN1A-5518 + AUAGAAGGAGCCAGCACCAA 20 9367 SCNN1A-6946 +AAUAGAAGGAGCCAGCACCAA 21 10795 SCNN1A-6947 + AAAUAGAAGGAGCCAGCACCAA 2210796 SCNN1A-6948 + CAAAUAGAAGGAGCCAGCACCAA 23 10797 SCNN1A-6949 +GCAAAUAGAAGGAGCCAGCACCAA 24 10798 SCNN1A-6950 + GAGCUAGAGGCUCAGCAA 1810799 SCNN1A-6951 + GGAGCUAGAGGCUCAGCAA 19 10800 SCNN1A-6952 +AGGAGCUAGAGGCUCAGCAA 20 10801 SCNN1A-6953 + CAGGAGCUAGAGGCUCAGCAA 2110802 SCNN1A-6954 + CCAGGAGCUAGAGGCUCAGCAA 22 10803 SCNN1A-6955 +UCCAGGAGCUAGAGGCUCAGCAA 23 10804 SCNN1A-6956 + UUCCAGGAGCUAGAGGCUCAGCAA24 10805 SCNN1A-6957 + CUCCAGGAAGGAGAGCAA 18 10806 SCNN1A-6958 +UCUCCAGGAAGGAGAGCAA 19 10807 SCNN1A-5168 + GUCUCCAGGAAGGAGAGCAA 20 9017SCNN1A-6959 + UGUCUCCAGGAAGGAGAGCAA 21 10808 SCNN1A-6960 +CUGUCUCCAGGAAGGAGAGCAA 22 10809 SCNN1A-6961 + UCUGUCUCCAGGAAGGAGAGCAA 2310810 SCNN1A-6962 + GUCUGUCUCCAGGAAGGAGAGCAA 24 10811 SCNN1A-6963 +AGUUUAGCAGGCAAAGAA 18 10812 SCNN1A-6964 + GAGUUUAGCAGGCAAAGAA 19 10813SCNN1A-6965 + GGAGUUUAGCAGGCAAAGAA 20 10814 SCNN1A-6966 +AGGAGUUUAGCAGGCAAAGAA 21 10815 SCNN1A-6967 + AAGGAGUUUAGCAGGCAAAGAA 2210816 SCNN1A-6968 + CAAGGAGUUUAGCAGGCAAAGAA 23 10817 SCNN1A-6969 +GCAAGGAGUUUAGCAGGCAAAGAA 24 10818 SCNN1A-6970 + CUCAGGCCCUGCAGAGAA 1810819 SCNN1A-6971 + CCUCAGGCCCUGCAGAGAA 19 10820 SCNN1A-6972 +CCCUCAGGCCCUGCAGAGAA 20 10821 SCNN1A-6973 + ACCCUCAGGCCCUGCAGAGAA 2110822 SCNN1A-6974 + CACCCUCAGGCCCUGCAGAGAA 22 10823 SCNN1A-6975 +UCACCCUCAGGCCCUGCAGAGAA 23 10824 SCNN1A-6976 + CUCACCCUCAGGCCCUGCAGAGAA24 10825 SCNN1A-6977 + GAGGGCCUGGGUGGGGAA 18 10826 SCNN1A-6978 +AGAGGGCCUGGGUGGGGAA 19 10827 SCNN1A-6979 + GAGAGGGCCUGGGUGGGGAA 20 10828SCNN1A-6980 + UGAGAGGGCCUGGGUGGGGAA 21 10829 SCNN1A-6981 +CUGAGAGGGCCUGGGUGGGGAA 22 10830 SCNN1A-6982 + GCUGAGAGGGCCUGGGUGGGGAA 2310831 SCNN1A-6983 + GGCUGAGAGGGCCUGGGUGGGGAA 24 10832 SCNN1A-6984 +AUGUGGCCAGCGCUGGAA 18 10833 SCNN1A-6985 + GAUGUGGCCAGCGCUGGAA 19 10834SCNN1A-5174 + GGAUGUGGCCAGCGCUGGAA 20 9023 SCNN1A-6986 +AGGAUGUGGCCAGCGCUGGAA 21 10835 SCNN1A-6987 + GAGGAUGUGGCCAGCGCUGGAA 2210836 SCNN1A-6988 + GGAGGAUGUGGCCAGCGCUGGAA 23 10837 SCNN1A-6989 +GGGAGGAUGUGGCCAGCGCUGGAA 24 10838 SCNN1A-6990 + CUCCCGAGGGCAGGUGAA 1810839 SCNN1A-6991 + GCUCCCGAGGGCAGGUGAA 19 10840 SCNN1A-6992 +GGCUCCCGAGGGCAGGUGAA 20 10841 SCNN1A-6993 + GGGCUCCCGAGGGCAGGUGAA 2110842 SCNN1A-6994 + AGGGCUCCCGAGGGCAGGUGAA 22 10843 SCNN1A-6995 +GAGGGCUCCCGAGGGCAGGUGAA 23 10844 SCNN1A-6996 + GGAGGGCUCCCGAGGGCAGGUGAA24 10845 SCNN1A-6997 + CUCCUCCCCGCUCACUAA 18 10846 SCNN1A-6998 +UCUCCUCCCCGCUCACUAA 19 10847 SCNN1A-6999 + GUCUCCUCCCCGCUCACUAA 20 10848SCNN1A-7000 + GGUCUCCUCCCCGCUCACUAA 21 10849 SCNN1A-7001 +AGGUCUCCUCCCCGCUCACUAA 22 10850 SCNN1A-7002 + CAGGUCUCCUCCCCGCUCACUAA 2310851 SCNN1A-7003 + GCAGGUCUCCUCCCCGCUCACUAA 24 10852 SCNN1A-7004 +AGCUAGGAGGGCAACACA 18 10853 SCNN1A-7005 + CAGCUAGGAGGGCAACACA 19 10854SCNN1A-5527 + ACAGCUAGGAGGGCAACACA 20 9376 SCNN1A-7006 +CACAGCUAGGAGGGCAACACA 21 10855 SCNN1A-7007 + CCACAGCUAGGAGGGCAACACA 2210856 SCNN1A-7008 + CCCACAGCUAGGAGGGCAACACA 23 10857 SCNN1A-7009 +GCCCACAGCUAGGAGGGCAACACA 24 10858 SCNN1A-7010 + CCUGAGCAUUGAUACACA 1810859 SCNN1A-7011 + GCCUGAGCAUUGAUACACA 19 10860 SCNN1A-7012 +AGCCUGAGCAUUGAUACACA 20 10861 SCNN1A-7013 + CAGCCUGAGCAUUGAUACACA 2110862 SCNN1A-7014 + CCAGCCUGAGCAUUGAUACACA 22 10863 SCNN1A-7015 +CCCAGCCUGAGCAUUGAUACACA 23 10864 SCNN1A-7016 + GCCCAGCCUGAGCAUUGAUACACA24 10865 SCNN1A-7017 + GCCUCCCUCACUCCCACA 18 10866 SCNN1A-7018 +GGCCUCCCUCACUCCCACA 19 10867 SCNN1A-7019 + AGGCCUCCCUCACUCCCACA 20 10868SCNN1A-7020 + AAGGCCUCCCUCACUCCCACA 21 10869 SCNN1A-7021 +GAAGGCCUCCCUCACUCCCACA 22 10870 SCNN1A-7022 + GGAAGGCCUCCCUCACUCCCACA 2310871 SCNN1A-7023 + GGGAAGGCCUCCCUCACUCCCACA 24 10872 SCNN1A-7024 +GAGGGACAGCGAAGGACA 18 10873 SCNN1A-7025 + AGAGGGACAGCGAAGGACA 19 10874SCNN1A-7026 + GAGAGGGACAGCGAAGGACA 20 10875 SCNN1A-7027 +AGAGAGGGACAGCGAAGGACA 21 10876 SCNN1A-7028 + UAGAGAGGGACAGCGAAGGACA 2210877 SCNN1A-7029 + AUAGAGAGGGACAGCGAAGGACA 23 10878 SCNN1A-7030 +AAUAGAGAGGGACAGCGAAGGACA 24 10879 SCNN1A-7031 + AGACAAUAGAGAGGGACA 1810880 SCNN1A-7032 + GAGACAAUAGAGAGGGACA 19 10881 SCNN1A-7033 +GGAGACAAUAGAGAGGGACA 20 10882 SCNN1A-7034 + GGGAGACAAUAGAGAGGGACA 2110883 SCNN1A-7035 + AGGGAGACAAUAGAGAGGGACA 22 10884 SCNN1A-7036 +GAGGGAGACAAUAGAGAGGGACA 23 10885 SCNN1A-7037 + AGAGGGAGACAAUAGAGAGGGACA24 10886 SCNN1A-7038 + UUGAGCCAGGUCCUUACA 18 10887 SCNN1A-7039 +CUUGAGCCAGGUCCUUACA 19 10888 SCNN1A-7040 + CCUUGAGCCAGGUCCUUACA 20 10889SCNN1A-7041 + CCCUUGAGCCAGGUCCUUACA 21 10890 SCNN1A-7042 +UCCCUUGAGCCAGGUCCUUACA 22 10891 SCNN1A-7043 + CUCCCUUGAGCCAGGUCCUUACA 2310892 SCNN1A-7044 + UCUCCCUUGAGCCAGGUCCUUACA 24 10893 SCNN1A-7045 +UAGAAGGAGCCAGCACCA 18 10894 SCNN1A-7046 + AUAGAAGGAGCCAGCACCA 19 10895SCNN1A-7047 + AAUAGAAGGAGCCAGCACCA 20 10896 SCNN1A-7048 +AAAUAGAAGGAGCCAGCACCA 21 10897 SCNN1A-7049 + CAAAUAGAAGGAGCCAGCACCA 2210898 SCNN1A-7050 + GCAAAUAGAAGGAGCCAGCACCA 23 10899 SCNN1A-7051 +GGCAAAUAGAAGGAGCCAGCACCA 24 10900 SCNN1A-7052 + GCUUCCUCACGGGCCCCA 1810901 SCNN1A-7053 + CGCUUCCUCACGGGCCCCA 19 10902 SCNN1A-7054 +CCGCUUCCUCACGGGCCCCA 20 10903 SCNN1A-7055 + GCCGCUUCCUCACGGGCCCCA 2110904 SCNN1A-7056 + UGCCGCUUCCUCACGGGCCCCA 22 10905 SCNN1A-7057 +CUGCCGCUUCCUCACGGGCCCCA 23 10906 SCNN1A-7058 + GCUGCCGCUUCCUCACGGGCCCCA24 10907 SCNN1A-7059 + ACUCAGGAAGCCUUCCCA 18 10908 SCNN1A-7060 +GACUCAGGAAGCCUUCCCA 19 10909 SCNN1A-7061 + AGACUCAGGAAGCCUUCCCA 20 10910SCNN1A-7062 + GAGACUCAGGAAGCCUUCCCA 21 10911 SCNN1A-7063 +GGAGACUCAGGAAGCCUUCCCA 22 10912 SCNN1A-7064 + AGGAGACUCAGGAAGCCUUCCCA 2310913 SCNN1A-7065 + CAGGAGACUCAGGAAGCCUUCCCA 24 10914 SCNN1A-7066 +UCUCCAGGAAGGAGAGCA 18 10915 SCNN1A-7067 + GUCUCCAGGAAGGAGAGCA 19 10916SCNN1A-5533 + UGUCUCCAGGAAGGAGAGCA 20 9382 SCNN1A-7068 +CUGUCUCCAGGAAGGAGAGCA 21 10917 SCNN1A-7069 + UCUGUCUCCAGGAAGGAGAGCA 2210918 SCNN1A-7070 + GUCUGUCUCCAGGAAGGAGAGCA 23 10919 SCNN1A-7071 +AGUCUGUCUCCAGGAAGGAGAGCA 24 10920 SCNN1A-7072 + AGUGCCAAGUGGUGAGCA 1810921 SCNN1A-7073 + GAGUGCCAAGUGGUGAGCA 19 10922 SCNN1A-5179 +GGAGUGCCAAGUGGUGAGCA 20 9028 SCNN1A-7074 + UGGAGUGCCAAGUGGUGAGCA 2110923 SCNN1A-7075 + GUGGAGUGCCAAGUGGUGAGCA 22 10924 SCNN1A-7076 +AGUGGAGUGCCAAGUGGUGAGCA 23 10925 SCNN1A-7077 + GAGUGGAGUGCCAAGUGGUGAGCA24 10926 SCNN1A-7078 + UUUAGACGCAGACAGGCA 18 10927 SCNN1A-7079 +CUUUAGACGCAGACAGGCA 19 10928 SCNN1A-5181 + GCUUUAGACGCAGACAGGCA 20 9030SCNN1A-7080 + GGCUUUAGACGCAGACAGGCA 21 10929 SCNN1A-7081 +GGGCUUUAGACGCAGACAGGCA 22 10930 SCNN1A-7082 + GGGGCUUUAGACGCAGACAGGCA 2310931 SCNN1A-7083 + AGGGGCUUUAGACGCAGACAGGCA 24 10932 SCNN1A-7084 +AGGCAGGGAAAGCAGGCA 18 10933 SCNN1A-7085 + GAGGCAGGGAAAGCAGGCA 19 10934SCNN1A-7086 + AGAGGCAGGGAAAGCAGGCA 20 10935 SCNN1A-7087 +AAGAGGCAGGGAAAGCAGGCA 21 10936 SCNN1A-7088 + GAAGAGGCAGGGAAAGCAGGCA 2210937 SCNN1A-7089 + GGAAGAGGCAGGGAAAGCAGGCA 23 10938 SCNN1A-7090 +AGGAAGAGGCAGGGAAAGCAGGCA 24 10939 SCNN1A-7091 + CAAGGAGUUUAGCAGGCA 1810940 SCNN1A-7092 + GCAAGGAGUUUAGCAGGCA 19 10941 SCNN1A-7093 +AGCAAGGAGUUUAGCAGGCA 20 10942 SCNN1A-7094 + AAGCAAGGAGUUUAGCAGGCA 2110943 SCNN1A-7095 + CAAGCAAGGAGUUUAGCAGGCA 22 10944 SCNN1A-7096 +ACAAGCAAGGAGUUUAGCAGGCA 23 10945 SCNN1A-7097 + GACAAGCAAGGAGUUUAGCAGGCA24 10946 SCNN1A-7098 + GGAGCCCAGGAAGAGGCA 18 10947 SCNN1A-7099 +CGGAGCCCAGGAAGAGGCA 19 10948 SCNN1A-5535 + CCGGAGCCCAGGAAGAGGCA 20 9384SCNN1A-7100 + CCCGGAGCCCAGGAAGAGGCA 21 10949 SCNN1A-7101 +ACCCGGAGCCCAGGAAGAGGCA 22 10950 SCNN1A-7102 + GACCCGGAGCCCAGGAAGAGGCA 2310951 SCNN1A-7103 + AGACCCGGAGCCCAGGAAGAGGCA 24 10952 SCNN1A-7104 +CAGGCCCUGCACGCGGCA 18 10953 SCNN1A-7105 + CCAGGCCCUGCACGCGGCA 19 10954SCNN1A-5536 + CCCAGGCCCUGCACGCGGCA 20 9385 SCNN1A-7106 +ACCCAGGCCCUGCACGCGGCA 21 10955 SCNN1A-7107 + AACCCAGGCCCUGCACGCGGCA 2210956 SCNN1A-7108 + CAACCCAGGCCCUGCACGCGGCA 23 10957 SCNN1A-7109 +ACAACCCAGGCCCUGCACGCGGCA 24 10958 SCNN1A-7110 + UCACCCUCAGGCCCUGCA 1810959 SCNN1A-7111 + CUCACCCUCAGGCCCUGCA 19 10960 SCNN1A-7112 +CCUCACCCUCAGGCCCUGCA 20 10961 SCNN1A-7113 + GCCUCACCCUCAGGCCCUGCA 2110962 SCNN1A-7114 + AGCCUCACCCUCAGGCCCUGCA 22 10963 SCNN1A-7115 +CAGCCUCACCCUCAGGCCCUGCA 23 10964 SCNN1A-7116 + UCAGCCUCACCCUCAGGCCCUGCA24 10965 SCNN1A-7117 + GCAGGCACUGAAGGUGCA 18 10966 SCNN1A-7118 +AGCAGGCACUGAAGGUGCA 19 10967 SCNN1A-5539 + AAGCAGGCACUGAAGGUGCA 20 9388SCNN1A-7119 + AAAGCAGGCACUGAAGGUGCA 21 10968 SCNN1A-7120 +GAAAGCAGGCACUGAAGGUGCA 22 10969 SCNN1A-7121 + GGAAAGCAGGCACUGAAGGUGCA 2310970 SCNN1A-7122 + GGGAAAGCAGGCACUGAAGGUGCA 24 10971 SCNN1A-7123 +CUUCCUGAGACAGACUCA 18 10972 SCNN1A-7124 + ACUUCCUGAGACAGACUCA 19 10973SCNN1A-6083 + UACUUCCUGAGACAGACUCA 20 9932 SCNN1A-7125 +UUACUUCCUGAGACAGACUCA 21 10974 SCNN1A-7126 + UUUACUUCCUGAGACAGACUCA 2210975 SCNN1A-7127 + AUUUACUUCCUGAGACAGACUCA 23 10976 SCNN1A-7128 +CAUUUACUUCCUGAGACAGACUCA 24 10977 SCNN1A-7129 + GACAGGAGGGCAGAAAGA 1810978 SCNN1A-7130 + GGACAGGAGGGCAGAAAGA 19 10979 SCNN1A-6085 +AGGACAGGAGGGCAGAAAGA 20 9934 SCNN1A-7131 + GAGGACAGGAGGGCAGAAAGA 2110980 SCNN1A-7132 + GGAGGACAGGAGGGCAGAAAGA 22 10981 SCNN1A-7133 +GGGAGGACAGGAGGGCAGAAAGA 23 10982 SCNN1A-7134 + CGGGAGGACAGGAGGGCAGAAAGA24 10983 SCNN1A-7135 + CAGGCCCUGCAGAGAAGA 18 10984 SCNN1A-7136 +UCAGGCCCUGCAGAGAAGA 19 10985 SCNN1A-7137 + CUCAGGCCCUGCAGAGAAGA 20 10986SCNN1A-7138 + CCUCAGGCCCUGCAGAGAAGA 21 10987 SCNN1A-7139 +CCCUCAGGCCCUGCAGAGAAGA 22 10988 SCNN1A-7140 + ACCCUCAGGCCCUGCAGAGAAGA 2310989 SCNN1A-7141 + CACCCUCAGGCCCUGCAGAGAAGA 24 10990 SCNN1A-7142 +GGAGGACAGGAGGGCAGA 18 10991 SCNN1A-7143 + GGGAGGACAGGAGGGCAGA 19 10992SCNN1A-7144 + CGGGAGGACAGGAGGGCAGA 20 10993 SCNN1A-7145 +CCGGGAGGACAGGAGGGCAGA 21 10994 SCNN1A-7146 + ACCGGGAGGACAGGAGGGCAGA 2210995 SCNN1A-7147 + AACCGGGAGGACAGGAGGGCAGA 23 10996 SCNN1A-7148 +GAACCGGGAGGACAGGAGGGCAGA 24 10997 SCNN1A-7149 + CAGCGAAGGACAGAGAGA 1810998 SCNN1A-7150 + ACAGCGAAGGACAGAGAGA 19 10999 SCNN1A-7151 +GACAGCGAAGGACAGAGAGA 20 11000 SCNN1A-7152 + GGACAGCGAAGGACAGAGAGA 2111001 SCNN1A-7153 + GGGACAGCGAAGGACAGAGAGA 22 11002 SCNN1A-7154 +AGGGACAGCGAAGGACAGAGAGA 23 11003 SCNN1A-7155 + GAGGGACAGCGAAGGACAGAGAGA24 11004 SCNN1A-7156 + GUGGUGAGCAAGGAGAGA 18 11005 SCNN1A-7157 +AGUGGUGAGCAAGGAGAGA 19 11006 SCNN1A-7158 + AAGUGGUGAGCAAGGAGAGA 20 11007SCNN1A-7159 + CAAGUGGUGAGCAAGGAGAGA 21 11008 SCNN1A-7160 +CCAAGUGGUGAGCAAGGAGAGA 22 11009 SCNN1A-7161 + GCCAAGUGGUGAGCAAGGAGAGA 2311010 SCNN1A-7162 + UGCCAAGUGGUGAGCAAGGAGAGA 24 11011 SCNN1A-7163 +GAGGGCAACACAAGGAGA 18 11012 SCNN1A-7164 + GGAGGGCAACACAAGGAGA 19 11013SCNN1A-6089 + AGGAGGGCAACACAAGGAGA 20 9938 SCNN1A-7165 +UAGGAGGGCAACACAAGGAGA 21 11014 SCNN1A-7166 + CUAGGAGGGCAACACAAGGAGA 2211015 SCNN1A-7167 + GCUAGGAGGGCAACACAAGGAGA 23 11016 SCNN1A-7168 +AGCUAGGAGGGCAACACAAGGAGA 24 11017 SCNN1A-7169 + AAGUGGUGAGCAAGGAGA 1811018 SCNN1A-7170 + CAAGUGGUGAGCAAGGAGA 19 11019 SCNN1A-7171 +CCAAGUGGUGAGCAAGGAGA 20 11020 SCNN1A-7172 + GCCAAGUGGUGAGCAAGGAGA 2111021 SCNN1A-7173 + UGCCAAGUGGUGAGCAAGGAGA 22 11022 SCNN1A-7174 +GUGCCAAGUGGUGAGCAAGGAGA 23 11023 SCNN1A-7175 + AGUGCCAAGUGGUGAGCAAGGAGA24 11024 SCNN1A-7176 + GUGGUGGGGGCAAAUAGA 18 11025 SCNN1A-7177 +AGUGGUGGGGGCAAAUAGA 19 11026 SCNN1A-6091 + CAGUGGUGGGGGCAAAUAGA 20 9940SCNN1A-7178 + GCAGUGGUGGGGGCAAAUAGA 21 11027 SCNN1A-7179 +GGCAGUGGUGGGGGCAAAUAGA 22 11028 SCNN1A-7180 + GGGCAGUGGUGGGGGCAAAUAGA 2311029 SCNN1A-7181 + GGGGCAGUGGUGGGGGCAAAUAGA 24 11030 SCNN1A-7182 +AAAGAGGGAGACAAUAGA 18 11031 SCNN1A-7183 + GAAAGAGGGAGACAAUAGA 19 11032SCNN1A-7184 + AGAAAGAGGGAGACAAUAGA 20 11033 SCNN1A-7185 +CAGAAAGAGGGAGACAAUAGA 21 11034 SCNN1A-7186 + GCAGAAAGAGGGAGACAAUAGA 2211035 SCNN1A-7187 + GGCAGAAAGAGGGAGACAAUAGA 23 11036 SCNN1A-7188 +GGGCAGAAAGAGGGAGACAAUAGA 24 11037 SCNN1A-1445 + AUCACCCCUGGAACCCGA 185294 SCNN1A-1446 + CAUCACCCCUGGAACCCGA 19 5295 SCNN1A-1447 +CCAUCACCCCUGGAACCCGA 20 5296 SCNN1A-1448 + CCCAUCACCCCUGGAACCCGA 21 5297SCNN1A-1449 + UCCCAUCACCCCUGGAACCCGA 22 5298 SCNN1A-1450 +CUCCCAUCACCCCUGGAACCCGA 23 5299 SCNN1A-1451 + UCUCCCAUCACCCCUGGAACCCGA24 5300 SCNN1A-7189 + GAGCCGGGAGUUUUCCGA 18 11038 SCNN1A-7190 +AGAGCCGGGAGUUUUCCGA 19 11039 SCNN1A-5544 + CAGAGCCGGGAGUUUUCCGA 20 9393SCNN1A-7191 + UCAGAGCCGGGAGUUUUCCGA 21 11040 SCNN1A-7192 +GUCAGAGCCGGGAGUUUUCCGA 22 11041 SCNN1A-7193 + AGUCAGAGCCGGGAGUUUUCCGA 2311042 SCNN1A-7194 + GAGUCAGAGCCGGGAGUUUUCCGA 24 11043 SCNN1A-7195 +GGCCAGGGAUGGAAGCGA 18 11044 SCNN1A-7196 + CGGCCAGGGAUGGAAGCGA 19 11045SCNN1A-7197 + CCGGCCAGGGAUGGAAGCGA 20 11046 SCNN1A-7198 +GCCGGCCAGGGAUGGAAGCGA 21 11047 SCNN1A-7199 + GGCCGGCCAGGGAUGGAAGCGA 2211048 SCNN1A-7200 + UGGCCGGCCAGGGAUGGAAGCGA 23 11049 SCNN1A-7201 +CUGGCCGGCCAGGGAUGGAAGCGA 24 11050 SCNN1A-7202 + CCAAGUGGUGAGCAAGGA 1811051 SCNN1A-7203 + GCCAAGUGGUGAGCAAGGA 19 11052 SCNN1A-7204 +UGCCAAGUGGUGAGCAAGGA 20 11053 SCNN1A-7205 + GUGCCAAGUGGUGAGCAAGGA 2111054 SCNN1A-7206 + AGUGCCAAGUGGUGAGCAAGGA 22 11055 SCNN1A-7207 +GAGUGCCAAGUGGUGAGCAAGGA 23 11056 SCNN1A-7208 + GGAGUGCCAAGUGGUGAGCAAGGA24 11057 SCNN1A-7209 + CGGGAGUUUUCCGAAGGA 18 11058 SCNN1A-7210 +CCGGGAGUUUUCCGAAGGA 19 11059 SCNN1A-5190 + GCCGGGAGUUUUCCGAAGGA 20 9039SCNN1A-7211 + AGCCGGGAGUUUUCCGAAGGA 21 11060 SCNN1A-7212 +GAGCCGGGAGUUUUCCGAAGGA 22 11061 SCNN1A-7213 + AGAGCCGGGAGUUUUCCGAAGGA 2311062 SCNN1A-7214 + CAGAGCCGGGAGUUUUCCGAAGGA 24 11063 SCNN1A-7215 +GAGAGGGACAGCGAAGGA 18 11064 SCNN1A-7216 + AGAGAGGGACAGCGAAGGA 19 11065SCNN1A-7217 + UAGAGAGGGACAGCGAAGGA 20 11066 SCNN1A-7218 +AUAGAGAGGGACAGCGAAGGA 21 11067 SCNN1A-7219 + AAUAGAGAGGGACAGCGAAGGA 2211068 SCNN1A-7220 + CAAUAGAGAGGGACAGCGAAGGA 23 11069 SCNN1A-7221 +ACAAUAGAGAGGGACAGCGAAGGA 24 11070 SCNN1A-7222 + GCAGCAAAAGGAUAAGGA 1811071 SCNN1A-7223 + UGCAGCAAAAGGAUAAGGA 19 11072 SCNN1A-7224 +AUGCAGCAAAAGGAUAAGGA 20 11073 SCNN1A-7225 + AAUGCAGCAAAAGGAUAAGGA 2111074 SCNN1A-7226 + UAAUGCAGCAAAAGGAUAAGGA 22 11075 SCNN1A-7227 +UUAAUGCAGCAAAAGGAUAAGGA 23 11076 SCNN1A-7228 + CUUAAUGCAGCAAAAGGAUAAGGA24 11077 SCNN1A-7229 + GGGAGUCUGUCUCCAGGA 18 11078 SCNN1A-7230 +AGGGAGUCUGUCUCCAGGA 19 11079 SCNN1A-5546 + AAGGGAGUCUGUCUCCAGGA 20 9395SCNN1A-7231 + AAAGGGAGUCUGUCUCCAGGA 21 11080 SCNN1A-7232 +CAAAGGGAGUCUGUCUCCAGGA 22 11081 SCNN1A-7233 + CCAAAGGGAGUCUGUCUCCAGGA 2311082 SCNN1A-7234 + ACCAAAGGGAGUCUGUCUCCAGGA 24 11083 SCNN1A-7235 +GGUGGGGAACCGGGAGGA 18 11084 SCNN1A-7236 + GGGUGGGGAACCGGGAGGA 19 11085SCNN1A-7237 + UGGGUGGGGAACCGGGAGGA 20 11086 SCNN1A-7238 +CUGGGUGGGGAACCGGGAGGA 21 11087 SCNN1A-7239 + CCUGGGUGGGGAACCGGGAGGA 2211088 SCNN1A-7240 + GCCUGGGUGGGGAACCGGGAGGA 23 11089 SCNN1A-7241 +GGCCUGGGUGGGGAACCGGGAGGA 24 11090 SCNN1A-7242 + CCGCUGGCCGGCCAGGGA 1811091 SCNN1A-7243 + CCCGCUGGCCGGCCAGGGA 19 11092 SCNN1A-5192 +GCCCGCUGGCCGGCCAGGGA 20 9041 SCNN1A-7244 + CGCCCGCUGGCCGGCCAGGGA 2111093 SCNN1A-7245 + CCGCCCGCUGGCCGGCCAGGGA 22 11094 SCNN1A-7246 +CCCGCCCGCUGGCCGGCCAGGGA 23 11095 SCNN1A-7247 + GCCCGCCCGCUGGCCGGCCAGGGA24 11096 SCNN1A-7248 + AGGACAGAGAGAUAGGGA 18 11097 SCNN1A-7249 +AAGGACAGAGAGAUAGGGA 19 11098 SCNN1A-5878 + GAAGGACAGAGAGAUAGGGA 20 9727SCNN1A-7250 + CGAAGGACAGAGAGAUAGGGA 21 11099 SCNN1A-7251 +GCGAAGGACAGAGAGAUAGGGA 22 11100 SCNN1A-7252 + AGCGAAGGACAGAGAGAUAGGGA 2311101 SCNN1A-7253 + CAGCGAAGGACAGAGAGAUAGGGA 24 11102 SCNN1A-7254 +AGACAGACUCAUGGGGGA 18 11103 SCNN1A-7255 + GAGACAGACUCAUGGGGGA 19 11104SCNN1A-7256 + UGAGACAGACUCAUGGGGGA 20 11105 SCNN1A-7257 +CUGAGACAGACUCAUGGGGGA 21 11106 SCNN1A-7258 + CCUGAGACAGACUCAUGGGGGA 2211107 SCNN1A-7259 + UCCUGAGACAGACUCAUGGGGGA 23 11108 SCNN1A-7260 +UUCCUGAGACAGACUCAUGGGGGA 24 11109 SCNN1A-7261 + GAUGUGGCCAGCGCUGGA 1811110 SCNN1A-7262 + GGAUGUGGCCAGCGCUGGA 19 11111 SCNN1A-7263 +AGGAUGUGGCCAGCGCUGGA 20 11112 SCNN1A-7264 + GAGGAUGUGGCCAGCGCUGGA 2111113 SCNN1A-7265 + GGAGGAUGUGGCCAGCGCUGGA 22 11114 SCNN1A-7266 +GGGAGGAUGUGGCCAGCGCUGGA 23 11115 SCNN1A-7267 + AGGGAGGAUGUGGCCAGCGCUGGA24 11116 SCNN1A-7268 + UCCCAGGUUGCGGCUGGA 18 11117 SCNN1A-7269 +CUCCCAGGUUGCGGCUGGA 19 11118 SCNN1A-7270 + ACUCCCAGGUUGCGGCUGGA 20 11119SCNN1A-7271 + CACUCCCAGGUUGCGGCUGGA 21 11120 SCNN1A-7272 +CCACUCCCAGGUUGCGGCUGGA 22 11121 SCNN1A-7273 + CCCACUCCCAGGUUGCGGCUGGA 2311122 SCNN1A-7274 + UCCCACUCCCAGGUUGCGGCUGGA 24 11123 SCNN1A-1465 +CAUGAGCCCCGGAGUGGA 18 5314 SCNN1A-1466 + UCAUGAGCCCCGGAGUGGA 19 5315SCNN1A-1467 + UUCAUGAGCCCCGGAGUGGA 20 5316 SCNN1A-1468 +CUUCAUGAGCCCCGGAGUGGA 21 5317 SCNN1A-1469 + CCUUCAUGAGCCCCGGAGUGGA 225318 SCNN1A-1470 + CCCUUCAUGAGCCCCGGAGUGGA 23 5319 SCNN1A-1471 +CCCCUUCAUGAGCCCCGGAGUGGA 24 5320 SCNN1A-1472 + AUGAUACCUCCCCUUGGA 185321 SCNN1A-1473 + CAUGAUACCUCCCCUUGGA 19 5322 SCNN1A-399 +UCAUGAUACCUCCCCUUGGA 20 4248 SCNN1A-1474 + CUCAUGAUACCUCCCCUUGGA 21 5323SCNN1A-1475 + GCUCAUGAUACCUCCCCUUGGA 22 5324 SCNN1A-1476 +UGCUCAUGAUACCUCCCCUUGGA 23 5325 SCNN1A-1477 + CUGCUCAUGAUACCUCCCCUUGGA24 5326 SCNN1A-7275 + UCUCCUCUGCUUCCCUGA 18 11124 SCNN1A-7276 +CUCUCCUCUGCUUCCCUGA 19 11125 SCNN1A-7277 + CCUCUCCUCUGCUUCCCUGA 20 11126SCNN1A-7278 + GCCUCUCCUCUGCUUCCCUGA 21 11127 SCNN1A-7279 +GGCCUCUCCUCUGCUUCCCUGA 22 11128 SCNN1A-7280 + CGGCCUCUCCUCUGCUUCCCUGA 2311129 SCNN1A-7281 + ACGGCCUCUCCUCUGCUUCCCUGA 24 11130 SCNN1A-7282 +AGGGGCCAGCCAGGCUGA 18 11131 SCNN1A-7283 + AAGGGGCCAGCCAGGCUGA 19 11132SCNN1A-7284 + GAAGGGGCCAGCCAGGCUGA 20 11133 SCNN1A-7285 +AGAAGGGGCCAGCCAGGCUGA 21 11134 SCNN1A-7286 + GAGAAGGGGCCAGCCAGGCUGA 2211135 SCNN1A-7287 + GGAGAAGGGGCCAGCCAGGCUGA 23 11136 SCNN1A-7288 +AGGAGAAGGGGCCAGCCAGGCUGA 24 11137 SCNN1A-7289 + AGAAAGAGGGAGACAAUA 1811138 SCNN1A-7290 + CAGAAAGAGGGAGACAAUA 19 11139 SCNN1A-7291 +GCAGAAAGAGGGAGACAAUA 20 11140 SCNN1A-7292 + GGCAGAAAGAGGGAGACAAUA 2111141 SCNN1A-7293 + GGGCAGAAAGAGGGAGACAAUA 22 11142 SCNN1A-7294 +AGGGCAGAAAGAGGGAGACAAUA 23 11143 SCNN1A-7295 + GAGGGCAGAAAGAGGGAGACAAUA24 11144 SCNN1A-7296 + UUUUUCUUCAUUGUCCUA 18 11145 SCNN1A-7297 +AUUUUUCUUCAUUGUCCUA 19 11146 SCNN1A-7298 + GAUUUUUCUUCAUUGUCCUA 20 11147SCNN1A-7299 + GGAUUUUUCUUCAUUGUCCUA 21 11148 SCNN1A-7300 +UGGAUUUUUCUUCAUUGUCCUA 22 11149 SCNN1A-7301 + CUGGAUUUUUCUUCAUUGUCCUA 2311150 SCNN1A-7302 + GCUGGAUUUUUCUUCAUUGUCCUA 24 11151 SCNN1A-7303 +CAUAAGAGCCAAGGGCUA 18 11152 SCNN1A-7304 + ACAUAAGAGCCAAGGGCUA 19 11153SCNN1A-5198 + GACAUAAGAGCCAAGGGCUA 20 9047 SCNN1A-7305 +AGACAUAAGAGCCAAGGGCUA 21 11154 SCNN1A-7306 + AAGACAUAAGAGCCAAGGGCUA 2211155 SCNN1A-7307 + UAAGACAUAAGAGCCAAGGGCUA 23 11156 SCNN1A-7308 +AUAAGACAUAAGAGCCAAGGGCUA 24 11157 SCNN1A-7309 + GCAGGUGAACUGGGAGUA 1811158 SCNN1A-7310 + GGCAGGUGAACUGGGAGUA 19 11159 SCNN1A-7311 +GGGCAGGUGAACUGGGAGUA 20 11160 SCNN1A-7312 + AGGGCAGGUGAACUGGGAGUA 2111161 SCNN1A-7313 + GAGGGCAGGUGAACUGGGAGUA 22 11162 SCNN1A-7314 +CGAGGGCAGGUGAACUGGGAGUA 23 11163 SCNN1A-7315 + CCGAGGGCAGGUGAACUGGGAGUA24 11164 SCNN1A-7316 + UGCAGGAAUGUGGGCAAC 18 11165 SCNN1A-7317 +UUGCAGGAAUGUGGGCAAC 19 11166 SCNN1A-7318 + GUUGCAGGAAUGUGGGCAAC 20 11167SCNN1A-7319 + AGUUGCAGGAAUGUGGGCAAC 21 11168 SCNN1A-7320 +GAGUUGCAGGAAUGUGGGCAAC 22 11169 SCNN1A-7321 + AGAGUUGCAGGAAUGUGGGCAAC 2311170 SCNN1A-7322 + CAGAGUUGCAGGAAUGUGGGCAAC 24 11171 SCNN1A-7323 +AGGGCCUGGGUGGGGAAC 18 11172 SCNN1A-7324 + GAGGGCCUGGGUGGGGAAC 19 11173SCNN1A-6101 + AGAGGGCCUGGGUGGGGAAC 20 9950 SCNN1A-7325 +GAGAGGGCCUGGGUGGGGAAC 21 11174 SCNN1A-7326 + UGAGAGGGCCUGGGUGGGGAAC 2211175 SCNN1A-7327 + CUGAGAGGGCCUGGGUGGGGAAC 23 11176 SCNN1A-7328 +GCUGAGAGGGCCUGGGUGGGGAAC 24 11177 SCNN1A-7329 + UCCCGAGGGCAGGUGAAC 1811178 SCNN1A-7330 + CUCCCGAGGGCAGGUGAAC 19 11179 SCNN1A-5203 +GCUCCCGAGGGCAGGUGAAC 20 9052 SCNN1A-7331 + GGCUCCCGAGGGCAGGUGAAC 2111180 SCNN1A-7332 + GGGCUCCCGAGGGCAGGUGAAC 22 11181 SCNN1A-7333 +AGGGCUCCCGAGGGCAGGUGAAC 23 11182 SCNN1A-7334 + GAGGGCUCCCGAGGGCAGGUGAAC24 11183 SCNN1A-7335 + CAGCUAGGAGGGCAACAC 18 11184 SCNN1A-7336 +ACAGCUAGGAGGGCAACAC 19 11185 SCNN1A-7337 + CACAGCUAGGAGGGCAACAC 20 11186SCNN1A-7338 + CCACAGCUAGGAGGGCAACAC 21 11187 SCNN1A-7339 +CCCACAGCUAGGAGGGCAACAC 22 11188 SCNN1A-7340 + GCCCACAGCUAGGAGGGCAACAC 2311189 SCNN1A-7341 + AGCCCACAGCUAGGAGGGCAACAC 24 11190 SCNN1A-7342 +CUGAGCAUUGAUACACAC 18 11191 SCNN1A-7343 + CCUGAGCAUUGAUACACAC 19 11192SCNN1A-5204 + GCCUGAGCAUUGAUACACAC 20 9053 SCNN1A-7344 +AGCCUGAGCAUUGAUACACAC 21 11193 SCNN1A-7345 + CAGCCUGAGCAUUGAUACACAC 2211194 SCNN1A-7346 + CCAGCCUGAGCAUUGAUACACAC 23 11195 SCNN1A-7347 +CCCAGCCUGAGCAUUGAUACACAC 24 11196 SCNN1A-7348 + CUUCCUCACGGGCCCCAC 1811197 SCNN1A-7349 + GCUUCCUCACGGGCCCCAC 19 11198 SCNN1A-5561 +CGCUUCCUCACGGGCCCCAC 20 9410 SCNN1A-7350 + CCGCUUCCUCACGGGCCCCAC 2111199 SCNN1A-7351 + GCCGCUUCCUCACGGGCCCCAC 22 11200 SCNN1A-7352 +UGCCGCUUCCUCACGGGCCCCAC 23 11201 SCNN1A-7353 + CUGCCGCUUCCUCACGGGCCCCAC24 11202 SCNN1A-7354 + GACACUGUGGACACAGAC 18 11203 SCNN1A-7355 +GGACACUGUGGACACAGAC 19 11204 SCNN1A-7356 + AGGACACUGUGGACACAGAC 20 11205SCNN1A-7357 + CAGGACACUGUGGACACAGAC 21 11206 SCNN1A-7358 +GCAGGACACUGUGGACACAGAC 22 11207 SCNN1A-7359 + CGCAGGACACUGUGGACACAGAC 2311208 SCNN1A-7360 + ACGCAGGACACUGUGGACACAGAC 24 11209 SCNN1A-7361 +CUCCAACCUUGUCCAGAC 18 11210 SCNN1A-7362 + CCUCCAACCUUGUCCAGAC 19 11211SCNN1A-7363 + CCCUCCAACCUUGUCCAGAC 20 11212 SCNN1A-7364 +CCCCUCCAACCUUGUCCAGAC 21 11213 SCNN1A-7365 + CCCCCUCCAACCUUGUCCAGAC 2211214 SCNN1A-7366 + ACCCCCUCCAACCUUGUCCAGAC 23 11215 SCNN1A-7367 +CACCCCCUCCAACCUUGUCCAGAC 24 11216 SCNN1A-7368 + AAAAGGGCUGGAGGAGAC 1811217 SCNN1A-7369 + AAAAAGGGCUGGAGGAGAC 19 11218 SCNN1A-7370 +CAAAAAGGGCUGGAGGAGAC 20 11219 SCNN1A-7371 + CCAAAAAGGGCUGGAGGAGAC 2111220 SCNN1A-7372 + CCCAAAAAGGGCUGGAGGAGAC 22 11221 SCNN1A-7373 +ACCCAAAAAGGGCUGGAGGAGAC 23 11222 SCNN1A-7374 + GACCCAAAAAGGGCUGGAGGAGAC24 11223 SCNN1A-7375 + GUGGGGAACCGGGAGGAC 18 11224 SCNN1A-7376 +GGUGGGGAACCGGGAGGAC 19 11225 SCNN1A-5209 + GGGUGGGGAACCGGGAGGAC 20 9058SCNN1A-7377 + UGGGUGGGGAACCGGGAGGAC 21 11226 SCNN1A-7378 +CUGGGUGGGGAACCGGGAGGAC 22 11227 SCNN1A-7379 + CCUGGGUGGGGAACCGGGAGGAC 2311228 SCNN1A-7380 + GCCUGGGUGGGGAACCGGGAGGAC 24 11229 SCNN1A-7381 +GAACUGGGAGUACUGGAC 18 11230 SCNN1A-7382 + UGAACUGGGAGUACUGGAC 19 11231SCNN1A-7383 + GUGAACUGGGAGUACUGGAC 20 11232 SCNN1A-7384 +GGUGAACUGGGAGUACUGGAC 21 11233 SCNN1A-7385 + AGGUGAACUGGGAGUACUGGAC 2211234 SCNN1A-7386 + CAGGUGAACUGGGAGUACUGGAC 23 11235 SCNN1A-7387 +GCAGGUGAACUGGGAGUACUGGAC 24 11236 SCNN1A-7388 + CCCAGGUUGCGGCUGGAC 1811237 SCNN1A-7389 + UCCCAGGUUGCGGCUGGAC 19 11238 SCNN1A-5565 +CUCCCAGGUUGCGGCUGGAC 20 9414 SCNN1A-7390 + ACUCCCAGGUUGCGGCUGGAC 2111239 SCNN1A-7391 + CACUCCCAGGUUGCGGCUGGAC 22 11240 SCNN1A-7392 +CCACUCCCAGGUUGCGGCUGGAC 23 11241 SCNN1A-7393 + CCCACUCCCAGGUUGCGGCUGGAC24 11242 SCNN1A-7394 + GGGCCUGGGUGGGGAACC 18 11243 SCNN1A-7395 +AGGGCCUGGGUGGGGAACC 19 11244 SCNN1A-5214 + GAGGGCCUGGGUGGGGAACC 20 9063SCNN1A-7396 + AGAGGGCCUGGGUGGGGAACC 21 11245 SCNN1A-7397 +GAGAGGGCCUGGGUGGGGAACC 22 11246 SCNN1A-7398 + UGAGAGGGCCUGGGUGGGGAACC 2311247 SCNN1A-7399 + CUGAGAGGGCCUGGGUGGGGAACC 24 11248 SCNN1A-7400 +UGAGCAUUGAUACACACC 18 11249 SCNN1A-7401 + CUGAGCAUUGAUACACACC 19 11250SCNN1A-5568 + CCUGAGCAUUGAUACACACC 20 9417 SCNN1A-7402 +GCCUGAGCAUUGAUACACACC 21 11251 SCNN1A-7403 + AGCCUGAGCAUUGAUACACACC 2211252 SCNN1A-7404 + CAGCCUGAGCAUUGAUACACACC 23 11253 SCNN1A-7405 +CCAGCCUGAGCAUUGAUACACACC 24 11254 SCNN1A-7406 + ACACUGUGGACACAGACC 1811255 SCNN1A-7407 + GACACUGUGGACACAGACC 19 11256 SCNN1A-5217 +GGACACUGUGGACACAGACC 20 9066 SCNN1A-7408 + AGGACACUGUGGACACAGACC 2111257 SCNN1A-7409 + CAGGACACUGUGGACACAGACC 22 11258 SCNN1A-7410 +GCAGGACACUGUGGACACAGACC 23 11259 SCNN1A-7411 + CGCAGGACACUGUGGACACAGACC24 11260 SCNN1A-7412 + UCCAACCUUGUCCAGACC 18 11261 SCNN1A-7413 +CUCCAACCUUGUCCAGACC 19 11262 SCNN1A-5569 + CCUCCAACCUUGUCCAGACC 20 9418SCNN1A-7414 + CCCUCCAACCUUGUCCAGACC 21 11263 SCNN1A-7415 +CCCCUCCAACCUUGUCCAGACC 22 11264 SCNN1A-7416 + CCCCCUCCAACCUUGUCCAGACC 2311265 SCNN1A-7417 + ACCCCCUCCAACCUUGUCCAGACC 24 11266 SCNN1A-7418 +CAGCCUCUGGCCCUGACC 18 11267 SCNN1A-7419 + CCAGCCUCUGGCCCUGACC 19 11268SCNN1A-7420 + UCCAGCCUCUGGCCCUGACC 20 11269 SCNN1A-7421 +CUCCAGCCUCUGGCCCUGACC 21 11270 SCNN1A-7422 + GCUCCAGCCUCUGGCCCUGACC 2211271 SCNN1A-7423 + AGCUCCAGCCUCUGGCCCUGACC 23 11272 SCNN1A-7424 +CAGCUCCAGCCUCUGGCCCUGACC 24 11273 SCNN1A-1484 + UGCCCUCUCCCAUCACCC 185333 SCNN1A-1485 + GUGCCCUCUCCCAUCACCC 19 5334 SCNN1A-1486 +AGUGCCCUCUCCCAUCACCC 20 5335 SCNN1A-1487 + GAGUGCCCUCUCCCAUCACCC 21 5336SCNN1A-1488 + UGAGUGCCCUCUCCCAUCACCC 22 5337 SCNN1A-1489 +CUGAGUGCCCUCUCCCAUCACCC 23 5338 SCNN1A-1490 + CCUGAGUGCCCUCUCCCAUCACCC24 5339 SCNN1A-7425 + CCAACCUUGUCCAGACCC 18 11274 SCNN1A-7426 +UCCAACCUUGUCCAGACCC 19 11275 SCNN1A-5572 + CUCCAACCUUGUCCAGACCC 20 9421SCNN1A-7427 + CCUCCAACCUUGUCCAGACCC 21 11276 SCNN1A-7428 +CCCUCCAACCUUGUCCAGACCC 22 11277 SCNN1A-7429 + CCCCUCCAACCUUGUCCAGACCC 2311278 SCNN1A-7430 + CCCCCUCCAACCUUGUCCAGACCC 24 11279 SCNN1A-1491 +GCCCUCUCCCAUCACCCC 18 5340 SCNN1A-1492 + UGCCCUCUCCCAUCACCCC 19 5341SCNN1A-346 + GUGCCCUCUCCCAUCACCCC 20 4195 SCNN1A-1493 +AGUGCCCUCUCCCAUCACCCC 21 5342 SCNN1A-1494 + GAGUGCCCUCUCCCAUCACCCC 225343 SCNN1A-1495 + UGAGUGCCCUCUCCCAUCACCCC 23 5344 SCNN1A-1496 +CUGAGUGCCCUCUCCCAUCACCCC 24 5345 SCNN1A-7431 + ACAUAUCCCAGAGACCCC 1811280 SCNN1A-7432 + CACAUAUCCCAGAGACCCC 19 11281 SCNN1A-7433 +CCACAUAUCCCAGAGACCCC 20 11282 SCNN1A-7434 + CCCACAUAUCCCAGAGACCCC 2111283 SCNN1A-7435 + CCCCACAUAUCCCAGAGACCCC 22 11284 SCNN1A-7436 +GCCCCACAUAUCCCAGAGACCCC 23 11285 SCNN1A-7437 + UGCCCCACAUAUCCCAGAGACCCC24 11286 SCNN1A-1497 + UGCUCAUGAUACCUCCCC 18 5346 SCNN1A-1498 +CUGCUCAUGAUACCUCCCC 19 5347 SCNN1A-1499 + ACUGCUCAUGAUACCUCCCC 20 5348SCNN1A-1500 + UACUGCUCAUGAUACCUCCCC 21 5349 SCNN1A-1501 +AUACUGCUCAUGAUACCUCCCC 22 5350 SCNN1A-1502 + GAUACUGCUCAUGAUACCUCCCC 235351 SCNN1A-1503 + UGAUACUGCUCAUGAUACCUCCCC 24 5352 SCNN1A-7438 +GACACAGACCCGGAGCCC 18 11287 SCNN1A-7439 + GGACACAGACCCGGAGCCC 19 11288SCNN1A-5575 + UGGACACAGACCCGGAGCCC 20 9424 SCNN1A-7440 +GUGGACACAGACCCGGAGCCC 21 11289 SCNN1A-7441 + UGUGGACACAGACCCGGAGCCC 2211290 SCNN1A-7442 + CUGUGGACACAGACCCGGAGCCC 23 11291 SCNN1A-7443 +ACUGUGGACACAGACCCGGAGCCC 24 11292 SCNN1A-7444 + ACACGCCUAGACAGGCCC 1811293 SCNN1A-7445 + CACACGCCUAGACAGGCCC 19 11294 SCNN1A-5219 +GCACACGCCUAGACAGGCCC 20 9068 SCNN1A-7446 + GGCACACGCCUAGACAGGCCC 2111295 SCNN1A-7447 + UGGCACACGCCUAGACAGGCCC 22 11296 SCNN1A-7448 +AUGGCACACGCCUAGACAGGCCC 23 11297 SCNN1A-7449 + CAUGGCACACGCCUAGACAGGCCC24 11298 SCNN1A-7450 + GGGGGCUAGGCGGGGCCC 18 11299 SCNN1A-7451 +UGGGGGCUAGGCGGGGCCC 19 11300 SCNN1A-7452 + CUGGGGGCUAGGCGGGGCCC 20 11301SCNN1A-7453 + GCUGGGGGCUAGGCGGGGCCC 21 11302 SCNN1A-7454 +AGCUGGGGGCUAGGCGGGGCCC 22 11303 SCNN1A-7455 + AAGCUGGGGGCUAGGCGGGGCCC 2311304 SCNN1A-7456 + GAAGCUGGGGGCUAGGCGGGGCCC 24 11305 SCNN1A-7457 +CUGAUUCUGUCUCUGCCC 18 11306 SCNN1A-7458 + CCUGAUUCUGUCUCUGCCC 19 11307SCNN1A-7459 + UCCUGAUUCUGUCUCUGCCC 20 11308 SCNN1A-7460 +GUCCUGAUUCUGUCUCUGCCC 21 11309 SCNN1A-7461 + UGUCCUGAUUCUGUCUCUGCCC 2211310 SCNN1A-7462 + GUGUCCUGAUUCUGUCUCUGCCC 23 11311 SCNN1A-7463 +UGUGUCCUGAUUCUGUCUCUGCCC 24 11312 SCNN1A-7464 + GAAGGAAGGAGGGCUCCC 1811313 SCNN1A-7465 + CGAAGGAAGGAGGGCUCCC 19 11314 SCNN1A-7466 +CCGAAGGAAGGAGGGCUCCC 20 11315 SCNN1A-7467 + UCCGAAGGAAGGAGGGCUCCC 2111316 SCNN1A-7468 + UUCCGAAGGAAGGAGGGCUCCC 22 11317 SCNN1A-7469 +UUUCCGAAGGAAGGAGGGCUCCC 23 11318 SCNN1A-7470 + UUUUCCGAAGGAAGGAGGGCUCCC24 11319 SCNN1A-7471 + UAGAAACUCCAGUCUCCC 18 11320 SCNN1A-7472 +CUAGAAACUCCAGUCUCCC 19 11321 SCNN1A-7473 + CCUAGAAACUCCAGUCUCCC 20 11322SCNN1A-7474 + CCCUAGAAACUCCAGUCUCCC 21 11323 SCNN1A-7475 +CCCCUAGAAACUCCAGUCUCCC 22 11324 SCNN1A-7476 + ACCCCUAGAAACUCCAGUCUCCC 2311325 SCNN1A-7477 + GACCCCUAGAAACUCCAGUCUCCC 24 11326 SCNN1A-7478 +GCCGGAGCUGGGCUUCCC 18 11327 SCNN1A-7479 + UGCCGGAGCUGGGCUUCCC 19 11328SCNN1A-7480 + GUGCCGGAGCUGGGCUUCCC 20 11329 SCNN1A-7481 +AGUGCCGGAGCUGGGCUUCCC 21 11330 SCNN1A-7482 + AAGUGCCGGAGCUGGGCUUCCC 2211331 SCNN1A-7483 + AAAGUGCCGGAGCUGGGCUUCCC 23 11332 SCNN1A-7484 +AAAAGUGCCGGAGCUGGGCUUCCC 24 11333 SCNN1A-7485 + CACCUGGAUGUGAAAGCC 1811334 SCNN1A-7486 + GCACCUGGAUGUGAAAGCC 19 11335 SCNN1A-6107 +UGCACCUGGAUGUGAAAGCC 20 9956 SCNN1A-7487 + GUGCACCUGGAUGUGAAAGCC 2111336 SCNN1A-7488 + GGUGCACCUGGAUGUGAAAGCC 22 11337 SCNN1A-7489 +AGGUGCACCUGGAUGUGAAAGCC 23 11338 SCNN1A-7490 + CAGGUGCACCUGGAUGUGAAAGCC24 11339 SCNN1A-7491 + AGAUAAGACAUAAGAGCC 18 11340 SCNN1A-7492 +GAGAUAAGACAUAAGAGCC 19 11341 SCNN1A-7493 + AGAGAUAAGACAUAAGAGCC 20 11342SCNN1A-7494 + CAGAGAUAAGACAUAAGAGCC 21 11343 SCNN1A-7495 +UCAGAGAUAAGACAUAAGAGCC 22 11344 SCNN1A-7496 + CUCAGAGAUAAGACAUAAGAGCC 2311345 SCNN1A-7497 + UCUCAGAGAUAAGACAUAAGAGCC 24 11346 SCNN1A-7498 +GGACACAGACCCGGAGCC 18 11347 SCNN1A-7499 + UGGACACAGACCCGGAGCC 19 11348SCNN1A-7500 + GUGGACACAGACCCGGAGCC 20 11349 SCNN1A-7501 +UGUGGACACAGACCCGGAGCC 21 11350 SCNN1A-7502 + CUGUGGACACAGACCCGGAGCC 2211351 SCNN1A-7503 + ACUGUGGACACAGACCCGGAGCC 23 11352 SCNN1A-7504 +CACUGUGGACACAGACCCGGAGCC 24 11353 SCNN1A-7505 + CCAAGGGCUAGGGGAGCC 1811354 SCNN1A-7506 + GCCAAGGGCUAGGGGAGCC 19 11355 SCNN1A-7507 +AGCCAAGGGCUAGGGGAGCC 20 11356 SCNN1A-7508 + GAGCCAAGGGCUAGGGGAGCC 2111357 SCNN1A-7509 + AGAGCCAAGGGCUAGGGGAGCC 22 11358 SCNN1A-7510 +AAGAGCCAAGGGCUAGGGGAGCC 23 11359 SCNN1A-7511 + UAAGAGCCAAGGGCUAGGGGAGCC24 11360 SCNN1A-1504 + UGUUCCCCUUCAUGAGCC 18 5353 SCNN1A-1505 +UUGUUCCCCUUCAUGAGCC 19 5354 SCNN1A-207 + CUUGUUCCCCUUCAUGAGCC 20 834SCNN1A-1506 + GCUUGUUCCCCUUCAUGAGCC 21 5355 SCNN1A-1507 +AGCUUGUUCCCCUUCAUGAGCC 22 5356 SCNN1A-1508 + CAGCUUGUUCCCCUUCAUGAGCC 235357 SCNN1A-1509 + CCAGCUUGUUCCCCUUCAUGAGCC 24 5358 SCNN1A-7512 +CACACGCCUAGACAGGCC 18 11361 SCNN1A-7513 + GCACACGCCUAGACAGGCC 19 11362SCNN1A-7514 + GGCACACGCCUAGACAGGCC 20 11363 SCNN1A-7515 +UGGCACACGCCUAGACAGGCC 21 11364 SCNN1A-7516 + AUGGCACACGCCUAGACAGGCC 2211365 SCNN1A-7517 + CAUGGCACACGCCUAGACAGGCC 23 11366 SCNN1A-7518 +GCAUGGCACACGCCUAGACAGGCC 24 11367 SCNN1A-7519 + CCACUGCCCCACAUAUCC 1811368 SCNN1A-7520 + CCCACUGCCCCACAUAUCC 19 11369 SCNN1A-7521 +CCCCACUGCCCCACAUAUCC 20 11370 SCNN1A-7522 + UCCCCACUGCCCCACAUAUCC 2111371 SCNN1A-7523 + GUCCCCACUGCCCCACAUAUCC 22 11372 SCNN1A-7524 +UGUCCCCACUGCCCCACAUAUCC 23 11373 SCNN1A-7525 + CUGUCCCCACUGCCCCACAUAUCC24 11374 SCNN1A-1525 + UCCAGCUUGUUCCCCUCC 18 5374 SCNN1A-1526 +CUCCAGCUUGUUCCCCUCC 19 5375 SCNN1A-200 + CCUCCAGCUUGUUCCCCUCC 20 829SCNN1A-1527 + UCCUCCAGCUUGUUCCCCUCC 21 5376 SCNN1A-1528 +CUCCUCCAGCUUGUUCCCCUCC 22 5377 SCNN1A-1529 + GCUCCUCCAGCUUGUUCCCCUCC 235378 SCNN1A-1530 + UGCUCCUCCAGCUUGUUCCCCUCC 24 5379 SCNN1A-7526 +GCAAGUGGGCAGCCCUCC 18 11375 SCNN1A-7527 + AGCAAGUGGGCAGCCCUCC 19 11376SCNN1A-7528 + CAGCAAGUGGGCAGCCCUCC 20 11377 SCNN1A-7529 +UCAGCAAGUGGGCAGCCCUCC 21 11378 SCNN1A-7530 + CUCAGCAAGUGGGCAGCCCUCC 2211379 SCNN1A-7531 + GCUCAGCAAGUGGGCAGCCCUCC 23 11380 SCNN1A-7532 +GGCUCAGCAAGUGGGCAGCCCUCC 24 11381 SCNN1A-7533 + CCAGGACUGCAGGGCUCC 1811382 SCNN1A-7534 + CCCAGGACUGCAGGGCUCC 19 11383 SCNN1A-6112 +CCCCAGGACUGCAGGGCUCC 20 9961 SCNN1A-7535 + GCCCCAGGACUGCAGGGCUCC 2111384 SCNN1A-7536 + UGCCCCAGGACUGCAGGGCUCC 22 11385 SCNN1A-7537 +CUGCCCCAGGACUGCAGGGCUCC 23 11386 SCNN1A-7538 + UCUGCCCCAGGACUGCAGGGCUCC24 11387 SCNN1A-7539 + CAAAGGGAGUCUGUCUCC 18 11388 SCNN1A-7540 +CCAAAGGGAGUCUGUCUCC 19 11389 SCNN1A-5596 + ACCAAAGGGAGUCUGUCUCC 20 9445SCNN1A-7541 + CACCAAAGGGAGUCUGUCUCC 21 11390 SCNN1A-7542 +GCACCAAAGGGAGUCUGUCUCC 22 11391 SCNN1A-7543 + AGCACCAAAGGGAGUCUGUCUCC 2311392 SCNN1A-7544 + CAGCACCAAAGGGAGUCUGUCUCC 24 11393 SCNN1A-7545 +AGACUCAGGAAGCCUUCC 18 11394 SCNN1A-7546 + GAGACUCAGGAAGCCUUCC 19 11395SCNN1A-7547 + GGAGACUCAGGAAGCCUUCC 20 11396 SCNN1A-7548 +AGGAGACUCAGGAAGCCUUCC 21 11397 SCNN1A-7549 + CAGGAGACUCAGGAAGCCUUCC 2211398 SCNN1A-7550 + GCAGGAGACUCAGGAAGCCUUCC 23 11399 SCNN1A-7551 +UGCAGGAGACUCAGGAAGCCUUCC 24 11400 SCNN1A-7552 + AGUCCCAAGUGUGCUUCC 1811401 SCNN1A-7553 + GAGUCCCAAGUGUGCUUCC 19 11402 SCNN1A-5226 +GGAGUCCCAAGUGUGCUUCC 20 9075 SCNN1A-7554 + GGGAGUCCCAAGUGUGCUUCC 2111403 SCNN1A-7555 + GGGGAGUCCCAAGUGUGCUUCC 22 11404 SCNN1A-7556 +GGGGGAGUCCCAAGUGUGCUUCC 23 11405 SCNN1A-7557 + GGGGGGAGUCCCAAGUGUGCUUCC24 11406 SCNN1A-7558 + UCCCUCCUCCACCUUUCC 18 11407 SCNN1A-7559 +CUCCCUCCUCCACCUUUCC 19 11408 SCNN1A-6116 + CCUCCCUCCUCCACCUUUCC 20 9965SCNN1A-7560 + CCCUCCCUCCUCCACCUUUCC 21 11409 SCNN1A-7561 +UCCCUCCCUCCUCCACCUUUCC 22 11410 SCNN1A-7562 + CUCCCUCCCUCCUCCACCUUUCC 2311411 SCNN1A-7563 + CCUCCCUCCCUCCUCCACCUUUCC 24 11412 SCNN1A-7564 +GCACCUGGAUGUGAAAGC 18 11413 SCNN1A-7565 + UGCACCUGGAUGUGAAAGC 19 11414SCNN1A-5227 + GUGCACCUGGAUGUGAAAGC 20 9076 SCNN1A-7566 +GGUGCACCUGGAUGUGAAAGC 21 11415 SCNN1A-7567 + AGGUGCACCUGGAUGUGAAAGC 2211416 SCNN1A-7568 + CAGGUGCACCUGGAUGUGAAAGC 23 11417 SCNN1A-7569 +UCAGGUGCACCUGGAUGUGAAAGC 24 11418 SCNN1A-7570 + UGCUGAAUCUUGACAAGC 1811419 SCNN1A-7571 + CUGCUGAAUCUUGACAAGC 19 11420 SCNN1A-7572 +UCUGCUGAAUCUUGACAAGC 20 11421 SCNN1A-7573 + CUCUGCUGAAUCUUGACAAGC 2111422 SCNN1A-7574 + UCUCUGCUGAAUCUUGACAAGC 22 11423 SCNN1A-7575 +AUCUCUGCUGAAUCUUGACAAGC 23 11424 SCNN1A-7576 + CAUCUCUGCUGAAUCUUGACAAGC24 11425 SCNN1A-7577 + GAGGGGCCCAGGUGAAGC 18 11426 SCNN1A-7578 +GGAGGGGCCCAGGUGAAGC 19 11427 SCNN1A-5885 + GGGAGGGGCCCAGGUGAAGC 20 9734SCNN1A-7579 + CGGGAGGGGCCCAGGUGAAGC 21 11428 SCNN1A-7580 +CCGGGAGGGGCCCAGGUGAAGC 22 11429 SCNN1A-7581 + CCCGGGAGGGGCCCAGGUGAAGC 2311430 SCNN1A-7582 + ACCCGGGAGGGGCCCAGGUGAAGC 24 11431 SCNN1A-7583 +GGAUCCUGAGCCCACAGC 18 11432 SCNN1A-7584 + AGGAUCCUGAGCCCACAGC 19 11433SCNN1A-7585 + AAGGAUCCUGAGCCCACAGC 20 11434 SCNN1A-7586 +GAAGGAUCCUGAGCCCACAGC 21 11435 SCNN1A-7587 + AGAAGGAUCCUGAGCCCACAGC 2211436 SCNN1A-7588 + UAGAAGGAUCCUGAGCCCACAGC 23 11437 SCNN1A-7589 +GUAGAAGGAUCCUGAGCCCACAGC 24 11438 SCNN1A-7590 + AGCAGACAAAGGCCCAGC 1811439 SCNN1A-7591 + CAGCAGACAAAGGCCCAGC 19 11440 SCNN1A-7592 +CCAGCAGACAAAGGCCCAGC 20 11441 SCNN1A-7593 + GCCAGCAGACAAAGGCCCAGC 2111442 SCNN1A-7594 + AGCCAGCAGACAAAGGCCCAGC 22 11443 SCNN1A-7595 +AAGCCAGCAGACAAAGGCCCAGC 23 11444 SCNN1A-7596 + CAAGCCAGCAGACAAAGGCCCAGC24 11445 SCNN1A-7597 + UGGGCAACCAGAGGCAGC 18 11446 SCNN1A-7598 +GUGGGCAACCAGAGGCAGC 19 11447 SCNN1A-7599 + UGUGGGCAACCAGAGGCAGC 20 11448SCNN1A-7600 + AUGUGGGCAACCAGAGGCAGC 21 11449 SCNN1A-7601 +AAUGUGGGCAACCAGAGGCAGC 22 11450 SCNN1A-7602 + GAAUGUGGGCAACCAGAGGCAGC 2311451 SCNN1A-7603 + GGAAUGUGGGCAACCAGAGGCAGC 24 11452 SCNN1A-7604 +CUGAGGAGGAGUCAGAGC 18 11453 SCNN1A-7605 + GCUGAGGAGGAGUCAGAGC 19 11454SCNN1A-5886 + GGCUGAGGAGGAGUCAGAGC 20 9735 SCNN1A-7606 +GGGCUGAGGAGGAGUCAGAGC 21 11455 SCNN1A-7607 + GGGGCUGAGGAGGAGUCAGAGC 2211456 SCNN1A-7608 + AGGGGCUGAGGAGGAGUCAGAGC 23 11457 SCNN1A-7609 +GAGGGGCUGAGGAGGAGUCAGAGC 24 11458 SCNN1A-7610 + GUCUCCAGGAAGGAGAGC 1811459 SCNN1A-7611 + UGUCUCCAGGAAGGAGAGC 19 11460 SCNN1A-7612 +CUGUCUCCAGGAAGGAGAGC 20 11461 SCNN1A-7613 + UCUGUCUCCAGGAAGGAGAGC 2111462 SCNN1A-7614 + GUCUGUCUCCAGGAAGGAGAGC 22 11463 SCNN1A-7615 +AGUCUGUCUCCAGGAAGGAGAGC 23 11464 SCNN1A-7616 + GAGUCUGUCUCCAGGAAGGAGAGC24 11465 SCNN1A-7617 + AAGUGUGCUUCCAGGAGC 18 11466 SCNN1A-7618 +CAAGUGUGCUUCCAGGAGC 19 11467 SCNN1A-7619 + CCAAGUGUGCUUCCAGGAGC 20 11468SCNN1A-7620 + CCCAAGUGUGCUUCCAGGAGC 21 11469 SCNN1A-7621 +UCCCAAGUGUGCUUCCAGGAGC 22 11470 SCNN1A-7622 + GUCCCAAGUGUGCUUCCAGGAGC 2311471 SCNN1A-7623 + AGUCCCAAGUGUGCUUCCAGGAGC 24 11472 SCNN1A-7624 +GAGUGCCAAGUGGUGAGC 18 11473 SCNN1A-7625 + GGAGUGCCAAGUGGUGAGC 19 11474SCNN1A-7626 + UGGAGUGCCAAGUGGUGAGC 20 11475 SCNN1A-7627 +GUGGAGUGCCAAGUGGUGAGC 21 11476 SCNN1A-7628 + AGUGGAGUGCCAAGUGGUGAGC 2211477 SCNN1A-7629 + GAGUGGAGUGCCAAGUGGUGAGC 23 11478 SCNN1A-7630 +GGAGUGGAGUGCCAAGUGGUGAGC 24 11479 SCNN1A-7631 + GGAGGAUGUGGCCAGCGC 1811480 SCNN1A-7632 + GGGAGGAUGUGGCCAGCGC 19 11481 SCNN1A-6120 +AGGGAGGAUGUGGCCAGCGC 20 9969 SCNN1A-7633 + CAGGGAGGAUGUGGCCAGCGC 2111482 SCNN1A-7634 + GCAGGGAGGAUGUGGCCAGCGC 22 11483 SCNN1A-7635 +UGCAGGGAGGAUGUGGCCAGCGC 23 11484 SCNN1A-7636 + GUGCAGGGAGGAUGUGGCCAGCGC24 11485 SCNN1A-7637 + GGCAACCAGAGGCAGCGC 18 11486 SCNN1A-7638 +GGGCAACCAGAGGCAGCGC 19 11487 SCNN1A-7639 + UGGGCAACCAGAGGCAGCGC 20 11488SCNN1A-7640 + GUGGGCAACCAGAGGCAGCGC 21 11489 SCNN1A-7641 +UGUGGGCAACCAGAGGCAGCGC 22 11490 SCNN1A-7642 + AUGUGGGCAACCAGAGGCAGCGC 2311491 SCNN1A-7643 + AAUGUGGGCAACCAGAGGCAGCGC 24 11492 SCNN1A-7644 +CUUUAGACGCAGACAGGC 18 11493 SCNN1A-7645 + GCUUUAGACGCAGACAGGC 19 11494SCNN1A-7646 + GGCUUUAGACGCAGACAGGC 20 11495 SCNN1A-7647 +GGGCUUUAGACGCAGACAGGC 21 11496 SCNN1A-7648 + GGGGCUUUAGACGCAGACAGGC 2211497 SCNN1A-7649 + AGGGGCUUUAGACGCAGACAGGC 23 11498 SCNN1A-7650 +CAGGGGCUUUAGACGCAGACAGGC 24 11499 SCNN1A-7651 + CACUGUUGGCUGCCAGGC 1811500 SCNN1A-7652 + ACACUGUUGGCUGCCAGGC 19 11501 SCNN1A-7653 +UACACUGUUGGCUGCCAGGC 20 11502 SCNN1A-7654 + UUACACUGUUGGCUGCCAGGC 2111503 SCNN1A-7655 + UUUACACUGUUGGCUGCCAGGC 22 11504 SCNN1A-7656 +UUUUACACUGUUGGCUGCCAGGC 23 11505 SCNN1A-7657 + UUUUUACACUGUUGGCUGCCAGGC24 11506 SCNN1A-7658 + CGGAGCCCAGGAAGAGGC 18 11507 SCNN1A-7659 +CCGGAGCCCAGGAAGAGGC 19 11508 SCNN1A-6122 + CCCGGAGCCCAGGAAGAGGC 20 9971SCNN1A-7660 + ACCCGGAGCCCAGGAAGAGGC 21 11509 SCNN1A-7661 +GACCCGGAGCCCAGGAAGAGGC 22 11510 SCNN1A-7662 + AGACCCGGAGCCCAGGAAGAGGC 2311511 SCNN1A-7663 + CAGACCCGGAGCCCAGGAAGAGGC 24 11512 SCNN1A-7664 +GCAGACAGGCAAGGAGGC 18 11513 SCNN1A-7665 + CGCAGACAGGCAAGGAGGC 19 11514SCNN1A-5608 + ACGCAGACAGGCAAGGAGGC 20 9457 SCNN1A-7666 +GACGCAGACAGGCAAGGAGGC 21 11515 SCNN1A-7667 + AGACGCAGACAGGCAAGGAGGC 2211516 SCNN1A-7668 + UAGACGCAGACAGGCAAGGAGGC 23 11517 SCNN1A-7669 +UUAGACGCAGACAGGCAAGGAGGC 24 11518 SCNN1A-7670 + GCCCGCCCGCUGGCCGGC 1811519 SCNN1A-7671 + AGCCCGCCCGCUGGCCGGC 19 11520 SCNN1A-7672 +GAGCCCGCCCGCUGGCCGGC 20 11521 SCNN1A-7673 + GGAGCCCGCCCGCUGGCCGGC 2111522 SCNN1A-7674 + GGGAGCCCGCCCGCUGGCCGGC 22 11523 SCNN1A-7675 +GGGGAGCCCGCCCGCUGGCCGGC 23 11524 SCNN1A-7676 + UGGGGAGCCCGCCCGCUGGCCGGC24 11525 SCNN1A-7677 + CCAGGCCCUGCACGCGGC 18 11526 SCNN1A-7678 +CCCAGGCCCUGCACGCGGC 19 11527 SCNN1A-5609 + ACCCAGGCCCUGCACGCGGC 20 9458SCNN1A-7679 + AACCCAGGCCCUGCACGCGGC 21 11528 SCNN1A-7680 +CAACCCAGGCCCUGCACGCGGC 22 11529 SCNN1A-7681 + ACAACCCAGGCCCUGCACGCGGC 2311530 SCNN1A-7682 + CACAACCCAGGCCCUGCACGCGGC 24 11531 SCNN1A-7683 +AUCAGACCCAAAAAGGGC 18 11532 SCNN1A-7684 + AAUCAGACCCAAAAAGGGC 19 11533SCNN1A-5232 + GAAUCAGACCCAAAAAGGGC 20 9081 SCNN1A-7685 +AGAAUCAGACCCAAAAAGGGC 21 11534 SCNN1A-7686 + GAGAAUCAGACCCAAAAAGGGC 2211535 SCNN1A-7687 + AGAGAAUCAGACCCAAAAAGGGC 23 11536 SCNN1A-7688 +CAGAGAAUCAGACCCAAAAAGGGC 24 11537 SCNN1A-7689 + GACAUAAGAGCCAAGGGC 1811538 SCNN1A-7690 + AGACAUAAGAGCCAAGGGC 19 11539 SCNN1A-7691 +AAGACAUAAGAGCCAAGGGC 20 11540 SCNN1A-7692 + UAAGACAUAAGAGCCAAGGGC 2111541 SCNN1A-7693 + AUAAGACAUAAGAGCCAAGGGC 22 11542 SCNN1A-7694 +GAUAAGACAUAAGAGCCAAGGGC 23 11543 SCNN1A-7695 + AGAUAAGACAUAAGAGCCAAGGGC24 11544 SCNN1A-7696 + AUUAAAGGUGAGCAGGGC 18 11545 SCNN1A-7697 +AAUUAAAGGUGAGCAGGGC 19 11546 SCNN1A-5611 + CAAUUAAAGGUGAGCAGGGC 20 9460SCNN1A-7698 + UCAAUUAAAGGUGAGCAGGGC 21 11547 SCNN1A-7699 +CUCAAUUAAAGGUGAGCAGGGC 22 11548 SCNN1A-7700 + UCUCAAUUAAAGGUGAGCAGGGC 2311549 SCNN1A-7701 + AUCUCAAUUAAAGGUGAGCAGGGC 24 11550 SCNN1A-7702 +AGAAGGCGGACUCUGGGC 18 11551 SCNN1A-7703 + GAGAAGGCGGACUCUGGGC 19 11552SCNN1A-5613 + UGAGAAGGCGGACUCUGGGC 20 9462 SCNN1A-7704 +CUGAGAAGGCGGACUCUGGGC 21 11553 SCNN1A-7705 + CCUGAGAAGGCGGACUCUGGGC 2211554 SCNN1A-7706 + ACCUGAGAAGGCGGACUCUGGGC 23 11555 SCNN1A-7707 +GACCUGAGAAGGCGGACUCUGGGC 24 11556 SCNN1A-7708 + CAGGUGCAGCGGCCUGGC 1811557 SCNN1A-7709 + ACAGGUGCAGCGGCCUGGC 19 11558 SCNN1A-5234 +GACAGGUGCAGCGGCCUGGC 20 9083 SCNN1A-7710 + UGACAGGUGCAGCGGCCUGGC 2111559 SCNN1A-7711 + CUGACAGGUGCAGCGGCCUGGC 22 11560 SCNN1A-7712 +CCUGACAGGUGCAGCGGCCUGGC 23 11561 SCNN1A-7713 + ACCUGACAGGUGCAGCGGCCUGGC24 11562 SCNN1A-7714 + CUAUUUGCCAGCUCAUGC 18 11563 SCNN1A-7715 +UCUAUUUGCCAGCUCAUGC 19 11564 SCNN1A-7716 + UUCUAUUUGCCAGCUCAUGC 20 11565SCNN1A-7717 + UUUCUAUUUGCCAGCUCAUGC 21 11566 SCNN1A-7718 +UUUUCUAUUUGCCAGCUCAUGC 22 11567 SCNN1A-7719 + CUUUUCUAUUUGCCAGCUCAUGC 2311568 SCNN1A-7720 + CCUUUUCUAUUUGCCAGCUCAUGC 24 11569 SCNN1A-7721 +AGCCUAGGGGCUCACUGC 18 11570 SCNN1A-7722 + GAGCCUAGGGGCUCACUGC 19 11571SCNN1A-5235 + GGAGCCUAGGGGCUCACUGC 20 9084 SCNN1A-7723 +GGGAGCCUAGGGGCUCACUGC 21 11572 SCNN1A-7724 + GGGGAGCCUAGGGGCUCACUGC 2211573 SCNN1A-7725 + AGGGGAGCCUAGGGGCUCACUGC 23 11574 SCNN1A-7726 +UAGGGGAGCCUAGGGGCUCACUGC 24 11575 SCNN1A-7727 + AGUUGGGGCCAAAAGUGC 1811576 SCNN1A-7728 + GAGUUGGGGCCAAAAGUGC 19 11577 SCNN1A-5236 +GGAGUUGGGGCCAAAAGUGC 20 9085 SCNN1A-7729 + GGGAGUUGGGGCCAAAAGUGC 2111578 SCNN1A-7730 + CGGGAGUUGGGGCCAAAAGUGC 22 11579 SCNN1A-7731 +GCGGGAGUUGGGGCCAAAAGUGC 23 11580 SCNN1A-7732 + UGCGGGAGUUGGGGCCAAAAGUGC24 11581 SCNN1A-7733 + AGCAGGCACUGAAGGUGC 18 11582 SCNN1A-7734 +AAGCAGGCACUGAAGGUGC 19 11583 SCNN1A-5620 + AAAGCAGGCACUGAAGGUGC 20 9469SCNN1A-7735 + GAAAGCAGGCACUGAAGGUGC 21 11584 SCNN1A-7736 +GGAAAGCAGGCACUGAAGGUGC 22 11585 SCNN1A-7737 + GGGAAAGCAGGCACUGAAGGUGC 2311586 SCNN1A-7738 + AGGGAAAGCAGGCACUGAAGGUGC 24 11587 SCNN1A-7739 +UGAACAAGUAGAAGGAUC 18 11588 SCNN1A-7740 + CUGAACAAGUAGAAGGAUC 19 11589SCNN1A-7741 + UCUGAACAAGUAGAAGGAUC 20 11590 SCNN1A-7742 +AUCUGAACAAGUAGAAGGAUC 21 11591 SCNN1A-7743 + GAUCUGAACAAGUAGAAGGAUC 2211592 SCNN1A-7744 + AGAUCUGAACAAGUAGAAGGAUC 23 11593 SCNN1A-7745 +AAGAUCUGAACAAGUAGAAGGAUC 24 11594 SCNN1A-7746 + GCAAAUAGUUUUCAUAUC 1811595 SCNN1A-7747 + GGCAAAUAGUUUUCAUAUC 19 11596 SCNN1A-7748 +UGGCAAAUAGUUUUCAUAUC 20 11597 SCNN1A-7749 + AUGGCAAAUAGUUUUCAUAUC 2111598 SCNN1A-7750 + CAUGGCAAAUAGUUUUCAUAUC 22 11599 SCNN1A-7751 +GCAUGGCAAAUAGUUUUCAUAUC 23 11600 SCNN1A-7752 + AGCAUGGCAAAUAGUUUUCAUAUC24 11601 SCNN1A-7753 + ACUUCCUGAGACAGACUC 18 11602 SCNN1A-7754 +UACUUCCUGAGACAGACUC 19 11603 SCNN1A-7755 + UUACUUCCUGAGACAGACUC 20 11604SCNN1A-7756 + UUUACUUCCUGAGACAGACUC 21 11605 SCNN1A-7757 +AUUUACUUCCUGAGACAGACUC 22 11606 SCNN1A-7758 + CAUUUACUUCCUGAGACAGACUC 2311607 SCNN1A-7759 + CCAUUUACUUCCUGAGACAGACUC 24 11608 SCNN1A-7760 +GCUCACUGCAGGAGACUC 18 11609 SCNN1A-7761 + GGCUCACUGCAGGAGACUC 19 11610SCNN1A-5239 + GGGCUCACUGCAGGAGACUC 20 9088 SCNN1A-7762 +GGGGCUCACUGCAGGAGACUC 21 11611 SCNN1A-7763 + AGGGGCUCACUGCAGGAGACUC 2211612 SCNN1A-7764 + UAGGGGCUCACUGCAGGAGACUC 23 11613 SCNN1A-7765 +CUAGGGGCUCACUGCAGGAGACUC 24 11614 SCNN1A-7766 + AAGGGCUGGAGGAGACUC 1811615 SCNN1A-7767 + AAAGGGCUGGAGGAGACUC 19 11616 SCNN1A-5628 +AAAAGGGCUGGAGGAGACUC 20 9477 SCNN1A-7768 + AAAAAGGGCUGGAGGAGACUC 2111617 SCNN1A-7769 + CAAAAAGGGCUGGAGGAGACUC 22 11618 SCNN1A-7770 +CCAAAAAGGGCUGGAGGAGACUC 23 11619 SCNN1A-7771 + CCCAAAAAGGGCUGGAGGAGACUC24 11620 SCNN1A-7772 + AGAAUUCUCCUCCUCCUC 18 11621 SCNN1A-7773 +CAGAAUUCUCCUCCUCCUC 19 11622 SCNN1A-6134 + UCAGAAUUCUCCUCCUCCUC 20 9983SCNN1A-7774 + UUCAGAAUUCUCCUCCUCCUC 21 11623 SCNN1A-7775 +AUUCAGAAUUCUCCUCCUCCUC 22 11624 SCNN1A-7776 + AAUUCAGAAUUCUCCUCCUCCUC 2311625 SCNN1A-7777 + GAAUUCAGAAUUCUCCUCCUCCUC 24 11626 SCNN1A-7778 +GAAGGCUGCCGCUUCCUC 18 11627 SCNN1A-7779 + GGAAGGCUGCCGCUUCCUC 19 11628SCNN1A-7780 + GGGAAGGCUGCCGCUUCCUC 20 11629 SCNN1A-7781 +AGGGAAGGCUGCCGCUUCCUC 21 11630 SCNN1A-7782 + CAGGGAAGGCUGCCGCUUCCUC 2211631 SCNN1A-7783 + GCAGGGAAGGCUGCCGCUUCCUC 23 11632 SCNN1A-7784 +GGCAGGGAAGGCUGCCGCUUCCUC 24 11633 SCNN1A-7785 + CCCAGGACUGCAGGGCUC 1811634 SCNN1A-7786 + CCCCAGGACUGCAGGGCUC 19 11635 SCNN1A-7787 +GCCCCAGGACUGCAGGGCUC 20 11636 SCNN1A-7788 + UGCCCCAGGACUGCAGGGCUC 2111637 SCNN1A-7789 + CUGCCCCAGGACUGCAGGGCUC 22 11638 SCNN1A-7790 +UCUGCCCCAGGACUGCAGGGCUC 23 11639 SCNN1A-7791 + CUCUGCCCCAGGACUGCAGGGCUC24 11640 SCNN1A-7792 + CCGAAGGAAGGAGGGCUC 18 11641 SCNN1A-7793 +UCCGAAGGAAGGAGGGCUC 19 11642 SCNN1A-7794 + UUCCGAAGGAAGGAGGGCUC 20 11643SCNN1A-7795 + UUUCCGAAGGAAGGAGGGCUC 21 11644 SCNN1A-7796 +UUUUCCGAAGGAAGGAGGGCUC 22 11645 SCNN1A-7797 + GUUUUCCGAAGGAAGGAGGGCUC 2311646 SCNN1A-7798 + AGUUUUCCGAAGGAAGGAGGGCUC 24 11647 SCNN1A-7799 +CCAAAGGGAGUCUGUCUC 18 11648 SCNN1A-7800 + ACCAAAGGGAGUCUGUCUC 19 11649SCNN1A-7801 + CACCAAAGGGAGUCUGUCUC 20 11650 SCNN1A-7802 +GCACCAAAGGGAGUCUGUCUC 21 11651 SCNN1A-7803 + AGCACCAAAGGGAGUCUGUCUC 2211652 SCNN1A-7804 + CAGCACCAAAGGGAGUCUGUCUC 23 11653 SCNN1A-7805 +CCAGCACCAAAGGGAGUCUGUCUC 24 11654 SCNN1A-7806 + GCUUUUGCCAUUUACUUC 1811655 SCNN1A-7807 + CGCUUUUGCCAUUUACUUC 19 11656 SCNN1A-7808 +GCGCUUUUGCCAUUUACUUC 20 11657 SCNN1A-7809 + AGCGCUUUUGCCAUUUACUUC 2111658 SCNN1A-7810 + UAGCGCUUUUGCCAUUUACUUC 22 11659 SCNN1A-7811 +UUAGCGCUUUUGCCAUUUACUUC 23 11660 SCNN1A-7812 + CUUAGCGCUUUUGCCAUUUACUUC24 11661 SCNN1A-1549 + UCCAGCUUGUUCCCCUUC 18 5398 SCNN1A-1550 +CUCCAGCUUGUUCCCCUUC 19 5399 SCNN1A-1551 + CCUCCAGCUUGUUCCCCUUC 20 5400SCNN1A-1552 + UCCUCCAGCUUGUUCCCCUUC 21 5401 SCNN1A-1553 +CUCCUCCAGCUUGUUCCCCUUC 22 5402 SCNN1A-1554 + GCUCCUCCAGCUUGUUCCCCUUC 235403 SCNN1A-1555 + UGCUCCUCCAGCUUGUUCCCCUUC 24 5404 SCNN1A-7813 +GAGUCCCAAGUGUGCUUC 18 11662 SCNN1A-7814 + GGAGUCCCAAGUGUGCUUC 19 11663SCNN1A-7815 + GGGAGUCCCAAGUGUGCUUC 20 11664 SCNN1A-7816 +GGGGAGUCCCAAGUGUGCUUC 21 11665 SCNN1A-7817 + GGGGGAGUCCCAAGUGUGCUUC 2211666 SCNN1A-7818 + GGGGGGAGUCCCAAGUGUGCUUC 23 11667 SCNN1A-7819 +AGGGGGGAGUCCCAAGUGUGCUUC 24 11668 SCNN1A-7820 + CUCCCUCCUCCACCUUUC 1811669 SCNN1A-7821 + CCUCCCUCCUCCACCUUUC 19 11670 SCNN1A-7822 +CCCUCCCUCCUCCACCUUUC 20 11671 SCNN1A-7823 + UCCCUCCCUCCUCCACCUUUC 2111672 SCNN1A-7824 + CUCCCUCCCUCCUCCACCUUUC 22 11673 SCNN1A-7825 +CCUCCCUCCCUCCUCCACCUUUC 23 11674 SCNN1A-7826 + UCCUCCCUCCCUCCUCCACCUUUC24 11675 SCNN1A-7827 + GGAGUUUAGCAGGCAAAG 18 11676 SCNN1A-7828 +AGGAGUUUAGCAGGCAAAG 19 11677 SCNN1A-7829 + AAGGAGUUUAGCAGGCAAAG 20 11678SCNN1A-7830 + CAAGGAGUUUAGCAGGCAAAG 21 11679 SCNN1A-7831 +GCAAGGAGUUUAGCAGGCAAAG 22 11680 SCNN1A-7832 + AGCAAGGAGUUUAGCAGGCAAAG 2311681 SCNN1A-7833 + AAGCAAGGAGUUUAGCAGGCAAAG 24 11682 SCNN1A-7834 +GGACAGGAGGGCAGAAAG 18 11683 SCNN1A-7835 + AGGACAGGAGGGCAGAAAG 19 11684SCNN1A-5894 + GAGGACAGGAGGGCAGAAAG 20 9743 SCNN1A-7836 +GGAGGACAGGAGGGCAGAAAG 21 11685 SCNN1A-7837 + GGGAGGACAGGAGGGCAGAAAG 2211686 SCNN1A-7838 + CGGGAGGACAGGAGGGCAGAAAG 23 11687 SCNN1A-7839 +CCGGGAGGACAGGAGGGCAGAAAG 24 11688 SCNN1A-7840 + UGCACCUGGAUGUGAAAG 1811689 SCNN1A-7841 + GUGCACCUGGAUGUGAAAG 19 11690 SCNN1A-7842 +GGUGCACCUGGAUGUGAAAG 20 11691 SCNN1A-7843 + AGGUGCACCUGGAUGUGAAAG 2111692 SCNN1A-7844 + CAGGUGCACCUGGAUGUGAAAG 22 11693 SCNN1A-7845 +UCAGGUGCACCUGGAUGUGAAAG 23 11694 SCNN1A-7846 + CUCAGGUGCACCUGGAUGUGAAAG24 11695 SCNN1A-7847 + UUAGCAUCUCAAUUAAAG 18 11696 SCNN1A-7848 +AUUAGCAUCUCAAUUAAAG 19 11697 SCNN1A-7849 + CAUUAGCAUCUCAAUUAAAG 20 11698SCNN1A-7850 + UCAUUAGCAUCUCAAUUAAAG 21 11699 SCNN1A-7851 +CUCAUUAGCAUCUCAAUUAAAG 22 11700 SCNN1A-7852 + UCUCAUUAGCAUCUCAAUUAAAG 2311701 SCNN1A-7853 + AUCUCAUUAGCAUCUCAAUUAAAG 24 11702 SCNN1A-7854 +GGCAAAGAUCUGAACAAG 18 11703 SCNN1A-7855 + GGGCAAAGAUCUGAACAAG 19 11704SCNN1A-7856 + GGGGCAAAGAUCUGAACAAG 20 11705 SCNN1A-7857 +AGGGGCAAAGAUCUGAACAAG 21 11706 SCNN1A-7858 + GAGGGGCAAAGAUCUGAACAAG 2211707 SCNN1A-7859 + UGAGGGGCAAAGAUCUGAACAAG 23 11708 SCNN1A-7860 +GUGAGGGGCAAAGAUCUGAACAAG 24 11709 SCNN1A-7861 + CUAGGAGGGCAACACAAG 1811710 SCNN1A-7862 + GCUAGGAGGGCAACACAAG 19 11711 SCNN1A-7863 +AGCUAGGAGGGCAACACAAG 20 11712 SCNN1A-7864 + CAGCUAGGAGGGCAACACAAG 2111713 SCNN1A-7865 + ACAGCUAGGAGGGCAACACAAG 22 11714 SCNN1A-7866 +CACAGCUAGGAGGGCAACACAAG 23 11715 SCNN1A-7867 + CCACAGCUAGGAGGGCAACACAAG24 11716 SCNN1A-7868 + UCCAGGAAGGAGAGCAAG 18 11717 SCNN1A-7869 +CUCCAGGAAGGAGAGCAAG 19 11718 SCNN1A-6140 + UCUCCAGGAAGGAGAGCAAG 20 9989SCNN1A-7870 + GUCUCCAGGAAGGAGAGCAAG 21 11719 SCNN1A-7871 +UGUCUCCAGGAAGGAGAGCAAG 22 11720 SCNN1A-7872 + CUGUCUCCAGGAAGGAGAGCAAG 2311721 SCNN1A-7873 + UCUGUCUCCAGGAAGGAGAGCAAG 24 11722 SCNN1A-7874 +UGCCAAGUGGUGAGCAAG 18 11723 SCNN1A-7875 + GUGCCAAGUGGUGAGCAAG 19 11724SCNN1A-7876 + AGUGCCAAGUGGUGAGCAAG 20 11725 SCNN1A-7877 +GAGUGCCAAGUGGUGAGCAAG 21 11726 SCNN1A-7878 + GGAGUGCCAAGUGGUGAGCAAG 2211727 SCNN1A-7879 + UGGAGUGCCAAGUGGUGAGCAAG 23 11728 SCNN1A-7880 +GUGGAGUGCCAAGUGGUGAGCAAG 24 11729 SCNN1A-7881 + AGUACUGGACCUGAGAAG 1811730 SCNN1A-7882 + GAGUACUGGACCUGAGAAG 19 11731 SCNN1A-7883 +GGAGUACUGGACCUGAGAAG 20 11732 SCNN1A-7884 + GGGAGUACUGGACCUGAGAAG 2111733 SCNN1A-7885 + UGGGAGUACUGGACCUGAGAAG 22 11734 SCNN1A-7886 +CUGGGAGUACUGGACCUGAGAAG 23 11735 SCNN1A-7887 + ACUGGGAGUACUGGACCUGAGAAG24 11736 SCNN1A-7888 + GGAGUUUUCCGAAGGAAG 18 11737 SCNN1A-7889 +GGGAGUUUUCCGAAGGAAG 19 11738 SCNN1A-7890 + CGGGAGUUUUCCGAAGGAAG 20 11739SCNN1A-7891 + CCGGGAGUUUUCCGAAGGAAG 21 11740 SCNN1A-7892 +GCCGGGAGUUUUCCGAAGGAAG 22 11741 SCNN1A-7893 + AGCCGGGAGUUUUCCGAAGGAAG 2311742 SCNN1A-7894 + GAGCCGGGAGUUUUCCGAAGGAAG 24 11743 SCNN1A-7895 +GAGUCUGUCUCCAGGAAG 18 11744 SCNN1A-7896 + GGAGUCUGUCUCCAGGAAG 19 11745SCNN1A-7897 + GGGAGUCUGUCUCCAGGAAG 20 11746 SCNN1A-7898 +AGGGAGUCUGUCUCCAGGAAG 21 11747 SCNN1A-7899 + AAGGGAGUCUGUCUCCAGGAAG 2211748 SCNN1A-7900 + AAAGGGAGUCUGUCUCCAGGAAG 23 11749 SCNN1A-7901 +CAAAGGGAGUCUGUCUCCAGGAAG 24 11750 SCNN1A-7902 + GGAGGGGCCCAGGUGAAG 1811751 SCNN1A-7903 + GGGAGGGGCCCAGGUGAAG 19 11752 SCNN1A-7904 +CGGGAGGGGCCCAGGUGAAG 20 11753 SCNN1A-7905 + CCGGGAGGGGCCCAGGUGAAG 2111754 SCNN1A-7906 + CCCGGGAGGGGCCCAGGUGAAG 22 11755 SCNN1A-7907 +ACCCGGGAGGGGCCCAGGUGAAG 23 11756 SCNN1A-7908 + GACCCGGGAGGGGCCCAGGUGAAG24 11757 SCNN1A-7909 + UCCUCCCCGCUCACUAAG 18 11758 SCNN1A-7910 +CUCCUCCCCGCUCACUAAG 19 11759 SCNN1A-5645 + UCUCCUCCCCGCUCACUAAG 20 9494SCNN1A-7911 + GUCUCCUCCCCGCUCACUAAG 21 11760 SCNN1A-7912 +GGUCUCCUCCCCGCUCACUAAG 22 11761 SCNN1A-7913 + AGGUCUCCUCCCCGCUCACUAAG 2311762 SCNN1A-7914 + CAGGUCUCCUCCCCGCUCACUAAG 24 11763 SCNN1A-7915 +GGGGAACCGGGAGGACAG 18 11764 SCNN1A-7916 + UGGGGAACCGGGAGGACAG 19 11765SCNN1A-7917 + GUGGGGAACCGGGAGGACAG 20 11766 SCNN1A-7918 +GGUGGGGAACCGGGAGGACAG 21 11767 SCNN1A-7919 + GGGUGGGGAACCGGGAGGACAG 2211768 SCNN1A-7920 + UGGGUGGGGAACCGGGAGGACAG 23 11769 SCNN1A-7921 +CUGGGUGGGGAACCGGGAGGACAG 24 11770 SCNN1A-7922 + GACCCGGGAGGGGCCCAG 1811771 SCNN1A-7923 + AGACCCGGGAGGGGCCCAG 19 11772 SCNN1A-7924 +CAGACCCGGGAGGGGCCCAG 20 11773 SCNN1A-7925 + CCAGACCCGGGAGGGGCCCAG 2111774 SCNN1A-7926 + UCCAGACCCGGGAGGGGCCCAG 22 11775 SCNN1A-7927 +GUCCAGACCCGGGAGGGGCCCAG 23 11776 SCNN1A-7928 + UGUCCAGACCCGGGAGGGGCCCAG24 11777 SCNN1A-7929 + CUGAGUGAGUAGAGGCAG 18 11778 SCNN1A-7930 +ACUGAGUGAGUAGAGGCAG 19 11779 SCNN1A-7931 + CACUGAGUGAGUAGAGGCAG 20 11780SCNN1A-7932 + GCACUGAGUGAGUAGAGGCAG 21 11781 SCNN1A-7933 +GGCACUGAGUGAGUAGAGGCAG 22 11782 SCNN1A-7934 + GGGCACUGAGUGAGUAGAGGCAG 2311783 SCNN1A-7935 + GGGGCACUGAGUGAGUAGAGGCAG 24 11784 SCNN1A-7936 +GAGGGCUCCCGAGGGCAG 18 11785 SCNN1A-7937 + GGAGGGCUCCCGAGGGCAG 19 11786SCNN1A-7938 + AGGAGGGCUCCCGAGGGCAG 20 11787 SCNN1A-7939 +AAGGAGGGCUCCCGAGGGCAG 21 11788 SCNN1A-7940 + GAAGGAGGGCUCCCGAGGGCAG 2211789 SCNN1A-7941 + GGAAGGAGGGCUCCCGAGGGCAG 23 11790 SCNN1A-7942 +AGGAAGGAGGGCUCCCGAGGGCAG 24 11791 SCNN1A-7943 + UGGGGGACAGGAUGGCAG 1811792 SCNN1A-7944 + CUGGGGGACAGGAUGGCAG 19 11793 SCNN1A-7945 +GCUGGGGGACAGGAUGGCAG 20 11794 SCNN1A-7946 + GGCUGGGGGACAGGAUGGCAG 2111795 SCNN1A-7947 + AGGCUGGGGGACAGGAUGGCAG 22 11796 SCNN1A-7948 +GAGGCUGGGGGACAGGAUGGCAG 23 11797 SCNN1A-7949 + GGAGGCUGGGGGACAGGAUGGCAG24 11798 SCNN1A-7950 + UGGGAGCAGCGCACUCAG 18 11799 SCNN1A-7951 +GUGGGAGCAGCGCACUCAG 19 11800 SCNN1A-7952 + AGUGGGAGCAGCGCACUCAG 20 11801SCNN1A-7953 + AAGUGGGAGCAGCGCACUCAG 21 11802 SCNN1A-7954 +UAAGUGGGAGCAGCGCACUCAG 22 11803 SCNN1A-7955 + CUAAGUGGGAGCAGCGCACUCAG 2311804 SCNN1A-7956 + ACUAAGUGGGAGCAGCGCACUCAG 24 11805 SCNN1A-7957 +CCCUCAGGCCCUGCAGAG 18 11806 SCNN1A-7958 + ACCCUCAGGCCCUGCAGAG 19 11807SCNN1A-7959 + CACCCUCAGGCCCUGCAGAG 20 11808 SCNN1A-7960 +UCACCCUCAGGCCCUGCAGAG 21 11809 SCNN1A-7961 + CUCACCCUCAGGCCCUGCAGAG 2211810 SCNN1A-7962 + CCUCACCCUCAGGCCCUGCAGAG 23 11811 SCNN1A-7963 +GCCUCACCCUCAGGCCCUGCAGAG 24 11812 SCNN1A-7964 + GCUGAGGAGGAGUCAGAG 1811813 SCNN1A-7965 + GGCUGAGGAGGAGUCAGAG 19 11814 SCNN1A-7966 +GGGCUGAGGAGGAGUCAGAG 20 11815 SCNN1A-7967 + GGGGCUGAGGAGGAGUCAGAG 2111816 SCNN1A-7968 + AGGGGCUGAGGAGGAGUCAGAG 22 11817 SCNN1A-7969 +GAGGGGCUGAGGAGGAGUCAGAG 23 11818 SCNN1A-7970 + GGAGGGGCUGAGGAGGAGUCAGAG24 11819 SCNN1A-7971 + GCCCUGCAGAGAAGAGAG 18 11820 SCNN1A-7972 +GGCCCUGCAGAGAAGAGAG 19 11821 SCNN1A-7973 + AGGCCCUGCAGAGAAGAGAG 20 11822SCNN1A-7974 + CAGGCCCUGCAGAGAAGAGAG 21 11823 SCNN1A-7975 +UCAGGCCCUGCAGAGAAGAGAG 22 11824 SCNN1A-7976 + CUCAGGCCCUGCAGAGAAGAGAG 2311825 SCNN1A-7977 + CCUCAGGCCCUGCAGAGAAGAGAG 24 11826 SCNN1A-7978 +UGGUGAGCAAGGAGAGAG 18 11827 SCNN1A-7979 + GUGGUGAGCAAGGAGAGAG 19 11828SCNN1A-6146 + AGUGGUGAGCAAGGAGAGAG 20 9995 SCNN1A-7980 +AAGUGGUGAGCAAGGAGAGAG 21 11829 SCNN1A-7981 + CAAGUGGUGAGCAAGGAGAGAG 2211830 SCNN1A-7982 + CCAAGUGGUGAGCAAGGAGAGAG 23 11831 SCNN1A-7983 +GCCAAGUGGUGAGCAAGGAGAGAG 24 11832 SCNN1A-7984 + AAGAGGGAGACAAUAGAG 1811833 SCNN1A-7985 + AAAGAGGGAGACAAUAGAG 19 11834 SCNN1A-5896 +GAAAGAGGGAGACAAUAGAG 20 9745 SCNN1A-7986 + AGAAAGAGGGAGACAAUAGAG 2111835 SCNN1A-7987 + CAGAAAGAGGGAGACAAUAGAG 22 11836 SCNN1A-7988 +GCAGAAAGAGGGAGACAAUAGAG 23 11837 SCNN1A-7989 + GGCAGAAAGAGGGAGACAAUAGAG24 11838 SCNN1A-7990 + GGAGGGCAACACAAGGAG 18 11839 SCNN1A-7991 +AGGAGGGCAACACAAGGAG 19 11840 SCNN1A-7992 + UAGGAGGGCAACACAAGGAG 20 11841SCNN1A-7993 + CUAGGAGGGCAACACAAGGAG 21 11842 SCNN1A-7994 +GCUAGGAGGGCAACACAAGGAG 22 11843 SCNN1A-7995 + AGCUAGGAGGGCAACACAAGGAG 2311844 SCNN1A-7996 + CAGCUAGGAGGGCAACACAAGGAG 24 11845 SCNN1A-7997 +GACAGGCCCUGGGAGGAG 18 11846 SCNN1A-7998 + AGACAGGCCCUGGGAGGAG 19 11847SCNN1A-7999 + UAGACAGGCCCUGGGAGGAG 20 11848 SCNN1A-8000 +CUAGACAGGCCCUGGGAGGAG 21 11849 SCNN1A-8001 + CCUAGACAGGCCCUGGGAGGAG 2211850 SCNN1A-8002 + GCCUAGACAGGCCCUGGGAGGAG 23 11851 SCNN1A-8003 +CGCCUAGACAGGCCCUGGGAGGAG 24 11852 SCNN1A-8004 + UAGAAAACAAAAUAGGAG 1811853 SCNN1A-8005 + UUAGAAAACAAAAUAGGAG 19 11854 SCNN1A-8006 +GUUAGAAAACAAAAUAGGAG 20 11855 SCNN1A-8007 + GGUUAGAAAACAAAAUAGGAG 2111856 SCNN1A-8008 + AGGUUAGAAAACAAAAUAGGAG 22 11857 SCNN1A-8009 +GAGGUUAGAAAACAAAAUAGGAG 23 11858 SCNN1A-8010 + UGAGGUUAGAAAACAAAAUAGGAG24 11859 SCNN1A-8011 + GGGCCAAAAGUGCCGGAG 18 11860 SCNN1A-8012 +GGGGCCAAAAGUGCCGGAG 19 11861 SCNN1A-8013 + UGGGGCCAAAAGUGCCGGAG 20 11862SCNN1A-8014 + UUGGGGCCAAAAGUGCCGGAG 21 11863 SCNN1A-8015 +GUUGGGGCCAAAAGUGCCGGAG 22 11864 SCNN1A-8016 + AGUUGGGGCCAAAAGUGCCGGAG 2311865 SCNN1A-8017 + GAGUUGGGGCCAAAAGUGCCGGAG 24 11866 SCNN1A-8018 +CCAGCAGACCUGCGGGAG 18 11867 SCNN1A-8019 + GCCAGCAGACCUGCGGGAG 19 11868SCNN1A-8020 + AGCCAGCAGACCUGCGGGAG 20 11869 SCNN1A-8021 +GAGCCAGCAGACCUGCGGGAG 21 11870 SCNN1A-8022 + GGAGCCAGCAGACCUGCGGGAG 2211871 SCNN1A-8023 + UGGAGCCAGCAGACCUGCGGGAG 23 11872 SCNN1A-8024 +CUGGAGCCAGCAGACCUGCGGGAG 24 11873 SCNN1A-8025 + CUAGACAGGCCCUGGGAG 1811874 SCNN1A-8026 + CCUAGACAGGCCCUGGGAG 19 11875 SCNN1A-8027 +GCCUAGACAGGCCCUGGGAG 20 11876 SCNN1A-8028 + CGCCUAGACAGGCCCUGGGAG 2111877 SCNN1A-8029 + ACGCCUAGACAGGCCCUGGGAG 22 11878 SCNN1A-8030 +CACGCCUAGACAGGCCCUGGGAG 23 11879 SCNN1A-8031 + ACACGCCUAGACAGGCCCUGGGAG24 11880 SCNN1A-8032 + AGAGAGAUAGGGAUGGAG 18 11881 SCNN1A-8033 +CAGAGAGAUAGGGAUGGAG 19 11882 SCNN1A-8034 + ACAGAGAGAUAGGGAUGGAG 20 11883SCNN1A-8035 + GACAGAGAGAUAGGGAUGGAG 21 11884 SCNN1A-8036 +GGACAGAGAGAUAGGGAUGGAG 22 11885 SCNN1A-8037 + AGGACAGAGAGAUAGGGAUGGAG 2311886 SCNN1A-8038 + AAGGACAGAGAGAUAGGGAUGGAG 24 11887 SCNN1A-8039 +GCGGGGGGAGGGGCUGAG 18 11888 SCNN1A-8040 + GGCGGGGGGAGGGGCUGAG 19 11889SCNN1A-8041 + GGGCGGGGGGAGGGGCUGAG 20 11890 SCNN1A-8042 +AGGGCGGGGGGAGGGGCUGAG 21 11891 SCNN1A-8043 + CAGGGCGGGGGGAGGGGCUGAG 2211892 SCNN1A-8044 + GCAGGGCGGGGGGAGGGGCUGAG 23 11893 SCNN1A-8045 +AGCAGGGCGGGGGGAGGGGCUGAG 24 11894 SCNN1A-8046 + GGAGGGGCACUGAGUGAG 1811895 SCNN1A-8047 + AGGAGGGGCACUGAGUGAG 19 11896 SCNN1A-8048 +GAGGAGGGGCACUGAGUGAG 20 11897 SCNN1A-8049 + GGAGGAGGGGCACUGAGUGAG 2111898 SCNN1A-8050 + UGGAGGAGGGGCACUGAGUGAG 22 11899 SCNN1A-8051 +AUGGAGGAGGGGCACUGAGUGAG 23 11900 SCNN1A-8052 + GAUGGAGGAGGGGCACUGAGUGAG24 11901 SCNN1A-8053 + AUCUCAAUUAAAGGUGAG 18 11902 SCNN1A-8054 +CAUCUCAAUUAAAGGUGAG 19 11903 SCNN1A-8055 + GCAUCUCAAUUAAAGGUGAG 20 11904SCNN1A-8056 + AGCAUCUCAAUUAAAGGUGAG 21 11905 SCNN1A-8057 +UAGCAUCUCAAUUAAAGGUGAG 22 11906 SCNN1A-8058 + UUAGCAUCUCAAUUAAAGGUGAG 2311907 SCNN1A-8059 + AUUAGCAUCUCAAUUAAAGGUGAG 24 11908 SCNN1A-8060 +AGUGGUGGGGGCAAAUAG 18 11909 SCNN1A-8061 + CAGUGGUGGGGGCAAAUAG 19 11910SCNN1A-8062 + GCAGUGGUGGGGGCAAAUAG 20 11911 SCNN1A-8063 +GGCAGUGGUGGGGGCAAAUAG 21 11912 SCNN1A-8064 + GGGCAGUGGUGGGGGCAAAUAG 2211913 SCNN1A-8065 + GGGGCAGUGGUGGGGGCAAAUAG 23 11914 SCNN1A-8066 +GGGGGCAGUGGUGGGGGCAAAUAG 24 11915 SCNN1A-8067 + UCCUGAGCCCACAGCUAG 1811916 SCNN1A-8068 + AUCCUGAGCCCACAGCUAG 19 11917 SCNN1A-8069 +GAUCCUGAGCCCACAGCUAG 20 11918 SCNN1A-8070 + GGAUCCUGAGCCCACAGCUAG 2111919 SCNN1A-8071 + AGGAUCCUGAGCCCACAGCUAG 22 11920 SCNN1A-8072 +AAGGAUCCUGAGCCCACAGCUAG 23 11921 SCNN1A-8073 + GAAGGAUCCUGAGCCCACAGCUAG24 11922 SCNN1A-8074 + AUAAGAGCCAAGGGCUAG 18 11923 SCNN1A-8075 +CAUAAGAGCCAAGGGCUAG 19 11924 SCNN1A-5662 + ACAUAAGAGCCAAGGGCUAG 20 9511SCNN1A-8076 + GACAUAAGAGCCAAGGGCUAG 21 11925 SCNN1A-8077 +AGACAUAAGAGCCAAGGGCUAG 22 11926 SCNN1A-8078 + AAGACAUAAGAGCCAAGGGCUAG 2311927 SCNN1A-8079 + UAAGACAUAAGAGCCAAGGGCUAG 24 11928 SCNN1A-8080 +GGUGAAGCUGGGGGCUAG 18 11929 SCNN1A-8081 + AGGUGAAGCUGGGGGCUAG 19 11930SCNN1A-8082 + CAGGUGAAGCUGGGGGCUAG 20 11931 SCNN1A-8083 +CCAGGUGAAGCUGGGGGCUAG 21 11932 SCNN1A-8084 + CCCAGGUGAAGCUGGGGGCUAG 2211933 SCNN1A-8085 + GCCCAGGUGAAGCUGGGGGCUAG 23 11934 SCNN1A-8086 +GGCCCAGGUGAAGCUGGGGGCUAG 24 11935 SCNN1A-8087 + GGCAGCGCGAGGGCCACG 1811936 SCNN1A-8088 + AGGCAGCGCGAGGGCCACG 19 11937 SCNN1A-8089 +GAGGCAGCGCGAGGGCCACG 20 11938 SCNN1A-8090 + AGAGGCAGCGCGAGGGCCACG 2111939 SCNN1A-8091 + CAGAGGCAGCGCGAGGGCCACG 22 11940 SCNN1A-8092 +CCAGAGGCAGCGCGAGGGCCACG 23 11941 SCNN1A-8093 + ACCAGAGGCAGCGCGAGGGCCACG24 11942 SCNN1A-8094 + GAGCAUUGAUACACACCG 18 11943 SCNN1A-8095 +UGAGCAUUGAUACACACCG 19 11944 SCNN1A-5665 + CUGAGCAUUGAUACACACCG 20 9514SCNN1A-8096 + CCUGAGCAUUGAUACACACCG 21 11945 SCNN1A-8097 +GCCUGAGCAUUGAUACACACCG 22 11946 SCNN1A-8098 + AGCCUGAGCAUUGAUACACACCG 2311947 SCNN1A-8099 + CAGCCUGAGCAUUGAUACACACCG 24 11948 SCNN1A-8100 +AGAGCCGGGAGUUUUCCG 18 11949 SCNN1A-8101 + CAGAGCCGGGAGUUUUCCG 19 11950SCNN1A-8102 + UCAGAGCCGGGAGUUUUCCG 20 11951 SCNN1A-8103 +GUCAGAGCCGGGAGUUUUCCG 21 11952 SCNN1A-8104 + AGUCAGAGCCGGGAGUUUUCCG 2211953 SCNN1A-8105 + GAGUCAGAGCCGGGAGUUUUCCG 23 11954 SCNN1A-8106 +GGAGUCAGAGCCGGGAGUUUUCCG 24 11955 SCNN1A-8107 + CAAUAGAGAGGGACAGCG 1811956 SCNN1A-8108 + ACAAUAGAGAGGGACAGCG 19 11957 SCNN1A-8109 +GACAAUAGAGAGGGACAGCG 20 11958 SCNN1A-8110 + AGACAAUAGAGAGGGACAGCG 2111959 SCNN1A-8111 + GAGACAAUAGAGAGGGACAGCG 22 11960 SCNN1A-8112 +GGAGACAAUAGAGAGGGACAGCG 23 11961 SCNN1A-8113 + GGGAGACAAUAGAGAGGGACAGCG24 11962 SCNN1A-8114 + GGGAGGAUGUGGCCAGCG 18 11963 SCNN1A-8115 +AGGGAGGAUGUGGCCAGCG 19 11964 SCNN1A-8116 + CAGGGAGGAUGUGGCCAGCG 20 11965SCNN1A-8117 + GCAGGGAGGAUGUGGCCAGCG 21 11966 SCNN1A-8118 +UGCAGGGAGGAUGUGGCCAGCG 22 11967 SCNN1A-8119 + GUGCAGGGAGGAUGUGGCCAGCG 2311968 SCNN1A-8120 + GGUGCAGGGAGGAUGUGGCCAGCG 24 11969 SCNN1A-8121 +UUAAAGGUGAGCAGGGCG 18 11970 SCNN1A-8122 + AUUAAAGGUGAGCAGGGCG 19 11971SCNN1A-5669 + AAUUAAAGGUGAGCAGGGCG 20 9518 SCNN1A-8123 +CAAUUAAAGGUGAGCAGGGCG 21 11972 SCNN1A-8124 + UCAAUUAAAGGUGAGCAGGGCG 2211973 SCNN1A-8125 + CUCAAUUAAAGGUGAGCAGGGCG 23 11974 SCNN1A-8126 +UCUCAAUUAAAGGUGAGCAGGGCG 24 11975 SCNN1A-8127 + UGGCCAGCGCUGGAAAGG 1811976 SCNN1A-8128 + GUGGCCAGCGCUGGAAAGG 19 11977 SCNN1A-8129 +UGUGGCCAGCGCUGGAAAGG 20 11978 SCNN1A-8130 + AUGUGGCCAGCGCUGGAAAGG 2111979 SCNN1A-8131 + GAUGUGGCCAGCGCUGGAAAGG 22 11980 SCNN1A-8132 +GGAUGUGGCCAGCGCUGGAAAGG 23 11981 SCNN1A-8133 + AGGAUGUGGCCAGCGCUGGAAAGG24 11982 SCNN1A-8134 + CCAGGAAGGAGAGCAAGG 18 11983 SCNN1A-8135 +UCCAGGAAGGAGAGCAAGG 19 11984 SCNN1A-6151 + CUCCAGGAAGGAGAGCAAGG 20 10000SCNN1A-8136 + UCUCCAGGAAGGAGAGCAAGG 21 11985 SCNN1A-8137 +GUCUCCAGGAAGGAGAGCAAGG 22 11986 SCNN1A-8138 + UGUCUCCAGGAAGGAGAGCAAGG 2311987 SCNN1A-8139 + CUGUCUCCAGGAAGGAGAGCAAGG 24 11988 SCNN1A-1604 +CAAGGGUCAGGGUCAAGG 18 5453 SCNN1A-1605 + GCAAGGGUCAGGGUCAAGG 19 5454SCNN1A-1606 + AGCAAGGGUCAGGGUCAAGG 20 5455 SCNN1A-1607 +GAGCAAGGGUCAGGGUCAAGG 21 5456 SCNN1A-1608 + AGAGCAAGGGUCAGGGUCAAGG 225457 SCNN1A-1609 + GAGAGCAAGGGUCAGGGUCAAGG 23 5458 SCNN1A-1610 +GGAGAGCAAGGGUCAGGGUCAAGG 24 5459 SCNN1A-8140 + CCGGGAGUUUUCCGAAGG 1811989 SCNN1A-8141 + GCCGGGAGUUUUCCGAAGG 19 11990 SCNN1A-8142 +AGCCGGGAGUUUUCCGAAGG 20 11991 SCNN1A-8143 + GAGCCGGGAGUUUUCCGAAGG 2111992 SCNN1A-8144 + AGAGCCGGGAGUUUUCCGAAGG 22 11993 SCNN1A-8145 +CAGAGCCGGGAGUUUUCCGAAGG 23 11994 SCNN1A-8146 + UCAGAGCCGGGAGUUUUCCGAAGG24 11995 SCNN1A-8147 + ACAGACCCGGAGCCCAGG 18 11996 SCNN1A-8148 +CACAGACCCGGAGCCCAGG 19 11997 SCNN1A-8149 + ACACAGACCCGGAGCCCAGG 20 11998SCNN1A-8150 + GACACAGACCCGGAGCCCAGG 21 11999 SCNN1A-8151 +GGACACAGACCCGGAGCCCAGG 22 12000 SCNN1A-8152 + UGGACACAGACCCGGAGCCCAGG 2312001 SCNN1A-8153 + GUGGACACAGACCCGGAGCCCAGG 24 12002 SCNN1A-8154 +GAGAAGGGGCCAGCCAGG 18 12003 SCNN1A-8155 + GGAGAAGGGGCCAGCCAGG 19 12004SCNN1A-8156 + AGGAGAAGGGGCCAGCCAGG 20 12005 SCNN1A-8157 +AAGGAGAAGGGGCCAGCCAGG 21 12006 SCNN1A-8158 + CAAGGAGAAGGGGCCAGCCAGG 2212007 SCNN1A-8159 + ACAAGGAGAAGGGGCCAGCCAGG 23 12008 SCNN1A-8160 +CACAAGGAGAAGGGGCCAGCCAGG 24 12009 SCNN1A-8161 + AGGGAGUCUGUCUCCAGG 1812010 SCNN1A-8162 + AAGGGAGUCUGUCUCCAGG 19 12011 SCNN1A-8163 +AAAGGGAGUCUGUCUCCAGG 20 12012 SCNN1A-8164 + CAAAGGGAGUCUGUCUCCAGG 2112013 SCNN1A-8165 + CCAAAGGGAGUCUGUCUCCAGG 22 12014 SCNN1A-8166 +ACCAAAGGGAGUCUGUCUCCAGG 23 12015 SCNN1A-8167 + CACCAAAGGGAGUCUGUCUCCAGG24 12016 SCNN1A-8168 + CAAUUAAAGGUGAGCAGG 18 12017 SCNN1A-8169 +UCAAUUAAAGGUGAGCAGG 19 12018 SCNN1A-8170 + CUCAAUUAAAGGUGAGCAGG 20 12019SCNN1A-8171 + UCUCAAUUAAAGGUGAGCAGG 21 12020 SCNN1A-8172 +AUCUCAAUUAAAGGUGAGCAGG 22 12021 SCNN1A-8173 + CAUCUCAAUUAAAGGUGAGCAGG 2312022 SCNN1A-8174 + GCAUCUCAAUUAAAGGUGAGCAGG 24 12023 SCNN1A-8175 +UGAGUGAGUAGAGGCAGG 18 12024 SCNN1A-8176 + CUGAGUGAGUAGAGGCAGG 19 12025SCNN1A-5677 + ACUGAGUGAGUAGAGGCAGG 20 9526 SCNN1A-8177 +CACUGAGUGAGUAGAGGCAGG 21 12026 SCNN1A-8178 + GCACUGAGUGAGUAGAGGCAGG 2212027 SCNN1A-8179 + GGCACUGAGUGAGUAGAGGCAGG 23 12028 SCNN1A-8180 +GGGCACUGAGUGAGUAGAGGCAGG 24 12029 SCNN1A-8181 + GCGCUGGAAAGGAAGAGG 1812030 SCNN1A-8182 + AGCGCUGGAAAGGAAGAGG 19 12031 SCNN1A-8183 +CAGCGCUGGAAAGGAAGAGG 20 12032 SCNN1A-8184 + CCAGCGCUGGAAAGGAAGAGG 2112033 SCNN1A-8185 + GCCAGCGCUGGAAAGGAAGAGG 22 12034 SCNN1A-8186 +GGCCAGCGCUGGAAAGGAAGAGG 23 12035 SCNN1A-8187 + UGGCCAGCGCUGGAAAGGAAGAGG24 12036 SCNN1A-8188 + CCGGAGCCCAGGAAGAGG 18 12037 SCNN1A-8189 +CCCGGAGCCCAGGAAGAGG 19 12038 SCNN1A-8190 + ACCCGGAGCCCAGGAAGAGG 20 12039SCNN1A-8191 + GACCCGGAGCCCAGGAAGAGG 21 12040 SCNN1A-8192 +AGACCCGGAGCCCAGGAAGAGG 22 12041 SCNN1A-8193 + CAGACCCGGAGCCCAGGAAGAGG 2312042 SCNN1A-8194 + ACAGACCCGGAGCCCAGGAAGAGG 24 12043 SCNN1A-8195 +CGCAGACAGGCAAGGAGG 18 12044 SCNN1A-8196 + ACGCAGACAGGCAAGGAGG 19 12045SCNN1A-8197 + GACGCAGACAGGCAAGGAGG 20 12046 SCNN1A-8198 +AGACGCAGACAGGCAAGGAGG 21 12047 SCNN1A-8199 + UAGACGCAGACAGGCAAGGAGG 2212048 SCNN1A-8200 + UUAGACGCAGACAGGCAAGGAGG 23 12049 SCNN1A-8201 +UUUAGACGCAGACAGGCAAGGAGG 24 12050 SCNN1A-8202 + UAGACAGGCCCUGGGAGG 1812051 SCNN1A-8203 + CUAGACAGGCCCUGGGAGG 19 12052 SCNN1A-6157 +CCUAGACAGGCCCUGGGAGG 20 10006 SCNN1A-8204 + GCCUAGACAGGCCCUGGGAGG 2112053 SCNN1A-8205 + CGCCUAGACAGGCCCUGGGAGG 22 12054 SCNN1A-8206 +ACGCCUAGACAGGCCCUGGGAGG 23 12055 SCNN1A-8207 + CACGCCUAGACAGGCCCUGGGAGG24 12056 SCNN1A-8208 + GAGAGAUAGGGAUGGAGG 18 12057 SCNN1A-8209 +AGAGAGAUAGGGAUGGAGG 19 12058 SCNN1A-6158 + CAGAGAGAUAGGGAUGGAGG 20 10007SCNN1A-8210 + ACAGAGAGAUAGGGAUGGAGG 21 12059 SCNN1A-8211 +GACAGAGAGAUAGGGAUGGAGG 22 12060 SCNN1A-8212 + GGACAGAGAGAUAGGGAUGGAGG 2312061 SCNN1A-8213 + AGGACAGAGAGAUAGGGAUGGAGG 24 12062 SCNN1A-8214 +GUGAAGCUGGGGGCUAGG 18 12063 SCNN1A-8215 + GGUGAAGCUGGGGGCUAGG 19 12064SCNN1A-5681 + AGGUGAAGCUGGGGGCUAGG 20 9530 SCNN1A-8216 +CAGGUGAAGCUGGGGGCUAGG 21 12065 SCNN1A-8217 + CCAGGUGAAGCUGGGGGCUAGG 2212066 SCNN1A-8218 + CCCAGGUGAAGCUGGGGGCUAGG 23 12067 SCNN1A-8219 +GCCCAGGUGAAGCUGGGGGCUAGG 24 12068 SCNN1A-8220 + GCCUGGGUGGGGAACCGG 1812069 SCNN1A-8221 + GGCCUGGGUGGGGAACCGG 19 12070 SCNN1A-8222 +GGGCCUGGGUGGGGAACCGG 20 12071 SCNN1A-8223 + AGGGCCUGGGUGGGGAACCGG 2112072 SCNN1A-8224 + GAGGGCCUGGGUGGGGAACCGG 22 12073 SCNN1A-8225 +AGAGGGCCUGGGUGGGGAACCGG 23 12074 SCNN1A-8226 + GAGAGGGCCUGGGUGGGGAACCGG24 12075 SCNN1A-8227 + AGCAUUGAUACACACCGG 18 12076 SCNN1A-8228 +GAGCAUUGAUACACACCGG 19 12077 SCNN1A-5682 + UGAGCAUUGAUACACACCGG 20 9531SCNN1A-8229 + CUGAGCAUUGAUACACACCGG 21 12078 SCNN1A-8230 +CCUGAGCAUUGAUACACACCGG 22 12079 SCNN1A-8231 + GCCUGAGCAUUGAUACACACCGG 2312080 SCNN1A-8232 + AGCCUGAGCAUUGAUACACACCGG 24 12081 SCNN1A-8233 +AACCUUGUCCAGACCCGG 18 12082 SCNN1A-8234 + CAACCUUGUCCAGACCCGG 19 12083SCNN1A-8235 + CCAACCUUGUCCAGACCCGG 20 12084 SCNN1A-8236 +UCCAACCUUGUCCAGACCCGG 21 12085 SCNN1A-8237 + CUCCAACCUUGUCCAGACCCGG 2212086 SCNN1A-8238 + CCUCCAACCUUGUCCAGACCCGG 23 12087 SCNN1A-8239 +CCCUCCAACCUUGUCCAGACCCGG 24 12088 SCNN1A-8240 + CCCAGGCCCUGCACGCGG 1812089 SCNN1A-8241 + ACCCAGGCCCUGCACGCGG 19 12090 SCNN1A-8242 +AACCCAGGCCCUGCACGCGG 20 12091 SCNN1A-8243 + CAACCCAGGCCCUGCACGCGG 2112092 SCNN1A-8244 + ACAACCCAGGCCCUGCACGCGG 22 12093 SCNN1A-8245 +CACAACCCAGGCCCUGCACGCGG 23 12094 SCNN1A-8246 + ACACAACCCAGGCCCUGCACGCGG24 12095 SCNN1A-8247 + UAAAGGUGAGCAGGGCGG 18 12096 SCNN1A-8248 +UUAAAGGUGAGCAGGGCGG 19 12097 SCNN1A-5683 + AUUAAAGGUGAGCAGGGCGG 20 9532SCNN1A-8249 + AAUUAAAGGUGAGCAGGGCGG 21 12098 SCNN1A-8250 +CAAUUAAAGGUGAGCAGGGCGG 22 12099 SCNN1A-8251 + UCAAUUAAAGGUGAGCAGGGCGG 2312100 SCNN1A-8252 + CUCAAUUAAAGGUGAGCAGGGCGG 24 12101 SCNN1A-8253 +CCCACUCCCAGGUUGCGG 18 12102 SCNN1A-8254 + UCCCACUCCCAGGUUGCGG 19 12103SCNN1A-8255 + UUCCCACUCCCAGGUUGCGG 20 12104 SCNN1A-8256 +CUUCCCACUCCCAGGUUGCGG 21 12105 SCNN1A-8257 + GCUUCCCACUCCCAGGUUGCGG 2212106 SCNN1A-8258 + AGCUUCCCACUCCCAGGUUGCGG 23 12107 SCNN1A-8259 +CAGCUUCCCACUCCCAGGUUGCGG 24 12108 SCNN1A-8260 + GGGCUGGAGGAGACUCGG 1812109 SCNN1A-8261 + AGGGCUGGAGGAGACUCGG 19 12110 SCNN1A-8262 +AAGGGCUGGAGGAGACUCGG 20 12111 SCNN1A-8263 + AAAGGGCUGGAGGAGACUCGG 2112112 SCNN1A-8264 + AAAAGGGCUGGAGGAGACUCGG 22 12113 SCNN1A-8265 +AAAAAGGGCUGGAGGAGACUCGG 23 12114 SCNN1A-8266 + CAAAAAGGGCUGGAGGAGACUCGG24 12115 SCNN1A-8267 + AAUCAGACCCAAAAAGGG 18 12116 SCNN1A-8268 +GAAUCAGACCCAAAAAGGG 19 12117 SCNN1A-8269 + AGAAUCAGACCCAAAAAGGG 20 12118SCNN1A-8270 + GAGAAUCAGACCCAAAAAGGG 21 12119 SCNN1A-8271 +AGAGAAUCAGACCCAAAAAGGG 22 12120 SCNN1A-8272 + CAGAGAAUCAGACCCAAAAAGGG 2312121 SCNN1A-8273 + UCAGAGAAUCAGACCCAAAAAGGG 24 12122 SCNN1A-8274 +CCCGCUGGCCGGCCAGGG 18 12123 SCNN1A-8275 + GCCCGCUGGCCGGCCAGGG 19 12124SCNN1A-8276 + CGCCCGCUGGCCGGCCAGGG 20 12125 SCNN1A-8277 +CCGCCCGCUGGCCGGCCAGGG 21 12126 SCNN1A-8278 + CCCGCCCGCUGGCCGGCCAGGG 2212127 SCNN1A-8279 + GCCCGCCCGCUGGCCGGCCAGGG 23 12128 SCNN1A-8280 +AGCCCGCCCGCUGGCCGGCCAGGG 24 12129 SCNN1A-8281 + AAUUAAAGGUGAGCAGGG 1812130 SCNN1A-8282 + CAAUUAAAGGUGAGCAGGG 19 12131 SCNN1A-6160 +UCAAUUAAAGGUGAGCAGGG 20 10009 SCNN1A-8283 + CUCAAUUAAAGGUGAGCAGGG 2112132 SCNN1A-8284 + UCUCAAUUAAAGGUGAGCAGGG 22 12133 SCNN1A-8285 +AUCUCAAUUAAAGGUGAGCAGGG 23 12134 SCNN1A-8286 + CAUCUCAAUUAAAGGUGAGCAGGG24 12135 SCNN1A-8287 + ACCGGGAGGACAGGAGGG 18 12136 SCNN1A-8288 +AACCGGGAGGACAGGAGGG 19 12137 SCNN1A-8289 + GAACCGGGAGGACAGGAGGG 20 12138SCNN1A-8290 + GGAACCGGGAGGACAGGAGGG 21 12139 SCNN1A-8291 +GGGAACCGGGAGGACAGGAGGG 22 12140 SCNN1A-8292 + GGGGAACCGGGAGGACAGGAGGG 2312141 SCNN1A-8293 + UGGGGAACCGGGAGGACAGGAGGG 24 12142 SCNN1A-8294 +AAGGACAGAGAGAUAGGG 18 12143 SCNN1A-8295 + GAAGGACAGAGAGAUAGGG 19 12144SCNN1A-8296 + CGAAGGACAGAGAGAUAGGG 20 12145 SCNN1A-8297 +GCGAAGGACAGAGAGAUAGGG 21 12146 SCNN1A-8298 + AGCGAAGGACAGAGAGAUAGGG 2212147 SCNN1A-8299 + CAGCGAAGGACAGAGAGAUAGGG 23 12148 SCNN1A-8300 +ACAGCGAAGGACAGAGAGAUAGGG 24 12149 SCNN1A-8301 + ACCUUGUCCAGACCCGGG 1812150 SCNN1A-8302 + AACCUUGUCCAGACCCGGG 19 12151 SCNN1A-5686 +CAACCUUGUCCAGACCCGGG 20 9535 SCNN1A-8303 + CCAACCUUGUCCAGACCCGGG 2112152 SCNN1A-8304 + UCCAACCUUGUCCAGACCCGGG 22 12153 SCNN1A-8305 +CUCCAACCUUGUCCAGACCCGGG 23 12154 SCNN1A-8306 + CCUCCAACCUUGUCCAGACCCGGG24 12155 SCNN1A-8307 + AAAGGUGAGCAGGGCGGG 18 12156 SCNN1A-8308 +UAAAGGUGAGCAGGGCGGG 19 12157 SCNN1A-5688 + UUAAAGGUGAGCAGGGCGGG 20 9537SCNN1A-8309 + AUUAAAGGUGAGCAGGGCGGG 21 12158 SCNN1A-8310 +AAUUAAAGGUGAGCAGGGCGGG 22 12159 SCNN1A-8311 + CAAUUAAAGGUGAGCAGGGCGGG 2312160 SCNN1A-8312 + UCAAUUAAAGGUGAGCAGGGCGGG 24 12161 SCNN1A-8313 +GCAGGGCGGGGGGAGGGG 18 12162 SCNN1A-8314 + AGCAGGGCGGGGGGAGGGG 19 12163SCNN1A-8315 + GAGCAGGGCGGGGGGAGGGG 20 12164 SCNN1A-8316 +UGAGCAGGGCGGGGGGAGGGG 21 12165 SCNN1A-8317 + GUGAGCAGGGCGGGGGGAGGGG 2212166 SCNN1A-8318 + GGUGAGCAGGGCGGGGGGAGGGG 23 12167 SCNN1A-8319 +AGGUGAGCAGGGCGGGGGGAGGGG 24 12168 SCNN1A-8320 + CAUUGAUACACACCGGGG 1812169 SCNN1A-8321 + GCAUUGAUACACACCGGGG 19 12170 SCNN1A-8322 +AGCAUUGAUACACACCGGGG 20 12171 SCNN1A-8323 + GAGCAUUGAUACACACCGGGG 2112172 SCNN1A-8324 + UGAGCAUUGAUACACACCGGGG 22 12173 SCNN1A-8325 +CUGAGCAUUGAUACACACCGGGG 23 12174 SCNN1A-8326 + CCUGAGCAUUGAUACACACCGGGG24 12175 SCNN1A-8327 + AUUGAUACACACCGGGGG 18 12176 SCNN1A-8328 +CAUUGAUACACACCGGGGG 19 12177 SCNN1A-5265 + GCAUUGAUACACACCGGGGG 20 9114SCNN1A-8329 + AGCAUUGAUACACACCGGGGG 21 12178 SCNN1A-8330 +GAGCAUUGAUACACACCGGGGG 22 12179 SCNN1A-8331 + UGAGCAUUGAUACACACCGGGGG 2312180 SCNN1A-8332 + CUGAGCAUUGAUACACACCGGGGG 24 12181 SCNN1A-8333 +AGGUGAGCAGGGCGGGGG 18 12182 SCNN1A-8334 + AAGGUGAGCAGGGCGGGGG 19 12183SCNN1A-8335 + AAAGGUGAGCAGGGCGGGGG 20 12184 SCNN1A-8336 +UAAAGGUGAGCAGGGCGGGGG 21 12185 SCNN1A-8337 + UUAAAGGUGAGCAGGGCGGGGG 2212186 SCNN1A-8338 + AUUAAAGGUGAGCAGGGCGGGGG 23 12187 SCNN1A-8339 +AAUUAAAGGUGAGCAGGGCGGGGG 24 12188 SCNN1A-8340 + GGUGAGCAGGGCGGGGGG 1812189 SCNN1A-8341 + AGGUGAGCAGGGCGGGGGG 19 12190 SCNN1A-6164 +AAGGUGAGCAGGGCGGGGGG 20 10013 SCNN1A-8342 + AAAGGUGAGCAGGGCGGGGGG 2112191 SCNN1A-8343 + UAAAGGUGAGCAGGGCGGGGGG 22 12192 SCNN1A-8344 +UUAAAGGUGAGCAGGGCGGGGGG 23 12193 SCNN1A-8345 + AUUAAAGGUGAGCAGGGCGGGGGG24 12194 SCNN1A-8346 + GCCUAGACAGGCCCUGGG 18 12195 SCNN1A-8347 +CGCCUAGACAGGCCCUGGG 19 12196 SCNN1A-5691 + ACGCCUAGACAGGCCCUGGG 20 9540SCNN1A-8348 + CACGCCUAGACAGGCCCUGGG 21 12197 SCNN1A-8349 +ACACGCCUAGACAGGCCCUGGG 22 12198 SCNN1A-8350 + CACACGCCUAGACAGGCCCUGGG 2312199 SCNN1A-8351 + GCACACGCCUAGACAGGCCCUGGG 24 12200 SCNN1A-8352 +AGGCUGAGAGGGCCUGGG 18 12201 SCNN1A-8353 + CAGGCUGAGAGGGCCUGGG 19 12202SCNN1A-6165 + CCAGGCUGAGAGGGCCUGGG 20 10014 SCNN1A-8354 +GCCAGGCUGAGAGGGCCUGGG 21 12203 SCNN1A-8355 + AGCCAGGCUGAGAGGGCCUGGG 2212204 SCNN1A-8356 + CAGCCAGGCUGAGAGGGCCUGGG 23 12205 SCNN1A-8357 +CCAGCCAGGCUGAGAGGGCCUGGG 24 12206 SCNN1A-8358 + GAGAAGGCGGACUCUGGG 1812207 SCNN1A-8359 + UGAGAAGGCGGACUCUGGG 19 12208 SCNN1A-8360 +CUGAGAAGGCGGACUCUGGG 20 12209 SCNN1A-8361 + CCUGAGAAGGCGGACUCUGGG 2112210 SCNN1A-8362 + ACCUGAGAAGGCGGACUCUGGG 22 12211 SCNN1A-8363 +GACCUGAGAAGGCGGACUCUGGG 23 12212 SCNN1A-8364 + GGACCUGAGAAGGCGGACUCUGGG24 12213 SCNN1A-1623 + GCCCCGGAGUGGAUUGGG 18 5472 SCNN1A-1624 +AGCCCCGGAGUGGAUUGGG 19 5473 SCNN1A-1625 + GAGCCCCGGAGUGGAUUGGG 20 5474SCNN1A-1626 + UGAGCCCCGGAGUGGAUUGGG 21 5475 SCNN1A-1627 +AUGAGCCCCGGAGUGGAUUGGG 22 5476 SCNN1A-1628 + CAUGAGCCCCGGAGUGGAUUGGG 235477 SCNN1A-1629 + UCAUGAGCCCCGGAGUGGAUUGGG 24 5478 SCNN1A-8365 +ACAGAGAGAUAGGGAUGG 18 12214 SCNN1A-8366 + GACAGAGAGAUAGGGAUGG 19 12215SCNN1A-5915 + GGACAGAGAGAUAGGGAUGG 20 9764 SCNN1A-8367 +AGGACAGAGAGAUAGGGAUGG 21 12216 SCNN1A-8368 + AAGGACAGAGAGAUAGGGAUGG 2212217 SCNN1A-8369 + GAAGGACAGAGAGAUAGGGAUGG 23 12218 SCNN1A-8370 +CGAAGGACAGAGAGAUAGGGAUGG 24 12219 SCNN1A-8371 + CGCCUAGACAGGCCCUGG 1812220 SCNN1A-8372 + ACGCCUAGACAGGCCCUGG 19 12221 SCNN1A-8373 +CACGCCUAGACAGGCCCUGG 20 12222 SCNN1A-8374 + ACACGCCUAGACAGGCCCUGG 2112223 SCNN1A-8375 + CACACGCCUAGACAGGCCCUGG 22 12224 SCNN1A-8376 +GCACACGCCUAGACAGGCCCUGG 23 12225 SCNN1A-8377 + GGCACACGCCUAGACAGGCCCUGG24 12226 SCNN1A-8378 + ACAGGUGCAGCGGCCUGG 18 12227 SCNN1A-8379 +GACAGGUGCAGCGGCCUGG 19 12228 SCNN1A-8380 + UGACAGGUGCAGCGGCCUGG 20 12229SCNN1A-8381 + CUGACAGGUGCAGCGGCCUGG 21 12230 SCNN1A-8382 +CCUGACAGGUGCAGCGGCCUGG 22 12231 SCNN1A-8383 + ACCUGACAGGUGCAGCGGCCUGG 2312232 SCNN1A-8384 + CACCUGACAGGUGCAGCGGCCUGG 24 12233 SCNN1A-8385 +CAGGCUGAGAGGGCCUGG 18 12234 SCNN1A-8386 + CCAGGCUGAGAGGGCCUGG 19 12235SCNN1A-8387 + GCCAGGCUGAGAGGGCCUGG 20 12236 SCNN1A-8388 +AGCCAGGCUGAGAGGGCCUGG 21 12237 SCNN1A-8389 + CAGCCAGGCUGAGAGGGCCUGG 2212238 SCNN1A-8390 + CCAGCCAGGCUGAGAGGGCCUGG 23 12239 SCNN1A-8391 +GCCAGCCAGGCUGAGAGGGCCUGG 24 12240 SCNN1A-8392 + AGACCCAAAAAGGGCUGG 1812241 SCNN1A-8393 + CAGACCCAAAAAGGGCUGG 19 12242 SCNN1A-5694 +UCAGACCCAAAAAGGGCUGG 20 9543 SCNN1A-8394 + AUCAGACCCAAAAAGGGCUGG 2112243 SCNN1A-8395 + AAUCAGACCCAAAAAGGGCUGG 22 12244 SCNN1A-8396 +GAAUCAGACCCAAAAAGGGCUGG 23 12245 SCNN1A-8397 + AGAAUCAGACCCAAAAAGGGCUGG24 12246 SCNN1A-8398 + GCAGGUGGGGGGCAGUGG 18 12247 SCNN1A-8399 +GGCAGGUGGGGGGCAGUGG 19 12248 SCNN1A-6171 + AGGCAGGUGGGGGGCAGUGG 20 10020SCNN1A-8400 + GAGGCAGGUGGGGGGCAGUGG 21 12249 SCNN1A-8401 +AGAGGCAGGUGGGGGGCAGUGG 22 12250 SCNN1A-8402 + UAGAGGCAGGUGGGGGGCAGUGG 2312251 SCNN1A-8403 + GUAGAGGCAGGUGGGGGGCAGUGG 24 12252 SCNN1A-1630 +CAUGAUACCUCCCCUUGG 18 5479 SCNN1A-1631 + UCAUGAUACCUCCCCUUGG 19 5480SCNN1A-1632 + CUCAUGAUACCUCCCCUUGG 20 5481 SCNN1A-1633 +GCUCAUGAUACCUCCCCUUGG 21 5482 SCNN1A-1634 + UGCUCAUGAUACCUCCCCUUGG 225483 SCNN1A-1635 + CUGCUCAUGAUACCUCCCCUUGG 23 5484 SCNN1A-1636 +ACUGCUCAUGAUACCUCCCCUUGG 24 5485 SCNN1A-8404 + UUCUUCAUUGUCCUAAUG 1812253 SCNN1A-8405 + UUUCUUCAUUGUCCUAAUG 19 12254 SCNN1A-8406 +UUUUCUUCAUUGUCCUAAUG 20 12255 SCNN1A-8407 + UUUUUCUUCAUUGUCCUAAUG 2112256 SCNN1A-8408 + AUUUUUCUUCAUUGUCCUAAUG 22 12257 SCNN1A-8409 +GAUUUUUCUUCAUUGUCCUAAUG 23 12258 SCNN1A-8410 + GGAUUUUUCUUCAUUGUCCUAAUG24 12259 SCNN1A-8411 + GACAGAGAGAUAGGGAUG 18 12260 SCNN1A-8412 +GGACAGAGAGAUAGGGAUG 19 12261 SCNN1A-8413 + AGGACAGAGAGAUAGGGAUG 20 12262SCNN1A-8414 + AAGGACAGAGAGAUAGGGAUG 21 12263 SCNN1A-8415 +GAAGGACAGAGAGAUAGGGAUG 22 12264 SCNN1A-8416 + CGAAGGACAGAGAGAUAGGGAUG 2312265 SCNN1A-8417 + GCGAAGGACAGAGAGAUAGGGAUG 24 12266 SCNN1A-8418 +GAGCCUAGGGGCUCACUG 18 12267 SCNN1A-8419 + GGAGCCUAGGGGCUCACUG 19 12268SCNN1A-8420 + GGGAGCCUAGGGGCUCACUG 20 12269 SCNN1A-8421 +GGGGAGCCUAGGGGCUCACUG 21 12270 SCNN1A-8422 + AGGGGAGCCUAGGGGCUCACUG 2212271 SCNN1A-8423 + UAGGGGAGCCUAGGGGCUCACUG 23 12272 SCNN1A-8424 +CUAGGGGAGCCUAGGGGCUCACUG 24 12273 SCNN1A-8425 + GUCUCUGCCCCAGGACUG 1812274 SCNN1A-8426 + UGUCUCUGCCCCAGGACUG 19 12275 SCNN1A-8427 +CUGUCUCUGCCCCAGGACUG 20 12276 SCNN1A-8428 + UCUGUCUCUGCCCCAGGACUG 2112277 SCNN1A-8429 + UUCUGUCUCUGCCCCAGGACUG 22 12278 SCNN1A-8430 +AUUCUGUCUCUGCCCCAGGACUG 23 12279 SCNN1A-8431 + GAUUCUGUCUCUGCCCCAGGACUG24 12280 SCNN1A-8432 + CUGGAGCCAGCAGACCUG 18 12281 SCNN1A-8433 +CCUGGAGCCAGCAGACCUG 19 12282 SCNN1A-5701 + UCCUGGAGCCAGCAGACCUG 20 9550SCNN1A-8434 + UUCCUGGAGCCAGCAGACCUG 21 12283 SCNN1A-8435 +UUUCCUGGAGCCAGCAGACCUG 22 12284 SCNN1A-8436 + CUUUCCUGGAGCCAGCAGACCUG 2312285 SCNN1A-8437 + CCUUUCCUGGAGCCAGCAGACCUG 24 12286 SCNN1A-8438 +CCUCACCCUCAGGCCCUG 18 12287 SCNN1A-8439 + GCCUCACCCUCAGGCCCUG 19 12288SCNN1A-8440 + AGCCUCACCCUCAGGCCCUG 20 12289 SCNN1A-8441 +CAGCCUCACCCUCAGGCCCUG 21 12290 SCNN1A-8442 + UCAGCCUCACCCUCAGGCCCUG 2212291 SCNN1A-8443 + GUCAGCCUCACCCUCAGGCCCUG 23 12292 SCNN1A-8444 +GGUCAGCCUCACCCUCAGGCCCUG 24 12293 SCNN1A-8445 + AGACAGGCAAGGAGGCUG 1812294 SCNN1A-8446 + CAGACAGGCAAGGAGGCUG 19 12295 SCNN1A-5919 +GCAGACAGGCAAGGAGGCUG 20 9768 SCNN1A-8447 + CGCAGACAGGCAAGGAGGCUG 2112296 SCNN1A-8448 + ACGCAGACAGGCAAGGAGGCUG 22 12297 SCNN1A-8449 +GACGCAGACAGGCAAGGAGGCUG 23 12298 SCNN1A-8450 + AGACGCAGACAGGCAAGGAGGCUG24 12299 SCNN1A-8451 + CAGACCCAAAAAGGGCUG 18 12300 SCNN1A-8452 +UCAGACCCAAAAAGGGCUG 19 12301 SCNN1A-8453 + AUCAGACCCAAAAAGGGCUG 20 12302SCNN1A-8454 + AAUCAGACCCAAAAAGGGCUG 21 12303 SCNN1A-8455 +GAAUCAGACCCAAAAAGGGCUG 22 12304 SCNN1A-8456 + AGAAUCAGACCCAAAAAGGGCUG 2312305 SCNN1A-8457 + GAGAAUCAGACCCAAAAAGGGCUG 24 12306 SCNN1A-8458 +GGGCGGGGGGAGGGGCUG 18 12307 SCNN1A-8459 + AGGGCGGGGGGAGGGGCUG 19 12308SCNN1A-6176 + CAGGGCGGGGGGAGGGGCUG 20 10025 SCNN1A-8460 +GCAGGGCGGGGGGAGGGGCUG 21 12309 SCNN1A-8461 + AGCAGGGCGGGGGGAGGGGCUG 2212310 SCNN1A-8462 + GAGCAGGGCGGGGGGAGGGGCUG 23 12311 SCNN1A-8463 +UGAGCAGGGCGGGGGGAGGGGCUG 24 12312 SCNN1A-1668 + GAGACCUGGUAUGGGCUG 185517 SCNN1A-1669 + UGAGACCUGGUAUGGGCUG 19 5518 SCNN1A-1670 +AUGAGACCUGGUAUGGGCUG 20 5519 SCNN1A-1671 + CAUGAGACCUGGUAUGGGCUG 21 5520SCNN1A-1672 + CCAUGAGACCUGGUAUGGGCUG 22 5521 SCNN1A-1673 +UCCAUGAGACCUGGUAUGGGCUG 23 5522 SCNN1A-1674 + CUCCAUGAGACCUGGUAUGGGCUG24 5523 SCNN1A-8464 + GGUGCAGCGGCCUGGCUG 18 12313 SCNN1A-8465 +AGGUGCAGCGGCCUGGCUG 19 12314 SCNN1A-5705 + CAGGUGCAGCGGCCUGGCUG 20 9554SCNN1A-8466 + ACAGGUGCAGCGGCCUGGCUG 21 12315 SCNN1A-8467 +GACAGGUGCAGCGGCCUGGCUG 22 12316 SCNN1A-8468 + UGACAGGUGCAGCGGCCUGGCUG 2312317 SCNN1A-8469 + CUGACAGGUGCAGCGGCCUGGCUG 24 12318 SCNN1A-8470 +GAGUUGGGGCCAAAAGUG 18 12319 SCNN1A-8471 + GGAGUUGGGGCCAAAAGUG 19 12320SCNN1A-8472 + GGGAGUUGGGGCCAAAAGUG 20 12321 SCNN1A-8473 +CGGGAGUUGGGGCCAAAAGUG 21 12322 SCNN1A-8474 + GCGGGAGUUGGGGCCAAAAGUG 2212323 SCNN1A-8475 + UGCGGGAGUUGGGGCCAAAAGUG 23 12324 SCNN1A-8476 +CUGCGGGAGUUGGGGCCAAAAGUG 24 12325 SCNN1A-8477 + GGAGUGGAGUGCCAAGUG 1812326 SCNN1A-8478 + AGGAGUGGAGUGCCAAGUG 19 12327 SCNN1A-8479 +AAGGAGUGGAGUGCCAAGUG 20 12328 SCNN1A-8480 + UAAGGAGUGGAGUGCCAAGUG 2112329 SCNN1A-8481 + AUAAGGAGUGGAGUGCCAAGUG 22 12330 SCNN1A-8482 +GAUAAGGAGUGGAGUGCCAAGUG 23 12331 SCNN1A-8483 + GGAUAAGGAGUGGAGUGCCAAGUG24 12332 SCNN1A-8484 + GGCAGGUGGGGGGCAGUG 18 12333 SCNN1A-8485 +AGGCAGGUGGGGGGCAGUG 19 12334 SCNN1A-8486 + GAGGCAGGUGGGGGGCAGUG 20 12335SCNN1A-8487 + AGAGGCAGGUGGGGGGCAGUG 21 12336 SCNN1A-8488 +UAGAGGCAGGUGGGGGGCAGUG 22 12337 SCNN1A-8489 + GUAGAGGCAGGUGGGGGGCAGUG 2312338 SCNN1A-8490 + AGUAGAGGCAGGUGGGGGGCAGUG 24 12339 SCNN1A-8491 +AGGAGGCAGCCCAGAGUG 18 12340 SCNN1A-8492 + CAGGAGGCAGCCCAGAGUG 19 12341SCNN1A-8493 + ACAGGAGGCAGCCCAGAGUG 20 12342 SCNN1A-8494 +CACAGGAGGCAGCCCAGAGUG 21 12343 SCNN1A-8495 + CCACAGGAGGCAGCCCAGAGUG 2212344 SCNN1A-8496 + CCCACAGGAGGCAGCCCAGAGUG 23 12345 SCNN1A-8497 +CCCCACAGGAGGCAGCCCAGAGUG 24 12346 SCNN1A-8498 + AAGCAGGCACUGAAGGUG 1812347 SCNN1A-8499 + AAAGCAGGCACUGAAGGUG 19 12348 SCNN1A-8500 +GAAAGCAGGCACUGAAGGUG 20 12349 SCNN1A-8501 + GGAAAGCAGGCACUGAAGGUG 2112350 SCNN1A-8502 + GGGAAAGCAGGCACUGAAGGUG 22 12351 SCNN1A-8503 +AGGGAAAGCAGGCACUGAAGGUG 23 12352 SCNN1A-8504 + CAGGGAAAGCAGGCACUGAAGGUG24 12353 SCNN1A-8505 + AGUGAGUAGAGGCAGGUG 18 12354 SCNN1A-8506 +GAGUGAGUAGAGGCAGGUG 19 12355 SCNN1A-5713 + UGAGUGAGUAGAGGCAGGUG 20 9562SCNN1A-8507 + CUGAGUGAGUAGAGGCAGGUG 21 12356 SCNN1A-8508 +ACUGAGUGAGUAGAGGCAGGUG 22 12357 SCNN1A-8509 + CACUGAGUGAGUAGAGGCAGGUG 2312358 SCNN1A-8510 + GCACUGAGUGAGUAGAGGCAGGUG 24 12359 SCNN1A-8511 +GGGACAGGAUGGCAGGUG 18 12360 SCNN1A-8512 + GGGGACAGGAUGGCAGGUG 19 12361SCNN1A-5920 + GGGGGACAGGAUGGCAGGUG 20 9769 SCNN1A-8513 +UGGGGGACAGGAUGGCAGGUG 21 12362 SCNN1A-8514 + CUGGGGGACAGGAUGGCAGGUG 2212363 SCNN1A-8515 + GCUGGGGGACAGGAUGGCAGGUG 23 12364 SCNN1A-8516 +GGCUGGGGGACAGGAUGGCAGGUG 24 12365 SCNN1A-8517 + GCUGAGAGGGCCUGGGUG 1812366 SCNN1A-8518 + GGCUGAGAGGGCCUGGGUG 19 12367 SCNN1A-6177 +AGGCUGAGAGGGCCUGGGUG 20 10026 SCNN1A-8519 + CAGGCUGAGAGGGCCUGGGUG 2112368 SCNN1A-8520 + CCAGGCUGAGAGGGCCUGGGUG 22 12369 SCNN1A-8521 +GCCAGGCUGAGAGGGCCUGGGUG 23 12370 SCNN1A-8522 + AGCCAGGCUGAGAGGGCCUGGGUG24 12371 SCNN1A-1699 + GAGCCCCGGAGUGGAUUG 18 5548 SCNN1A-1700 +UGAGCCCCGGAGUGGAUUG 19 5549 SCNN1A-419 + AUGAGCCCCGGAGUGGAUUG 20 4268SCNN1A-1701 + CAUGAGCCCCGGAGUGGAUUG 21 5550 SCNN1A-1702 +UCAUGAGCCCCGGAGUGGAUUG 22 5551 SCNN1A-1703 + UUCAUGAGCCCCGGAGUGGAUUG 235552 SCNN1A-1704 + CUUCAUGAGCCCCGGAGUGGAUUG 24 5553 SCNN1A-8523 +GCUGUGGUCACAGAGUUG 18 12372 SCNN1A-8524 + UGCUGUGGUCACAGAGUUG 19 12373SCNN1A-8525 + CUGCUGUGGUCACAGAGUUG 20 12374 SCNN1A-8526 +CCUGCUGUGGUCACAGAGUUG 21 12375 SCNN1A-8527 + CCCUGCUGUGGUCACAGAGUUG 2212376 SCNN1A-8528 + CCCCUGCUGUGGUCACAGAGUUG 23 12377 SCNN1A-8529 +GCCCCUGCUGUGGUCACAGAGUUG 24 12378 SCNN1A-8530 + AGGAGGAGAAAUUCGUUG 1812379 SCNN1A-8531 + GAGGAGGAGAAAUUCGUUG 19 12380 SCNN1A-8532 +GGAGGAGGAGAAAUUCGUUG 20 12381 SCNN1A-8533 + GGGAGGAGGAGAAAUUCGUUG 2112382 SCNN1A-8534 + UGGGAGGAGGAGAAAUUCGUUG 22 12383 SCNN1A-8535 +CUGGGAGGAGGAGAAAUUCGUUG 23 12384 SCNN1A-8536 + CCUGGGAGGAGGAGAAAUUCGUUG24 12385 SCNN1A-8537 + GAGGUUAGAAAACAAAAU 18 12386 SCNN1A-8538 +UGAGGUUAGAAAACAAAAU 19 12387 SCNN1A-5720 + CUGAGGUUAGAAAACAAAAU 20 9569SCNN1A-8539 + UCUGAGGUUAGAAAACAAAAU 21 12388 SCNN1A-8540 +UUCUGAGGUUAGAAAACAAAAU 22 12389 SCNN1A-8541 + UUUCUGAGGUUAGAAAACAAAAU 2312390 SCNN1A-8542 + UUUUCUGAGGUUAGAAAACAAAAU 24 12391 SCNN1A-8543 +UCACAGAGUUGCAGGAAU 18 12392 SCNN1A-8544 + GUCACAGAGUUGCAGGAAU 19 12393SCNN1A-8545 + GGUCACAGAGUUGCAGGAAU 20 12394 SCNN1A-8546 +UGGUCACAGAGUUGCAGGAAU 21 12395 SCNN1A-8547 + GUGGUCACAGAGUUGCAGGAAU 2212396 SCNN1A-8548 + UGUGGUCACAGAGUUGCAGGAAU 23 12397 SCNN1A-8549 +CUGUGGUCACAGAGUUGCAGGAAU 24 12398 SCNN1A-8550 + UUCUCAGAGAUAAGACAU 1812399 SCNN1A-8551 + UUUCUCAGAGAUAAGACAU 19 12400 SCNN1A-8552 +AUUUCUCAGAGAUAAGACAU 20 12401 SCNN1A-8553 + GAUUUCUCAGAGAUAAGACAU 2112402 SCNN1A-8554 + AGAUUUCUCAGAGAUAAGACAU 22 12403 SCNN1A-8555 +CAGAUUUCUCAGAGAUAAGACAU 23 12404 SCNN1A-8556 + UCAGAUUUCUCAGAGAUAAGACAU24 12405 SCNN1A-8557 + UUCCUGAGACAGACUCAU 18 12406 SCNN1A-8558 +CUUCCUGAGACAGACUCAU 19 12407 SCNN1A-6179 + ACUUCCUGAGACAGACUCAU 20 10028SCNN1A-8559 + UACUUCCUGAGACAGACUCAU 21 12408 SCNN1A-8560 +UUACUUCCUGAGACAGACUCAU 22 12409 SCNN1A-8561 + UUUACUUCCUGAGACAGACUCAU 2312410 SCNN1A-8562 + AUUUACUUCCUGAGACAGACUCAU 24 12411 SCNN1A-8563 +CAGGUGAGGGGCAAAGAU 18 12412 SCNN1A-8564 + GCAGGUGAGGGGCAAAGAU 19 12413SCNN1A-8565 + GGCAGGUGAGGGGCAAAGAU 20 12414 SCNN1A-8566 +UGGCAGGUGAGGGGCAAAGAU 21 12415 SCNN1A-8567 + AUGGCAGGUGAGGGGCAAAGAU 2212416 SCNN1A-8568 + GAUGGCAGGUGAGGGGCAAAGAU 23 12417 SCNN1A-8569 +GGAUGGCAGGUGAGGGGCAAAGAU 24 12418 SCNN1A-8570 + UUAAUGCAGCAAAAGGAU 1812419 SCNN1A-8571 + CUUAAUGCAGCAAAAGGAU 19 12420 SCNN1A-8572 +ACUUAAUGCAGCAAAAGGAU 20 12421 SCNN1A-8573 + AACUUAAUGCAGCAAAAGGAU 2112422 SCNN1A-8574 + AAACUUAAUGCAGCAAAAGGAU 22 12423 SCNN1A-8575 +CAAACUUAAUGCAGCAAAAGGAU 23 12424 SCNN1A-8576 + CCAAACUUAAUGCAGCAAAAGGAU24 12425 SCNN1A-8577 + GACAGACUCAUGGGGGAU 18 12426 SCNN1A-8578 +AGACAGACUCAUGGGGGAU 19 12427 SCNN1A-5272 + GAGACAGACUCAUGGGGGAU 20 9121SCNN1A-8579 + UGAGACAGACUCAUGGGGGAU 21 12428 SCNN1A-8580 +CUGAGACAGACUCAUGGGGGAU 22 12429 SCNN1A-8581 + CCUGAGACAGACUCAUGGGGGAU 2312430 SCNN1A-8582 + UCCUGAGACAGACUCAUGGGGGAU 24 12431 SCNN1A-8583 +GCUCAGGUGCACCUGGAU 18 12432 SCNN1A-8584 + GGCUCAGGUGCACCUGGAU 19 12433SCNN1A-8585 + GGGCUCAGGUGCACCUGGAU 20 12434 SCNN1A-8586 +GGGGCUCAGGUGCACCUGGAU 21 12435 SCNN1A-8587 + CGGGGCUCAGGUGCACCUGGAU 2212436 SCNN1A-8588 + UCGGGGCUCAGGUGCACCUGGAU 23 12437 SCNN1A-8589 +AUCGGGGCUCAGGUGCACCUGGAU 24 12438 SCNN1A-1717 + AUGAGCCCCGGAGUGGAU 185566 SCNN1A-1718 + CAUGAGCCCCGGAGUGGAU 19 5567 SCNN1A-420 +UCAUGAGCCCCGGAGUGGAU 20 4269 SCNN1A-1719 + UUCAUGAGCCCCGGAGUGGAU 21 5568SCNN1A-1720 + CUUCAUGAGCCCCGGAGUGGAU 22 5569 SCNN1A-1721 +CCUUCAUGAGCCCCGGAGUGGAU 23 5570 SCNN1A-1722 + CCCUUCAUGAGCCCCGGAGUGGAU24 5571 SCNN1A-8590 + AGGGCCACGCAGGACACU 18 12439 SCNN1A-8591 +GAGGGCCACGCAGGACACU 19 12440 SCNN1A-8592 + CGAGGGCCACGCAGGACACU 20 12441SCNN1A-8593 + GCGAGGGCCACGCAGGACACU 21 12442 SCNN1A-8594 +CGCGAGGGCCACGCAGGACACU 22 12443 SCNN1A-8595 + GCGCGAGGGCCACGCAGGACACU 2312444 SCNN1A-8596 + AGCGCGAGGGCCACGCAGGACACU 24 12445 SCNN1A-8597 +GGCUCACUGCAGGAGACU 18 12446 SCNN1A-8598 + GGGCUCACUGCAGGAGACU 19 12447SCNN1A-8599 + GGGGCUCACUGCAGGAGACU 20 12448 SCNN1A-8600 +AGGGGCUCACUGCAGGAGACU 21 12449 SCNN1A-8601 + UAGGGGCUCACUGCAGGAGACU 2212450 SCNN1A-8602 + CUAGGGGCUCACUGCAGGAGACU 23 12451 SCNN1A-8603 +CCUAGGGGCUCACUGCAGGAGACU 24 12452 SCNN1A-8604 + AAAGGGCUGGAGGAGACU 1812453 SCNN1A-8605 + AAAAGGGCUGGAGGAGACU 19 12454 SCNN1A-5729 +AAAAAGGGCUGGAGGAGACU 20 9578 SCNN1A-8606 + CAAAAAGGGCUGGAGGAGACU 2112455 SCNN1A-8607 + CCAAAAAGGGCUGGAGGAGACU 22 12456 SCNN1A-8608 +CCCAAAAAGGGCUGGAGGAGACU 23 12457 SCNN1A-8609 + ACCCAAAAAGGGCUGGAGGAGACU24 12458 SCNN1A-8610 + GACCUGAGAAGGCGGACU 18 12459 SCNN1A-8611 +GGACCUGAGAAGGCGGACU 19 12460 SCNN1A-8612 + UGGACCUGAGAAGGCGGACU 20 12461SCNN1A-8613 + CUGGACCUGAGAAGGCGGACU 21 12462 SCNN1A-8614 +ACUGGACCUGAGAAGGCGGACU 22 12463 SCNN1A-8615 + UACUGGACCUGAGAAGGCGGACU 2312464 SCNN1A-8616 + GUACUGGACCUGAGAAGGCGGACU 24 12465 SCNN1A-8617 +CCUGGAGCCAGCAGACCU 18 12466 SCNN1A-8618 + UCCUGGAGCCAGCAGACCU 19 12467SCNN1A-8619 + UUCCUGGAGCCAGCAGACCU 20 12468 SCNN1A-8620 +UUUCCUGGAGCCAGCAGACCU 21 12469 SCNN1A-8621 + CUUUCCUGGAGCCAGCAGACCU 2212470 SCNN1A-8622 + CCUUUCCUGGAGCCAGCAGACCU 23 12471 SCNN1A-8623 +ACCUUUCCUGGAGCCAGCAGACCU 24 12472 SCNN1A-8624 + ACUGGGAGUACUGGACCU 1812473 SCNN1A-8625 + AACUGGGAGUACUGGACCU 19 12474 SCNN1A-8626 +GAACUGGGAGUACUGGACCU 20 12475 SCNN1A-8627 + UGAACUGGGAGUACUGGACCU 2112476 SCNN1A-8628 + GUGAACUGGGAGUACUGGACCU 22 12477 SCNN1A-8629 +GGUGAACUGGGAGUACUGGACCU 23 12478 SCNN1A-8630 + AGGUGAACUGGGAGUACUGGACCU24 12479 SCNN1A-1735 + GCUCAUGAUACCUCCCCU 18 5584 SCNN1A-1736 +UGCUCAUGAUACCUCCCCU 19 5585 SCNN1A-457 + CUGCUCAUGAUACCUCCCCU 20 4306SCNN1A-1737 + ACUGCUCAUGAUACCUCCCCU 21 5586 SCNN1A-1738 +UACUGCUCAUGAUACCUCCCCU 22 5587 SCNN1A-1739 + AUACUGCUCAUGAUACCUCCCCU 235588 SCNN1A-1740 + GAUACUGCUCAUGAUACCUCCCCU 24 5589 SCNN1A-8631 +CACGCCUAGACAGGCCCU 18 12480 SCNN1A-8632 + ACACGCCUAGACAGGCCCU 19 12481SCNN1A-5734 + CACACGCCUAGACAGGCCCU 20 9583 SCNN1A-8633 +GCACACGCCUAGACAGGCCCU 21 12482 SCNN1A-8634 + GGCACACGCCUAGACAGGCCCU 2212483 SCNN1A-8635 + UGGCACACGCCUAGACAGGCCCU 23 12484 SCNN1A-8636 +AUGGCACACGCCUAGACAGGCCCU 24 12485 SCNN1A-8637 + CAAGGGCUAGGGGAGCCU 1812486 SCNN1A-8638 + CCAAGGGCUAGGGGAGCCU 19 12487 SCNN1A-5275 +GCCAAGGGCUAGGGGAGCCU 20 9124 SCNN1A-8639 + AGCCAAGGGCUAGGGGAGCCU 2112488 SCNN1A-8640 + GAGCCAAGGGCUAGGGGAGCCU 22 12489 SCNN1A-8641 +AGAGCCAAGGGCUAGGGGAGCCU 23 12490 SCNN1A-8642 + AAGAGCCAAGGGCUAGGGGAGCCU24 12491 SCNN1A-8643 + CAGAAUUCUCCUCCUCCU 18 12492 SCNN1A-8644 +UCAGAAUUCUCCUCCUCCU 19 12493 SCNN1A-8645 + UUCAGAAUUCUCCUCCUCCU 20 12494SCNN1A-8646 + AUUCAGAAUUCUCCUCCUCCU 21 12495 SCNN1A-8647 +AAUUCAGAAUUCUCCUCCUCCU 22 12496 SCNN1A-8648 + GAAUUCAGAAUUCUCCUCCUCCU 2312497 SCNN1A-8649 + AGAAUUCAGAAUUCUCCUCCUCCU 24 12498 SCNN1A-8650 +AGGGGCCCAGGUGAAGCU 18 12499 SCNN1A-8651 + GAGGGGCCCAGGUGAAGCU 19 12500SCNN1A-5923 + GGAGGGGCCCAGGUGAAGCU 20 9772 SCNN1A-8652 +GGGAGGGGCCCAGGUGAAGCU 21 12501 SCNN1A-8653 + CGGGAGGGGCCCAGGUGAAGCU 2212502 SCNN1A-8654 + CCGGGAGGGGCCCAGGUGAAGCU 23 12503 SCNN1A-8655 +CCCGGGAGGGGCCCAGGUGAAGCU 24 12504 SCNN1A-8656 + GAUCCUGAGCCCACAGCU 1812505 SCNN1A-8657 + GGAUCCUGAGCCCACAGCU 19 12506 SCNN1A-5740 +AGGAUCCUGAGCCCACAGCU 20 9589 SCNN1A-8658 + AAGGAUCCUGAGCCCACAGCU 2112507 SCNN1A-8659 + GAAGGAUCCUGAGCCCACAGCU 22 12508 SCNN1A-8660 +AGAAGGAUCCUGAGCCCACAGCU 23 12509 SCNN1A-8661 + UAGAAGGAUCCUGAGCCCACAGCU24 12510 SCNN1A-1741 + CAGGGUCAAGGCUGAGCU 18 5590 SCNN1A-1742 +UCAGGGUCAAGGCUGAGCU 19 5591 SCNN1A-1743 + GUCAGGGUCAAGGCUGAGCU 20 5592SCNN1A-1744 + GGUCAGGGUCAAGGCUGAGCU 21 5593 SCNN1A-1745 +GGGUCAGGGUCAAGGCUGAGCU 22 5594 SCNN1A-1746 + AGGGUCAGGGUCAAGGCUGAGCU 235595 SCNN1A-1747 + AAGGGUCAGGGUCAAGGCUGAGCU 24 5596 SCNN1A-8662 +GAAGGGGCCAGCCAGGCU 18 12511 SCNN1A-8663 + AGAAGGGGCCAGCCAGGCU 19 12512SCNN1A-8664 + GAGAAGGGGCCAGCCAGGCU 20 12513 SCNN1A-8665 +GGAGAAGGGGCCAGCCAGGCU 21 12514 SCNN1A-8666 + AGGAGAAGGGGCCAGCCAGGCU 2212515 SCNN1A-8667 + AAGGAGAAGGGGCCAGCCAGGCU 23 12516 SCNN1A-8668 +CAAGGAGAAGGGGCCAGCCAGGCU 24 12517 SCNN1A-8669 + CAGACAGGCAAGGAGGCU 1812518 SCNN1A-8670 + GCAGACAGGCAAGGAGGCU 19 12519 SCNN1A-5742 +CGCAGACAGGCAAGGAGGCU 20 9591 SCNN1A-8671 + ACGCAGACAGGCAAGGAGGCU 2112520 SCNN1A-8672 + GACGCAGACAGGCAAGGAGGCU 22 12521 SCNN1A-8673 +AGACGCAGACAGGCAAGGAGGCU 23 12522 SCNN1A-8674 + UAGACGCAGACAGGCAAGGAGGCU24 12523 SCNN1A-8675 + ACAUAAGAGCCAAGGGCU 18 12524 SCNN1A-8676 +GACAUAAGAGCCAAGGGCU 19 12525 SCNN1A-5743 + AGACAUAAGAGCCAAGGGCU 20 9592SCNN1A-8677 + AAGACAUAAGAGCCAAGGGCU 21 12526 SCNN1A-8678 +UAAGACAUAAGAGCCAAGGGCU 22 12527 SCNN1A-8679 + AUAAGACAUAAGAGCCAAGGGCU 2312528 SCNN1A-8680 + GAUAAGACAUAAGAGCCAAGGGCU 24 12529 SCNN1A-8681 +AGGGCGGGGGGAGGGGCU 18 12530 SCNN1A-8682 + CAGGGCGGGGGGAGGGGCU 19 12531SCNN1A-8683 + GCAGGGCGGGGGGAGGGGCU 20 12532 SCNN1A-8684 +AGCAGGGCGGGGGGAGGGGCU 21 12533 SCNN1A-8685 + GAGCAGGGCGGGGGGAGGGGCU 2212534 SCNN1A-8686 + UGAGCAGGGCGGGGGGAGGGGCU 23 12535 SCNN1A-8687 +GUGAGCAGGGCGGGGGGAGGGGCU 24 12536 SCNN1A-8688 + AGGUGCAGCGGCCUGGCU 1812537 SCNN1A-8689 + CAGGUGCAGCGGCCUGGCU 19 12538 SCNN1A-5744 +ACAGGUGCAGCGGCCUGGCU 20 9593 SCNN1A-8690 + GACAGGUGCAGCGGCCUGGCU 2112539 SCNN1A-8691 + UGACAGGUGCAGCGGCCUGGCU 22 12540 SCNN1A-8692 +CUGACAGGUGCAGCGGCCUGGCU 23 12541 SCNN1A-8693 + CCUGACAGGUGCAGCGGCCUGGCU24 12542 SCNN1A-8694 + UUUCAUAUCAAGGGCUCU 18 12543 SCNN1A-8695 +UUUUCAUAUCAAGGGCUCU 19 12544 SCNN1A-8696 + GUUUUCAUAUCAAGGGCUCU 20 12545SCNN1A-8697 + AGUUUUCAUAUCAAGGGCUCU 21 12546 SCNN1A-8698 +UAGUUUUCAUAUCAAGGGCUCU 22 12547 SCNN1A-8699 + AUAGUUUUCAUAUCAAGGGCUCU 2312548 SCNN1A-8700 + AAUAGUUUUCAUAUCAAGGGCUCU 24 12549 SCNN1A-8701 +GGUUAUCUCCUUGGCUCU 18 12550 SCNN1A-8702 + GGGUUAUCUCCUUGGCUCU 19 12551SCNN1A-8703 + UGGGUUAUCUCCUUGGCUCU 20 12552 SCNN1A-8704 +CUGGGUUAUCUCCUUGGCUCU 21 12553 SCNN1A-8705 + GCUGGGUUAUCUCCUUGGCUCU 2212554 SCNN1A-8706 + UGCUGGGUUAUCUCCUUGGCUCU 23 12555 SCNN1A-8707 +GUGCUGGGUUAUCUCCUUGGCUCU 24 12556 SCNN1A-8708 + UGCAGAUCUCAGAUUUCU 1812557 SCNN1A-8709 + GUGCAGAUCUCAGAUUUCU 19 12558 SCNN1A-8710 +AGUGCAGAUCUCAGAUUUCU 20 12559 SCNN1A-8711 + AAGUGCAGAUCUCAGAUUUCU 2112560 SCNN1A-8712 + AAAGUGCAGAUCUCAGAUUUCU 22 12561 SCNN1A-8713 +AAAAGUGCAGAUCUCAGAUUUCU 23 12562 SCNN1A-8714 + CAAAAGUGCAGAUCUCAGAUUUCU24 12563 SCNN1A-8715 + CCUCCCCGCUCACUAAGU 18 12564 SCNN1A-8716 +UCCUCCCCGCUCACUAAGU 19 12565 SCNN1A-5752 + CUCCUCCCCGCUCACUAAGU 20 9601SCNN1A-8717 + UCUCCUCCCCGCUCACUAAGU 21 12566 SCNN1A-8718 +GUCUCCUCCCCGCUCACUAAGU 22 12567 SCNN1A-8719 + GGUCUCCUCCCCGCUCACUAAGU 2312568 SCNN1A-8720 + AGGUCUCCUCCCCGCUCACUAAGU 24 12569 SCNN1A-8721 +GAGGGGCUGAGGAGGAGU 18 12570 SCNN1A-8722 + GGAGGGGCUGAGGAGGAGU 19 12571SCNN1A-8723 + GGGAGGGGCUGAGGAGGAGU 20 12572 SCNN1A-8724 +GGGGAGGGGCUGAGGAGGAGU 21 12573 SCNN1A-8725 + GGGGGAGGGGCUGAGGAGGAGU 2212574 SCNN1A-8726 + GGGGGGAGGGGCUGAGGAGGAGU 23 12575 SCNN1A-8727 +CGGGGGGAGGGGCUGAGGAGGAGU 24 12576 SCNN1A-8728 + CAGCAGACCUGCGGGAGU 1812577 SCNN1A-8729 + CCAGCAGACCUGCGGGAGU 19 12578 SCNN1A-5278 +GCCAGCAGACCUGCGGGAGU 20 9127 SCNN1A-8730 + AGCCAGCAGACCUGCGGGAGU 2112579 SCNN1A-8731 + GAGCCAGCAGACCUGCGGGAGU 22 12580 SCNN1A-8732 +GGAGCCAGCAGACCUGCGGGAGU 23 12581 SCNN1A-8733 + UGGAGCCAGCAGACCUGCGGGAGU24 12582 SCNN1A-8734 + GAGUGAGUAGAGGCAGGU 18 12583 SCNN1A-8735 +UGAGUGAGUAGAGGCAGGU 19 12584 SCNN1A-5756 + CUGAGUGAGUAGAGGCAGGU 20 9605SCNN1A-8736 + ACUGAGUGAGUAGAGGCAGGU 21 12585 SCNN1A-8737 +CACUGAGUGAGUAGAGGCAGGU 22 12586 SCNN1A-8738 + GCACUGAGUGAGUAGAGGCAGGU 2312587 SCNN1A-8739 + GGCACUGAGUGAGUAGAGGCAGGU 24 12588 SCNN1A-8740 +GGGGACAGGAUGGCAGGU 18 12589 SCNN1A-8741 + GGGGGACAGGAUGGCAGGU 19 12590SCNN1A-8742 + UGGGGGACAGGAUGGCAGGU 20 12591 SCNN1A-8743 +CUGGGGGACAGGAUGGCAGGU 21 12592 SCNN1A-8744 + GCUGGGGGACAGGAUGGCAGGU 2212593 SCNN1A-8745 + GGCUGGGGGACAGGAUGGCAGGU 23 12594 SCNN1A-8746 +AGGCUGGGGGACAGGAUGGCAGGU 24 12595 SCNN1A-8747 + UGCAGGGCUCCAGGAGGU 1812596 SCNN1A-8748 + CUGCAGGGCUCCAGGAGGU 19 12597 SCNN1A-8749 +ACUGCAGGGCUCCAGGAGGU 20 12598 SCNN1A-8750 + GACUGCAGGGCUCCAGGAGGU 2112599 SCNN1A-8751 + GGACUGCAGGGCUCCAGGAGGU 22 12600 SCNN1A-8752 +AGGACUGCAGGGCUCCAGGAGGU 23 12601 SCNN1A-8753 + CAGGACUGCAGGGCUCCAGGAGGU24 12602 SCNN1A-8754 + AAAUCAGUUUUCUGAGGU 18 12603 SCNN1A-8755 +UAAAUCAGUUUUCUGAGGU 19 12604 SCNN1A-8756 + AUAAAUCAGUUUUCUGAGGU 20 12605SCNN1A-8757 + GAUAAAUCAGUUUUCUGAGGU 21 12606 SCNN1A-8758 +GGAUAAAUCAGUUUUCUGAGGU 22 12607 SCNN1A-8759 + AGGAUAAAUCAGUUUUCUGAGGU 2312608 SCNN1A-8760 + AAGGAUAAAUCAGUUUUCUGAGGU 24 12609 SCNN1A-8761 +AAGGAGAGAGAGGAGGGU 18 12610 SCNN1A-8762 + CAAGGAGAGAGAGGAGGGU 19 12611SCNN1A-8763 + GCAAGGAGAGAGAGGAGGGU 20 12612 SCNN1A-8764 +AGCAAGGAGAGAGAGGAGGGU 21 12613 SCNN1A-8765 + GAGCAAGGAGAGAGAGGAGGGU 2212614 SCNN1A-8766 + UGAGCAAGGAGAGAGAGGAGGGU 23 12615 SCNN1A-8767 +GUGAGCAAGGAGAGAGAGGAGGGU 24 12616 SCNN1A-8768 + GGCUGAGAGGGCCUGGGU 1812617 SCNN1A-8769 + AGGCUGAGAGGGCCUGGGU 19 12618 SCNN1A-6188 +CAGGCUGAGAGGGCCUGGGU 20 10037 SCNN1A-8770 + CCAGGCUGAGAGGGCCUGGGU 2112619 SCNN1A-8771 + GCCAGGCUGAGAGGGCCUGGGU 22 12620 SCNN1A-8772 +AGCCAGGCUGAGAGGGCCUGGGU 23 12621 SCNN1A-8773 + CAGCCAGGCUGAGAGGGCCUGGGU24 12622 SCNN1A-1772 + CCCUCCAUGAGACCUGGU 18 5621 SCNN1A-1773 +CCCCUCCAUGAGACCUGGU 19 5622 SCNN1A-199 + UCCCCUCCAUGAGACCUGGU 20 828SCNN1A-1774 + UUCCCCUCCAUGAGACCUGGU 21 5623 SCNN1A-1775 +GUUCCCCUCCAUGAGACCUGGU 22 5624 SCNN1A-1776 + UGUUCCCCUCCAUGAGACCUGGU 235625 SCNN1A-1777 + UUGUUCCCCUCCAUGAGACCUGGU 24 5626 SCNN1A-8774 +CAGGUGGGGGGCAGUGGU 18 12623 SCNN1A-8775 + GCAGGUGGGGGGCAGUGGU 19 12624SCNN1A-5928 + GGCAGGUGGGGGGCAGUGGU 20 9777 SCNN1A-8776 +AGGCAGGUGGGGGGCAGUGGU 21 12625 SCNN1A-8777 + GAGGCAGGUGGGGGGCAGUGGU 2212626 SCNN1A-8778 + AGAGGCAGGUGGGGGGCAGUGGU 23 12627 SCNN1A-8779 +UAGAGGCAGGUGGGGGGCAGUGGU 24 12628 SCNN1A-8780 + UCAUAUCAAGGGCUCUGU 1812629 SCNN1A-8781 + UUCAUAUCAAGGGCUCUGU 19 12630 SCNN1A-8782 +UUUCAUAUCAAGGGCUCUGU 20 12631 SCNN1A-8783 + UUUUCAUAUCAAGGGCUCUGU 2112632 SCNN1A-8784 + GUUUUCAUAUCAAGGGCUCUGU 22 12633 SCNN1A-8785 +AGUUUUCAUAUCAAGGGCUCUGU 23 12634 SCNN1A-8786 + UAGUUUUCAUAUCAAGGGCUCUGU24 12635 SCNN1A-1778 + UGAGCCCCGGAGUGGAUU 18 5627 SCNN1A-1779 +AUGAGCCCCGGAGUGGAUU 19 5628 SCNN1A-425 + CAUGAGCCCCGGAGUGGAUU 20 4274SCNN1A-1780 + UCAUGAGCCCCGGAGUGGAUU 21 5629 SCNN1A-1781 +UUCAUGAGCCCCGGAGUGGAUU 22 5630 SCNN1A-1782 + CUUCAUGAGCCCCGGAGUGGAUU 235631 SCNN1A-1783 + CCUUCAUGAGCCCCGGAGUGGAUU 24 5632 SCNN1A-8787 +UGUUUGAUCUCAAAGGUU 18 12636 SCNN1A-8788 + CUGUUUGAUCUCAAAGGUU 19 12637SCNN1A-8789 + GCUGUUUGAUCUCAAAGGUU 20 12638 SCNN1A-8790 +GGCUGUUUGAUCUCAAAGGUU 21 12639 SCNN1A-8791 + UGGCUGUUUGAUCUCAAAGGUU 2212640 SCNN1A-8792 + CUGGCUGUUUGAUCUCAAAGGUU 23 12641 SCNN1A-8793 +CCUGGCUGUUUGAUCUCAAAGGUU 24 12642 SCNN1A-8794 + CAAGGAUAAAUCAGUUUU 1812643 SCNN1A-8795 + CCAAGGAUAAAUCAGUUUU 19 12644 SCNN1A-8796 +CCCAAGGAUAAAUCAGUUUU 20 12645 SCNN1A-8797 + UCCCAAGGAUAAAUCAGUUUU 2112646 SCNN1A-8798 + UUCCCAAGGAUAAAUCAGUUUU 22 12647 SCNN1A-8799 +CUUCCCAAGGAUAAAUCAGUUUU 23 12648 SCNN1A-8800 + CCUUCCCAAGGAUAAAUCAGUUUU24 12649 SCNN1A-8801 + GUCAGAGCCGGGAGUUUU 18 12650 SCNN1A-8802 +AGUCAGAGCCGGGAGUUUU 19 12651 SCNN1A-8803 + GAGUCAGAGCCGGGAGUUUU 20 12652SCNN1A-8804 + GGAGUCAGAGCCGGGAGUUUU 21 12653 SCNN1A-8805 +AGGAGUCAGAGCCGGGAGUUUU 22 12654 SCNN1A-8806 + GAGGAGUCAGAGCCGGGAGUUUU 2312655 SCNN1A-8807 + GGAGGAGUCAGAGCCGGGAGUUUU 24 12656 SCNN1A-8808 −GCAGCCAACAGUGUAAAA 18 12657 SCNN1A-8809 − GGCAGCCAACAGUGUAAAA 19 12658SCNN1A-8810 − UGGCAGCCAACAGUGUAAAA 20 12659 SCNN1A-8811 −CUGGCAGCCAACAGUGUAAAA 21 12660 SCNN1A-8812 − CCUGGCAGCCAACAGUGUAAAA 2212661 SCNN1A-8813 − GCCUGGCAGCCAACAGUGUAAAA 23 12662 SCNN1A-8814 −GGCCUGGCAGCCAACAGUGUAAAA 24 12663 SCNN1A-8815 − UCUUUUAAAGUGUACAAA 1812664 SCNN1A-8816 − AUCUUUUAAAGUGUACAAA 19 12665 SCNN1A-8817 −AAUCUUUUAAAGUGUACAAA 20 12666 SCNN1A-8818 − CAAUCUUUUAAAGUGUACAAA 2112667 SCNN1A-8819 − ACAAUCUUUUAAAGUGUACAAA 22 12668 SCNN1A-8820 −GACAAUCUUUUAAAGUGUACAAA 23 12669 SCNN1A-8821 − AGACAAUCUUUUAAAGUGUACAAA24 12670 SCNN1A-8822 − GAGCAGGAGAGACCCAAA 18 12671 SCNN1A-8823 −AGAGCAGGAGAGACCCAAA 19 12672 SCNN1A-8824 − GAGAGCAGGAGAGACCCAAA 20 12673SCNN1A-8825 − GGAGAGCAGGAGAGACCCAAA 21 12674 SCNN1A-8826 −AGGAGAGCAGGAGAGACCCAAA 22 12675 SCNN1A-8827 − GAGGAGAGCAGGAGAGACCCAAA 2312676 SCNN1A-8828 − AGAGGAGAGCAGGAGAGACCCAAA 24 12677 SCNN1A-8829 −CAGGCAUGAGCUGGCAAA 18 12678 SCNN1A-8830 − UCAGGCAUGAGCUGGCAAA 19 12679SCNN1A-8831 − UUCAGGCAUGAGCUGGCAAA 20 12680 SCNN1A-8832 −UUUCAGGCAUGAGCUGGCAAA 21 12681 SCNN1A-8833 − AUUUCAGGCAUGAGCUGGCAAA 2212682 SCNN1A-8834 − GAUUUCAGGCAUGAGCUGGCAAA 23 12683 SCNN1A-8835 −GGAUUUCAGGCAUGAGCUGGCAAA 24 12684 SCNN1A-8836 − AGGGGGCAGAGACAGAAA 1812685 SCNN1A-8837 − AAGGGGGCAGAGACAGAAA 19 12686 SCNN1A-5863 −GAAGGGGGCAGAGACAGAAA 20 9712 SCNN1A-8838 − GGAAGGGGGCAGAGACAGAAA 2112687 SCNN1A-8839 − AGGAAGGGGGCAGAGACAGAAA 22 12688 SCNN1A-8840 −AAGGAAGGGGGCAGAGACAGAAA 23 12689 SCNN1A-8841 − AAAGGAAGGGGGCAGAGACAGAAA24 12690 SCNN1A-8842 − GAGGAGGCAGGCCAGAAA 18 12691 SCNN1A-8843 −AGAGGAGGCAGGCCAGAAA 19 12692 SCNN1A-8844 − GAGAGGAGGCAGGCCAGAAA 20 12693SCNN1A-8845 − AGAGAGGAGGCAGGCCAGAAA 21 12694 SCNN1A-8846 −GAGAGAGGAGGCAGGCCAGAAA 22 12695 SCNN1A-8847 − AGAGAGAGGAGGCAGGCCAGAAA 2312696 SCNN1A-8848 − UAGAGAGAGGAGGCAGGCCAGAAA 24 12697 SCNN1A-8849 −GAGAGACCCAAAGAGAAA 18 12698 SCNN1A-8850 − GGAGAGACCCAAAGAGAAA 19 12699SCNN1A-8851 − AGGAGAGACCCAAAGAGAAA 20 12700 SCNN1A-8852 −CAGGAGAGACCCAAAGAGAAA 21 12701 SCNN1A-8853 − GCAGGAGAGACCCAAAGAGAAA 2212702 SCNN1A-8854 − AGCAGGAGAGACCCAAAGAGAAA 23 12703 SCNN1A-8855 −GAGCAGGAGAGACCCAAAGAGAAA 24 12704 SCNN1A-8856 − CGAGGAAUCAGCAGGAAA 1812705 SCNN1A-8857 − GCGAGGAAUCAGCAGGAAA 19 12706 SCNN1A-8858 −GGCGAGGAAUCAGCAGGAAA 20 12707 SCNN1A-8859 − UGGCGAGGAAUCAGCAGGAAA 2112708 SCNN1A-8860 − GUGGCGAGGAAUCAGCAGGAAA 22 12709 SCNN1A-8861 −GGUGGCGAGGAAUCAGCAGGAAA 23 12710 SCNN1A-8862 − GGGUGGCGAGGAAUCAGCAGGAAA24 12711 SCNN1A-8863 − CUGGAGGAAGAAGACCAA 18 12712 SCNN1A-8864 −CCUGGAGGAAGAAGACCAA 19 12713 SCNN1A-5519 − UCCUGGAGGAAGAAGACCAA 20 9368SCNN1A-8865 − AUCCUGGAGGAAGAAGACCAA 21 12714 SCNN1A-8866 −GAUCCUGGAGGAAGAAGACCAA 22 12715 SCNN1A-8867 − AGAUCCUGGAGGAAGAAGACCAA 2312716 SCNN1A-8868 − CAGAUCCUGGAGGAAGAAGACCAA 24 12717 SCNN1A-8869 −UCCAGCUGUCCCUUCCAA 18 12718 SCNN1A-8870 − AUCCAGCUGUCCCUUCCAA 19 12719SCNN1A-5521 − AAUCCAGCUGUCCCUUCCAA 20 9370 SCNN1A-8871 −AAAUCCAGCUGUCCCUUCCAA 21 12720 SCNN1A-8872 − AAAAUCCAGCUGUCCCUUCCAA 2212721 SCNN1A-8873 − AAAAAUCCAGCUGUCCCUUCCAA 23 12722 SCNN1A-8874 −GAAAAAUCCAGCUGUCCCUUCCAA 24 12723 SCNN1A-1790 − CAGUAUCAAGGUAAGCAA 185639 SCNN1A-1791 − GCAGUAUCAAGGUAAGCAA 19 5640 SCNN1A-393 −AGCAGUAUCAAGGUAAGCAA 20 4242 SCNN1A-1792 − GAGCAGUAUCAAGGUAAGCAA 21 5641SCNN1A-1793 − UGAGCAGUAUCAAGGUAAGCAA 22 5642 SCNN1A-1794 −AUGAGCAGUAUCAAGGUAAGCAA 23 5643 SCNN1A-1795 − CAUGAGCAGUAUCAAGGUAAGCAA24 5644 SCNN1A-8875 − CGCAAGAGACUGCCGCAA 18 12724 SCNN1A-8876 −UCGCAAGAGACUGCCGCAA 19 12725 SCNN1A-8877 − GUCGCAAGAGACUGCCGCAA 20 12726SCNN1A-8878 − AGUCGCAAGAGACUGCCGCAA 21 12727 SCNN1A-8879 −AAGUCGCAAGAGACUGCCGCAA 22 12728 SCNN1A-8880 − GAAGUCGCAAGAGACUGCCGCAA 2312729 SCNN1A-8881 − AGAAGUCGCAAGAGACUGCCGCAA 24 12730 SCNN1A-8882 −UGAGAGGGGGCAAGGCAA 18 12731 SCNN1A-8883 − GUGAGAGGGGGCAAGGCAA 19 12732SCNN1A-6079 − AGUGAGAGGGGGCAAGGCAA 20 9928 SCNN1A-8884 −GAGUGAGAGGGGGCAAGGCAA 21 12733 SCNN1A-8885 − AGAGUGAGAGGGGGCAAGGCAA 2212734 SCNN1A-8886 − UAGAGUGAGAGGGGGCAAGGCAA 23 12735 SCNN1A-8887 −CUAGAGUGAGAGGGGGCAAGGCAA 24 12736 SCNN1A-8888 − UGUAAGGACCUGGCUCAA 1812737 SCNN1A-8889 − AUGUAAGGACCUGGCUCAA 19 12738 SCNN1A-5522 −AAUGUAAGGACCUGGCUCAA 20 9371 SCNN1A-8890 − CAAUGUAAGGACCUGGCUCAA 2112739 SCNN1A-8891 − CCAAUGUAAGGACCUGGCUCAA 22 12740 SCNN1A-8892 −CCCAAUGUAAGGACCUGGCUCAA 23 12741 SCNN1A-8893 − GCCCAAUGUAAGGACCUGGCUCAA24 12742 SCNN1A-8894 − UUUGGCUGCCAGAUUCAA 18 12743 SCNN1A-8895 −GUUUGGCUGCCAGAUUCAA 19 12744 SCNN1A-8896 − GGUUUGGCUGCCAGAUUCAA 20 12745SCNN1A-8897 − AGGUUUGGCUGCCAGAUUCAA 21 12746 SCNN1A-8898 −GAGGUUUGGCUGCCAGAUUCAA 22 12747 SCNN1A-8899 − AGAGGUUUGGCUGCCAGAUUCAA 2312748 SCNN1A-8900 − GAGAGGUUUGGCUGCCAGAUUCAA 24 12749 SCNN1A-8901 −AAGGGGGCAGAGACAGAA 18 12750 SCNN1A-8902 − GAAGGGGGCAGAGACAGAA 19 12751SCNN1A-5864 − GGAAGGGGGCAGAGACAGAA 20 9713 SCNN1A-8903 −AGGAAGGGGGCAGAGACAGAA 21 12752 SCNN1A-8904 − AAGGAAGGGGGCAGAGACAGAA 2212753 SCNN1A-8905 − AAAGGAAGGGGGCAGAGACAGAA 23 12754 SCNN1A-8906 −CAAAGGAAGGGGGCAGAGACAGAA 24 12755 SCNN1A-8907 − GGAAGAAGACCAAAGGAA 1812756 SCNN1A-8908 − AGGAAGAAGACCAAAGGAA 19 12757 SCNN1A-5865 −GAGGAAGAAGACCAAAGGAA 20 9714 SCNN1A-8909 − GGAGGAAGAAGACCAAAGGAA 2112758 SCNN1A-8910 − UGGAGGAAGAAGACCAAAGGAA 22 12759 SCNN1A-8911 −CUGGAGGAAGAAGACCAAAGGAA 23 12760 SCNN1A-8912 − CCUGGAGGAAGAAGACCAAAGGAA24 12761 SCNN1A-8913 − GCAAGGGGGGGAGAGGAA 18 12762 SCNN1A-8914 −GGCAAGGGGGGGAGAGGAA 19 12763 SCNN1A-8915 − AGGCAAGGGGGGGAGAGGAA 20 12764SCNN1A-8916 − AAGGCAAGGGGGGGAGAGGAA 21 12765 SCNN1A-8917 −CAAGGCAAGGGGGGGAGAGGAA 22 12766 SCNN1A-8918 − GCAAGGCAAGGGGGGGAGAGGAA 2312767 SCNN1A-8919 − GGCAAGGCAAGGGGGGGAGAGGAA 24 12768 SCNN1A-8920 −UGCCAGAUUCAACUGGAA 18 12769 SCNN1A-8921 − CUGCCAGAUUCAACUGGAA 19 12770SCNN1A-5173 − GCUGCCAGAUUCAACUGGAA 20 9022 SCNN1A-8922 −GGCUGCCAGAUUCAACUGGAA 21 12771 SCNN1A-8923 − UGGCUGCCAGAUUCAACUGGAA 2212772 SCNN1A-8924 − UUGGCUGCCAGAUUCAACUGGAA 23 12773 SCNN1A-8925 −UUUGGCUGCCAGAUUCAACUGGAA 24 12774 SCNN1A-1802 − CACUCCGGGGCUCAUGAA 185651 SCNN1A-1803 − CCACUCCGGGGCUCAUGAA 19 5652 SCNN1A-451 −UCCACUCCGGGGCUCAUGAA 20 4300 SCNN1A-1804 − AUCCACUCCGGGGCUCAUGAA 21 5653SCNN1A-1805 − AAUCCACUCCGGGGCUCAUGAA 22 5654 SCNN1A-1806 −CAAUCCACUCCGGGGCUCAUGAA 23 5655 SCNN1A-1807 − CCAAUCCACUCCGGGGCUCAUGAA24 5656 SCNN1A-8926 − CGCCCUGCUCACCUUUAA 18 12775 SCNN1A-8927 −CCGCCCUGCUCACCUUUAA 19 12776 SCNN1A-8928 − CCCGCCCUGCUCACCUUUAA 20 12777SCNN1A-8929 − CCCCGCCCUGCUCACCUUUAA 21 12778 SCNN1A-8930 −CCCCCGCCCUGCUCACCUUUAA 22 12779 SCNN1A-8931 − CCCCCCGCCCUGCUCACCUUUAA 2312780 SCNN1A-8932 − UCCCCCCGCCCUGCUCACCUUUAA 24 12781 SCNN1A-8933 −AGUUUCUUCAUUAGGACA 18 12782 SCNN1A-8934 − CAGUUUCUUCAUUAGGACA 19 12783SCNN1A-8935 − UCAGUUUCUUCAUUAGGACA 20 12784 SCNN1A-8936 −GUCAGUUUCUUCAUUAGGACA 21 12785 SCNN1A-8937 − GGUCAGUUUCUUCAUUAGGACA 2212786 SCNN1A-8938 − GGGUCAGUUUCUUCAUUAGGACA 23 12787 SCNN1A-8939 −AGGGUCAGUUUCUUCAUUAGGACA 24 12788 SCNN1A-8940 − CCUGGAGGAAGAAGACCA 1812789 SCNN1A-8941 − UCCUGGAGGAAGAAGACCA 19 12790 SCNN1A-8942 −AUCCUGGAGGAAGAAGACCA 20 12791 SCNN1A-8943 − GAUCCUGGAGGAAGAAGACCA 2112792 SCNN1A-8944 − AGAUCCUGGAGGAAGAAGACCA 22 12793 SCNN1A-8945 −CAGAUCCUGGAGGAAGAAGACCA 23 12794 SCNN1A-8946 − ACAGAUCCUGGAGGAAGAAGACCA24 12795 SCNN1A-8947 − GAGAUAACCCAGCACCCA 18 12796 SCNN1A-8948 −GGAGAUAACCCAGCACCCA 19 12797 SCNN1A-8949 − AGGAGAUAACCCAGCACCCA 20 12798SCNN1A-8950 − AAGGAGAUAACCCAGCACCCA 21 12799 SCNN1A-8951 −CAAGGAGAUAACCCAGCACCCA 22 12800 SCNN1A-8952 − CCAAGGAGAUAACCCAGCACCCA 2312801 SCNN1A-8953 − GCCAAGGAGAUAACCCAGCACCCA 24 12802 SCNN1A-8954 −GAGAGCAGGAGAGACCCA 18 12803 SCNN1A-8955 − GGAGAGCAGGAGAGACCCA 19 12804SCNN1A-8956 − AGGAGAGCAGGAGAGACCCA 20 12805 SCNN1A-8957 −GAGGAGAGCAGGAGAGACCCA 21 12806 SCNN1A-8958 − AGAGGAGAGCAGGAGAGACCCA 2212807 SCNN1A-8959 − AAGAGGAGAGCAGGAGAGACCCA 23 12808 SCNN1A-8960 −AAAGAGGAGAGCAGGAGAGACCCA 24 12809 SCNN1A-8961 − GCUAAGUAGAUAGCCCCA 1812810 SCNN1A-8962 − CGCUAAGUAGAUAGCCCCA 19 12811 SCNN1A-8963 −GCGCUAAGUAGAUAGCCCCA 20 12812 SCNN1A-8964 − AGCGCUAAGUAGAUAGCCCCA 2112813 SCNN1A-8965 − AAGCGCUAAGUAGAUAGCCCCA 22 12814 SCNN1A-8966 −AAAGCGCUAAGUAGAUAGCCCCA 23 12815 SCNN1A-8967 − AAAAGCGCUAAGUAGAUAGCCCCA24 12816 SCNN1A-8968 − GACCUUUUCACAGAGCCA 18 12817 SCNN1A-8969 −AGACCUUUUCACAGAGCCA 19 12818 SCNN1A-5866 − GAGACCUUUUCACAGAGCCA 20 9715SCNN1A-8970 − AGAGACCUUUUCACAGAGCCA 21 12819 SCNN1A-8971 −CAGAGACCUUUUCACAGAGCCA 22 12820 SCNN1A-8972 − GCAGAGACCUUUUCACAGAGCCA 2312821 SCNN1A-8973 − UGCAGAGACCUUUUCACAGAGCCA 24 12822 SCNN1A-8974 −UCCAUCCCUGGCCGGCCA 18 12823 SCNN1A-8975 − UUCCAUCCCUGGCCGGCCA 19 12824SCNN1A-8976 − CUUCCAUCCCUGGCCGGCCA 20 12825 SCNN1A-8977 −GCUUCCAUCCCUGGCCGGCCA 21 12826 SCNN1A-8978 − CGCUUCCAUCCCUGGCCGGCCA 2212827 SCNN1A-8979 − UCGCUUCCAUCCCUGGCCGGCCA 23 12828 SCNN1A-8980 −GUCGCUUCCAUCCCUGGCCGGCCA 24 12829 SCNN1A-8981 − AUCCAGCUGUCCCUUCCA 1812830 SCNN1A-8982 − AAUCCAGCUGUCCCUUCCA 19 12831 SCNN1A-5531 −AAAUCCAGCUGUCCCUUCCA 20 9380 SCNN1A-8983 − AAAAUCCAGCUGUCCCUUCCA 2112832 SCNN1A-8984 − AAAAAUCCAGCUGUCCCUUCCA 22 12833 SCNN1A-8985 −GAAAAAUCCAGCUGUCCCUUCCA 23 12834 SCNN1A-8986 − AGAAAAAUCCAGCUGUCCCUUCCA24 12835 SCNN1A-8987 − GGCCCUAUCAGGGAAGCA 18 12836 SCNN1A-8988 −UGGCCCUAUCAGGGAAGCA 19 12837 SCNN1A-8989 − GUGGCCCUAUCAGGGAAGCA 20 12838SCNN1A-8990 − GGUGGCCCUAUCAGGGAAGCA 21 12839 SCNN1A-8991 −AGGUGGCCCUAUCAGGGAAGCA 22 12840 SCNN1A-8992 − AAGGUGGCCCUAUCAGGGAAGCA 2312841 SCNN1A-8993 − AAAGGUGGCCCUAUCAGGGAAGCA 24 12842 SCNN1A-1808 −GCAGUAUCAAGGUAAGCA 18 5657 SCNN1A-1809 − AGCAGUAUCAAGGUAAGCA 19 5658SCNN1A-342 − GAGCAGUAUCAAGGUAAGCA 20 4191 SCNN1A-1810 −UGAGCAGUAUCAAGGUAAGCA 21 5659 SCNN1A-1811 − AUGAGCAGUAUCAAGGUAAGCA 225660 SCNN1A-1812 − CAUGAGCAGUAUCAAGGUAAGCA 23 5661 SCNN1A-1813 −UCAUGAGCAGUAUCAAGGUAAGCA 24 5662 SCNN1A-8994 − UGGCAAAUAGAAAAGGCA 1812843 SCNN1A-8995 − CUGGCAAAUAGAAAAGGCA 19 12844 SCNN1A-5180 −GCUGGCAAAUAGAAAAGGCA 20 9029 SCNN1A-8996 − AGCUGGCAAAUAGAAAAGGCA 2112845 SCNN1A-8997 − GAGCUGGCAAAUAGAAAAGGCA 22 12846 SCNN1A-8998 −UGAGCUGGCAAAUAGAAAAGGCA 23 12847 SCNN1A-8999 − AUGAGCUGGCAAAUAGAAAAGGCA24 12848 SCNN1A-9000 − GUGAGAGGGGGCAAGGCA 18 12849 SCNN1A-9001 −AGUGAGAGGGGGCAAGGCA 19 12850 SCNN1A-5868 − GAGUGAGAGGGGGCAAGGCA 20 9717SCNN1A-9002 − AGAGUGAGAGGGGGCAAGGCA 21 12851 SCNN1A-9003 −UAGAGUGAGAGGGGGCAAGGCA 22 12852 SCNN1A-9004 − CUAGAGUGAGAGGGGGCAAGGCA 2312853 SCNN1A-9005 − CCUAGAGUGAGAGGGGGCAAGGCA 24 12854 SCNN1A-9006 −UCUGGGAUAUGUGGGGCA 18 12855 SCNN1A-9007 − CUCUGGGAUAUGUGGGGCA 19 12856SCNN1A-9008 − UCUCUGGGAUAUGUGGGGCA 20 12857 SCNN1A-9009 −GUCUCUGGGAUAUGUGGGGCA 21 12858 SCNN1A-9010 − GGUCUCUGGGAUAUGUGGGGCA 2212859 SCNN1A-9011 − GGGUCUCUGGGAUAUGUGGGGCA 23 12860 SCNN1A-9012 −GGGGUCUCUGGGAUAUGUGGGGCA 24 12861 SCNN1A-9013 − CUUCCUGAGUCUCCUGCA 1812862 SCNN1A-9014 − GCUUCCUGAGUCUCCUGCA 19 12863 SCNN1A-9015 −GGCUUCCUGAGUCUCCUGCA 20 12864 SCNN1A-9016 − AGGCUUCCUGAGUCUCCUGCA 2112865 SCNN1A-9017 − AAGGCUUCCUGAGUCUCCUGCA 22 12866 SCNN1A-9018 −GAAGGCUUCCUGAGUCUCCUGCA 23 12867 SCNN1A-9019 − GGAAGGCUUCCUGAGUCUCCUGCA24 12868 SCNN1A-9020 − GCUGAGCACCUUAUUGCA 18 12869 SCNN1A-9021 −UGCUGAGCACCUUAUUGCA 19 12870 SCNN1A-5184 − GUGCUGAGCACCUUAUUGCA 20 9033SCNN1A-9022 − GGUGCUGAGCACCUUAUUGCA 21 12871 SCNN1A-9023 −GGGUGCUGAGCACCUUAUUGCA 22 12872 SCNN1A-9024 − AGGGUGCUGAGCACCUUAUUGCA 2312873 SCNN1A-9025 − CAGGGUGCUGAGCACCUUAUUGCA 24 12874 SCNN1A-9026 −CGAAAGGUGGCCCUAUCA 18 12875 SCNN1A-9027 − UCGAAAGGUGGCCCUAUCA 19 12876SCNN1A-5540 − CUCGAAAGGUGGCCCUAUCA 20 9389 SCNN1A-9028 −ACUCGAAAGGUGGCCCUAUCA 21 12877 SCNN1A-9029 − AACUCGAAAGGUGGCCCUAUCA 2212878 SCNN1A-9030 − AAACUCGAAAGGUGGCCCUAUCA 23 12879 SCNN1A-9031 −AAAACUCGAAAGGUGGCCCUAUCA 24 12880 SCNN1A-9032 − AUGUAAGGACCUGGCUCA 1812881 SCNN1A-9033 − AAUGUAAGGACCUGGCUCA 19 12882 SCNN1A-5542 −CAAUGUAAGGACCUGGCUCA 20 9391 SCNN1A-9034 − CCAAUGUAAGGACCUGGCUCA 2112883 SCNN1A-9035 − CCCAAUGUAAGGACCUGGCUCA 22 12884 SCNN1A-9036 −GCCCAAUGUAAGGACCUGGCUCA 23 12885 SCNN1A-9037 − UGCCCAAUGUAAGGACCUGGCUCA24 12886 SCNN1A-1814 − AGCCCAUACCAGGUCUCA 18 5663 SCNN1A-1815 −CAGCCCAUACCAGGUCUCA 19 5664 SCNN1A-1 − GCAGCCCAUACCAGGUCUCA 20 503SCNN1A-1816 − UGCAGCCCAUACCAGGUCUCA 21 5665 SCNN1A-1817 −CUGCAGCCCAUACCAGGUCUCA 22 5666 SCNN1A-1818 − UCUGCAGCCCAUACCAGGUCUCA 235667 SCNN1A-1819 − CUCUGCAGCCCAUACCAGGUCUCA 24 5668 SCNN1A-9038 −GCAUUGCAAUUCUUCUCA 18 12887 SCNN1A-9039 − GGCAUUGCAAUUCUUCUCA 19 12888SCNN1A-9040 − AGGCAUUGCAAUUCUUCUCA 20 12889 SCNN1A-9041 −CAGGCAUUGCAAUUCUUCUCA 21 12890 SCNN1A-9042 − CCAGGCAUUGCAAUUCUUCUCA 2212891 SCNN1A-9043 − ACCAGGCAUUGCAAUUCUUCUCA 23 12892 SCNN1A-9044 −GACCAGGCAUUGCAAUUCUUCUCA 24 12893 SCNN1A-9045 − AGUGCAGAGACCUUUUCA 1812894 SCNN1A-9046 − CAGUGCAGAGACCUUUUCA 19 12895 SCNN1A-9047 −ACAGUGCAGAGACCUUUUCA 20 12896 SCNN1A-9048 − GACAGUGCAGAGACCUUUUCA 2112897 SCNN1A-9049 − GGACAGUGCAGAGACCUUUUCA 22 12898 SCNN1A-9050 −GGGACAGUGCAGAGACCUUUUCA 23 12899 SCNN1A-9051 − GGGGACAGUGCAGAGACCUUUUCA24 12900 SCNN1A-9052 − CAAGAGACUGCCGCAAGA 18 12901 SCNN1A-9053 −GCAAGAGACUGCCGCAAGA 19 12902 SCNN1A-9054 − CGCAAGAGACUGCCGCAAGA 20 12903SCNN1A-9055 − UCGCAAGAGACUGCCGCAAGA 21 12904 SCNN1A-9056 −GUCGCAAGAGACUGCCGCAAGA 22 12905 SCNN1A-9057 − AGUCGCAAGAGACUGCCGCAAGA 2312906 SCNN1A-9058 − AAGUCGCAAGAGACUGCCGCAAGA 24 12907 SCNN1A-9059 −GAAGGGGGCAGAGACAGA 18 12908 SCNN1A-9060 − GGAAGGGGGCAGAGACAGA 19 12909SCNN1A-9061 − AGGAAGGGGGCAGAGACAGA 20 12910 SCNN1A-9062 −AAGGAAGGGGGCAGAGACAGA 21 12911 SCNN1A-9063 − AAAGGAAGGGGGCAGAGACAGA 2212912 SCNN1A-9064 − CAAAGGAAGGGGGCAGAGACAGA 23 12913 SCNN1A-9065 −CCAAAGGAAGGGGGCAGAGACAGA 24 12914 SCNN1A-9066 − GAGAGGAGGCAGGCCAGA 1812915 SCNN1A-9067 − AGAGAGGAGGCAGGCCAGA 19 12916 SCNN1A-9068 −GAGAGAGGAGGCAGGCCAGA 20 12917 SCNN1A-9069 − AGAGAGAGGAGGCAGGCCAGA 2112918 SCNN1A-9070 − UAGAGAGAGGAGGCAGGCCAGA 22 12919 SCNN1A-9071 −UUAGAGAGAGGAGGCAGGCCAGA 23 12920 SCNN1A-9072 − AUUAGAGAGAGGAGGCAGGCCAGA24 12921 SCNN1A-9073 − AGAGAAACAGAAGGCAGA 18 12922 SCNN1A-9074 −AAGAGAAACAGAAGGCAGA 19 12923 SCNN1A-9075 − AAAGAGAAACAGAAGGCAGA 20 12924SCNN1A-9076 − CAAAGAGAAACAGAAGGCAGA 21 12925 SCNN1A-9077 −CCAAAGAGAAACAGAAGGCAGA 22 12926 SCNN1A-9078 − CCCAAAGAGAAACAGAAGGCAGA 2312927 SCNN1A-9079 − ACCCAAAGAGAAACAGAAGGCAGA 24 12928 SCNN1A-9080 −AAAGGAAGGGGGCAGAGA 18 12929 SCNN1A-9081 − CAAAGGAAGGGGGCAGAGA 19 12930SCNN1A-9082 − CCAAAGGAAGGGGGCAGAGA 20 12931 SCNN1A-9083 −ACCAAAGGAAGGGGGCAGAGA 21 12932 SCNN1A-9084 − GACCAAAGGAAGGGGGCAGAGA 2212933 SCNN1A-9085 − AGACCAAAGGAAGGGGGCAGAGA 23 12934 SCNN1A-9086 −AAGACCAAAGGAAGGGGGCAGAGA 24 12935 SCNN1A-9087 − GAGAGGCAGGAUUAGAGA 1812936 SCNN1A-9088 − AGAGAGGCAGGAUUAGAGA 19 12937 SCNN1A-9089 −AAGAGAGGCAGGAUUAGAGA 20 12938 SCNN1A-9090 − GAAGAGAGGCAGGAUUAGAGA 2112939 SCNN1A-9091 − GGAAGAGAGGCAGGAUUAGAGA 22 12940 SCNN1A-9092 −AGGAAGAGAGGCAGGAUUAGAGA 23 12941 SCNN1A-9093 − GAGGAAGAGAGGCAGGAUUAGAGA24 12942 SCNN1A-9094 − GACCUGGCUCAAGGGAGA 18 12943 SCNN1A-9095 −GGACCUGGCUCAAGGGAGA 19 12944 SCNN1A-9096 − AGGACCUGGCUCAAGGGAGA 20 12945SCNN1A-9097 − AAGGACCUGGCUCAAGGGAGA 21 12946 SCNN1A-9098 −UAAGGACCUGGCUCAAGGGAGA 22 12947 SCNN1A-9099 − GUAAGGACCUGGCUCAAGGGAGA 2312948 SCNN1A-9100 − UGUAAGGACCUGGCUCAAGGGAGA 24 12949 SCNN1A-9101 −UGAGGGCCUAGAGUGAGA 18 12950 SCNN1A-9102 − CUGAGGGCCUAGAGUGAGA 19 12951SCNN1A-5188 − GCUGAGGGCCUAGAGUGAGA 20 9037 SCNN1A-9103 −AGCUGAGGGCCUAGAGUGAGA 21 12952 SCNN1A-9104 − GAGCUGAGGGCCUAGAGUGAGA 2212953 SCNN1A-9105 − GGAGCUGAGGGCCUAGAGUGAGA 23 12954 SCNN1A-9106 −UGGAGCUGAGGGCCUAGAGUGAGA 24 12955 SCNN1A-9107 − AAACAGAAGGCAGAUAGA 1812956 SCNN1A-9108 − GAAACAGAAGGCAGAUAGA 19 12957 SCNN1A-9109 −AGAAACAGAAGGCAGAUAGA 20 12958 SCNN1A-9110 − GAGAAACAGAAGGCAGAUAGA 2112959 SCNN1A-9111 − AGAGAAACAGAAGGCAGAUAGA 22 12960 SCNN1A-9112 −AAGAGAAACAGAAGGCAGAUAGA 23 12961 SCNN1A-9113 − AAAGAGAAACAGAAGGCAGAUAGA24 12962 SCNN1A-9114 − UGGAGCUGAGGGCCUAGA 18 12963 SCNN1A-9115 −CUGGAGCUGAGGGCCUAGA 19 12964 SCNN1A-9116 − GCUGGAGCUGAGGGCCUAGA 20 12965SCNN1A-9117 − GGCUGGAGCUGAGGGCCUAGA 21 12966 SCNN1A-9118 −AGGCUGGAGCUGAGGGCCUAGA 22 12967 SCNN1A-9119 − GAGGCUGGAGCUGAGGGCCUAGA 2312968 SCNN1A-9120 − AGAGGCUGGAGCUGAGGGCCUAGA 24 12969 SCNN1A-9121 −AAGAGAGGCAGGAUUAGA 18 12970 SCNN1A-9122 − GAAGAGAGGCAGGAUUAGA 19 12971SCNN1A-9123 − GGAAGAGAGGCAGGAUUAGA 20 12972 SCNN1A-9124 −AGGAAGAGAGGCAGGAUUAGA 21 12973 SCNN1A-9125 − GAGGAAGAGAGGCAGGAUUAGA 2212974 SCNN1A-9126 − AGAGGAAGAGAGGCAGGAUUAGA 23 12975 SCNN1A-9127 −GAGAGGAAGAGAGGCAGGAUUAGA 24 12976 SCNN1A-9128 − AGGAAGAAGACCAAAGGA 1812977 SCNN1A-9129 − GAGGAAGAAGACCAAAGGA 19 12978 SCNN1A-5873 −GGAGGAAGAAGACCAAAGGA 20 9722 SCNN1A-9130 − UGGAGGAAGAAGACCAAAGGA 2112979 SCNN1A-9131 − CUGGAGGAAGAAGACCAAAGGA 22 12980 SCNN1A-9132 −CCUGGAGGAAGAAGACCAAAGGA 23 12981 SCNN1A-9133 − UCCUGGAGGAAGAAGACCAAAGGA24 12982 SCNN1A-9134 − GGCGAGGAAUCAGCAGGA 18 12983 SCNN1A-9135 −UGGCGAGGAAUCAGCAGGA 19 12984 SCNN1A-9136 − GUGGCGAGGAAUCAGCAGGA 20 12985SCNN1A-9137 − GGUGGCGAGGAAUCAGCAGGA 21 12986 SCNN1A-9138 −GGGUGGCGAGGAAUCAGCAGGA 22 12987 SCNN1A-9139 − GGGGUGGCGAGGAAUCAGCAGGA 2312988 SCNN1A-9140 − GGGGGUGGCGAGGAAUCAGCAGGA 24 12989 SCNN1A-9141 −UGGAGGAGGGAGGGAGGA 18 12990 SCNN1A-9142 − GUGGAGGAGGGAGGGAGGA 19 12991SCNN1A-9143 − GGUGGAGGAGGGAGGGAGGA 20 12992 SCNN1A-9144 −AGGUGGAGGAGGGAGGGAGGA 21 12993 SCNN1A-9145 − AAGGUGGAGGAGGGAGGGAGGA 2212994 SCNN1A-9146 − AAAGGUGGAGGAGGGAGGGAGGA 23 12995 SCNN1A-9147 −GAAAGGUGGAGGAGGGAGGGAGGA 24 12996 SCNN1A-9148 − UCCAGGAAAGGUGGAGGA 1812997 SCNN1A-9149 − CUCCAGGAAAGGUGGAGGA 19 12998 SCNN1A-5877 −GCUCCAGGAAAGGUGGAGGA 20 9726 SCNN1A-9150 − GGCUCCAGGAAAGGUGGAGGA 2112999 SCNN1A-9151 − UGGCUCCAGGAAAGGUGGAGGA 22 13000 SCNN1A-9152 −CUGGCUCCAGGAAAGGUGGAGGA 23 13001 SCNN1A-9153 − GCUGGCUCCAGGAAAGGUGGAGGA24 13002 SCNN1A-9154 − AAGGCAGAUAGAGAGGGA 18 13003 SCNN1A-9155 −GAAGGCAGAUAGAGAGGGA 19 13004 SCNN1A-9156 − AGAAGGCAGAUAGAGAGGGA 20 13005SCNN1A-9157 − CAGAAGGCAGAUAGAGAGGGA 21 13006 SCNN1A-9158 −ACAGAAGGCAGAUAGAGAGGGA 22 13007 SCNN1A-9159 − AACAGAAGGCAGAUAGAGAGGGA 2313008 SCNN1A-9160 − AAACAGAAGGCAGAUAGAGAGGGA 24 13009 SCNN1A-9161 −GGAAAGGUGGAGGAGGGA 18 13010 SCNN1A-9162 − AGGAAAGGUGGAGGAGGGA 19 13011SCNN1A-6095 − CAGGAAAGGUGGAGGAGGGA 20 9944 SCNN1A-9163 −CCAGGAAAGGUGGAGGAGGGA 21 13012 SCNN1A-9164 − UCCAGGAAAGGUGGAGGAGGGA 2213013 SCNN1A-9165 − CUCCAGGAAAGGUGGAGGAGGGA 23 13014 SCNN1A-9166 −GCUCCAGGAAAGGUGGAGGAGGGA 24 13015 SCNN1A-9167 − GGCAAGGCAAGGGGGGGA 1813016 SCNN1A-9168 − GGGCAAGGCAAGGGGGGGA 19 13017 SCNN1A-9169 −GGGGCAAGGCAAGGGGGGGA 20 13018 SCNN1A-9170 − GGGGGCAAGGCAAGGGGGGGA 2113019 SCNN1A-9171 − AGGGGGCAAGGCAAGGGGGGGA 22 13020 SCNN1A-9172 −GAGGGGGCAAGGCAAGGGGGGGA 23 13021 SCNN1A-9173 − AGAGGGGGCAAGGCAAGGGGGGGA24 13022 SCNN1A-1820 − GUUCCAGGGGUGAUGGGA 18 5669 SCNN1A-1821 −GGUUCCAGGGGUGAUGGGA 19 5670 SCNN1A-1822 − GGGUUCCAGGGGUGAUGGGA 20 5671SCNN1A-1823 − CGGGUUCCAGGGGUGAUGGGA 21 5672 SCNN1A-1824 −UCGGGUUCCAGGGGUGAUGGGA 22 5673 SCNN1A-1825 − CUCGGGUUCCAGGGGUGAUGGGA 235674 SCNN1A-1826 − ACUCGGGUUCCAGGGGUGAUGGGA 24 5675 SCNN1A-9174 −UCCAGCCGCAACCUGGGA 18 13023 SCNN1A-9175 − GUCCAGCCGCAACCUGGGA 19 13024SCNN1A-9176 − AGUCCAGCCGCAACCUGGGA 20 13025 SCNN1A-9177 −CAGUCCAGCCGCAACCUGGGA 21 13026 SCNN1A-9178 − CCAGUCCAGCCGCAACCUGGGA 2213027 SCNN1A-9179 − CCCAGUCCAGCCGCAACCUGGGA 23 13028 SCNN1A-9180 −UCCCAGUCCAGCCGCAACCUGGGA 24 13029 SCNN1A-9181 − CACGGGCUCUGUGUGGGA 1813030 SCNN1A-9182 − CCACGGGCUCUGUGUGGGA 19 13031 SCNN1A-9183 −UCCACGGGCUCUGUGUGGGA 20 13032 SCNN1A-9184 − AUCCACGGGCUCUGUGUGGGA 2113033 SCNN1A-9185 − AAUCCACGGGCUCUGUGUGGGA 22 13034 SCNN1A-9186 −GAAUCCACGGGCUCUGUGUGGGA 23 13035 SCNN1A-9187 − CGAAUCCACGGGCUCUGUGUGGGA24 13036 SCNN1A-1827 − CAUACCAGGUCUCAUGGA 18 5676 SCNN1A-1828 −CCAUACCAGGUCUCAUGGA 19 5677 SCNN1A-3 − CCCAUACCAGGUCUCAUGGA 20 556SCNN1A-1829 − GCCCAUACCAGGUCUCAUGGA 21 5678 SCNN1A-1830 −AGCCCAUACCAGGUCUCAUGGA 22 5679 SCNN1A-1831 − CAGCCCAUACCAGGUCUCAUGGA 235680 SCNN1A-1832 − GCAGCCCAUACCAGGUCUCAUGGA 24 5681 SCNN1A-9188 −CUGCCAGAUUCAACUGGA 18 13037 SCNN1A-9189 − GCUGCCAGAUUCAACUGGA 19 13038SCNN1A-9190 − GGCUGCCAGAUUCAACUGGA 20 13039 SCNN1A-9191 −UGGCUGCCAGAUUCAACUGGA 21 13040 SCNN1A-9192 − UUGGCUGCCAGAUUCAACUGGA 2213041 SCNN1A-9193 − UUUGGCUGCCAGAUUCAACUGGA 23 13042 SCNN1A-9194 −GUUUGGCUGCCAGAUUCAACUGGA 24 13043 SCNN1A-9195 − UGUCUGCUGGCUUGUGGA 1813044 SCNN1A-9196 − UUGUCUGCUGGCUUGUGGA 19 13045 SCNN1A-5552 −UUUGUCUGCUGGCUUGUGGA 20 9401 SCNN1A-9197 − CUUUGUCUGCUGGCUUGUGGA 2113046 SCNN1A-9198 − CCUUUGUCUGCUGGCUUGUGGA 22 13047 SCNN1A-9199 −GCCUUUGUCUGCUGGCUUGUGGA 23 13048 SCNN1A-9200 − GGCCUUUGUCUGCUGGCUUGUGGA24 13049 SCNN1A-9201 − UGCUGCAUUAAGUUUGGA 18 13050 SCNN1A-9202 −UUGCUGCAUUAAGUUUGGA 19 13051 SCNN1A-9203 − UUUGCUGCAUUAAGUUUGGA 20 13052SCNN1A-9204 − UUUUGCUGCAUUAAGUUUGGA 21 13053 SCNN1A-9205 −CUUUUGCUGCAUUAAGUUUGGA 22 13054 SCNN1A-9206 − CCUUUUGCUGCAUUAAGUUUGGA 2313055 SCNN1A-9207 − UCCUUUUGCUGCAUUAAGUUUGGA 24 13056 SCNN1A-1839 −CCACUCCGGGGCUCAUGA 18 5688 SCNN1A-1840 − UCCACUCCGGGGCUCAUGA 19 5689SCNN1A-400 − AUCCACUCCGGGGCUCAUGA 20 4249 SCNN1A-1841 −AAUCCACUCCGGGGCUCAUGA 21 5690 SCNN1A-1842 − CAAUCCACUCCGGGGCUCAUGA 225691 SCNN1A-1843 − CCAAUCCACUCCGGGGCUCAUGA 23 5692 SCNN1A-1844 −CCCAAUCCACUCCGGGGCUCAUGA 24 5693 SCNN1A-9208 − GCUGAGGGCCUAGAGUGA 1813057 SCNN1A-9209 − AGCUGAGGGCCUAGAGUGA 19 13058 SCNN1A-9210 −GAGCUGAGGGCCUAGAGUGA 20 13059 SCNN1A-9211 − GGAGCUGAGGGCCUAGAGUGA 2113060 SCNN1A-9212 − UGGAGCUGAGGGCCUAGAGUGA 22 13061 SCNN1A-9213 −CUGGAGCUGAGGGCCUAGAGUGA 23 13062 SCNN1A-9214 − GCUGGAGCUGAGGGCCUAGAGUGA24 13063 SCNN1A-9215 − GGCUCUGUGUGGGAGUGA 18 13064 SCNN1A-9216 −GGGCUCUGUGUGGGAGUGA 19 13065 SCNN1A-5555 − CGGGCUCUGUGUGGGAGUGA 20 9404SCNN1A-9217 − ACGGGCUCUGUGUGGGAGUGA 21 13066 SCNN1A-9218 −CACGGGCUCUGUGUGGGAGUGA 22 13067 SCNN1A-9219 − CCACGGGCUCUGUGUGGGAGUGA 2313068 SCNN1A-9220 − UCCACGGGCUCUGUGUGGGAGUGA 24 13069 SCNN1A-9221 −GCUGCUCCCACUUAGUGA 18 13070 SCNN1A-9222 − CGCUGCUCCCACUUAGUGA 19 13071SCNN1A-9223 − GCGCUGCUCCCACUUAGUGA 20 13072 SCNN1A-9224 −UGCGCUGCUCCCACUUAGUGA 21 13073 SCNN1A-9225 − GUGCGCUGCUCCCACUUAGUGA 2213074 SCNN1A-9226 − AGUGCGCUGCUCCCACUUAGUGA 23 13075 SCNN1A-9227 −GAGUGCGCUGCUCCCACUUAGUGA 24 13076 SCNN1A-9228 − GCUGCACCUGUCAGGUGA 1813077 SCNN1A-9229 − CGCUGCACCUGUCAGGUGA 19 13078 SCNN1A-5556 −CCGCUGCACCUGUCAGGUGA 20 9405 SCNN1A-9230 − GCCGCUGCACCUGUCAGGUGA 2113079 SCNN1A-9231 − GGCCGCUGCACCUGUCAGGUGA 22 13080 SCNN1A-9232 −AGGCCGCUGCACCUGUCAGGUGA 23 13081 SCNN1A-9233 − CAGGCCGCUGCACCUGUCAGGUGA24 13082 SCNN1A-1845 − CUCGGGUUCCAGGGGUGA 18 5694 SCNN1A-1846 −ACUCGGGUUCCAGGGGUGA 19 5695 SCNN1A-401 − CACUCGGGUUCCAGGGGUGA 20 4250SCNN1A-1847 − UCACUCGGGUUCCAGGGGUGA 21 5696 SCNN1A-1848 −CUCACUCGGGUUCCAGGGGUGA 22 5697 SCNN1A-1849 − CCUCACUCGGGUUCCAGGGGUGA 235698 SCNN1A-1850 − GCCUCACUCGGGUUCCAGGGGUGA 24 5699 SCNN1A-9234 −AGAAACAGAAGGCAGAUA 18 13083 SCNN1A-9235 − GAGAAACAGAAGGCAGAUA 19 13084SCNN1A-9236 − AGAGAAACAGAAGGCAGAUA 20 13085 SCNN1A-9237 −AAGAGAAACAGAAGGCAGAUA 21 13086 SCNN1A-9238 − AAAGAGAAACAGAAGGCAGAUA 2213087 SCNN1A-9239 − CAAAGAGAAACAGAAGGCAGAUA 23 13088 SCNN1A-9240 −CCAAAGAGAAACAGAAGGCAGAUA 24 13089 SCNN1A-9241 − CCUUUAAUUGAGAUGCUA 1813090 SCNN1A-9242 − ACCUUUAAUUGAGAUGCUA 19 13091 SCNN1A-9243 −CACCUUUAAUUGAGAUGCUA 20 13092 SCNN1A-9244 − UCACCUUUAAUUGAGAUGCUA 2113093 SCNN1A-9245 − CUCACCUUUAAUUGAGAUGCUA 22 13094 SCNN1A-9246 −GCUCACCUUUAAUUGAGAUGCUA 23 13095 SCNN1A-9247 − UGCUCACCUUUAAUUGAGAUGCUA24 13096 SCNN1A-9248 − AGAGGAGAGGCCGUUCUA 18 13097 SCNN1A-9249 −CAGAGGAGAGGCCGUUCUA 19 13098 SCNN1A-5199 − GCAGAGGAGAGGCCGUUCUA 20 9048SCNN1A-9250 − AGCAGAGGAGAGGCCGUUCUA 21 13099 SCNN1A-9251 −AAGCAGAGGAGAGGCCGUUCUA 22 13100 SCNN1A-9252 − GAAGCAGAGGAGAGGCCGUUCUA 2313101 SCNN1A-9253 − GGAAGCAGAGGAGAGGCCGUUCUA 24 13102 SCNN1A-9254 −GGAAGAGAGGCAGGAUUA 18 13103 SCNN1A-9255 − AGGAAGAGAGGCAGGAUUA 19 13104SCNN1A-9256 − GAGGAAGAGAGGCAGGAUUA 20 13105 SCNN1A-9257 −AGAGGAAGAGAGGCAGGAUUA 21 13106 SCNN1A-9258 − GAGAGGAAGAGAGGCAGGAUUA 2213107 SCNN1A-9259 − GGAGAGGAAGAGAGGCAGGAUUA 23 13108 SCNN1A-9260 −GGGAGAGGAAGAGAGGCAGGAUUA 24 13109 SCNN1A-9261 − GUGCGCUGCUCCCACUUA 1813110 SCNN1A-9262 − AGUGCGCUGCUCCCACUUA 19 13111 SCNN1A-9263 −GAGUGCGCUGCUCCCACUUA 20 13112 SCNN1A-9264 − UGAGUGCGCUGCUCCCACUUA 2113113 SCNN1A-9265 − CUGAGUGCGCUGCUCCCACUUA 22 13114 SCNN1A-9266 −CCUGAGUGCGCUGCUCCCACUUA 23 13115 SCNN1A-9267 − ACCUGAGUGCGCUGCUCCCACUUA24 13116 SCNN1A-9268 − GAGGUGCUAGGACAAAAC 18 13117 SCNN1A-9269 −GGAGGUGCUAGGACAAAAC 19 13118 SCNN1A-9270 − GGGAGGUGCUAGGACAAAAC 20 13119SCNN1A-9271 − AGGGAGGUGCUAGGACAAAAC 21 13120 SCNN1A-9272 −AAGGGAGGUGCUAGGACAAAAC 22 13121 SCNN1A-9273 − AAAGGGAGGUGCUAGGACAAAAC 2313122 SCNN1A-9274 − GAAAGGGAGGUGCUAGGACAAAAC 24 13123 SCNN1A-9275 −UCCCAGUCCAGCCGCAAC 18 13124 SCNN1A-9276 − GUCCCAGUCCAGCCGCAAC 19 13125SCNN1A-9277 − AGUCCCAGUCCAGCCGCAAC 20 13126 SCNN1A-9278 −CAGUCCCAGUCCAGCCGCAAC 21 13127 SCNN1A-9279 − CCAGUCCCAGUCCAGCCGCAAC 2213128 SCNN1A-9280 − ACCAGUCCCAGUCCAGCCGCAAC 23 13129 SCNN1A-9281 −AACCAGUCCCAGUCCAGCCGCAAC 24 13130 SCNN1A-9282 − UUGGCUGCCAGAUUCAAC 1813131 SCNN1A-9283 − UUUGGCUGCCAGAUUCAAC 19 13132 SCNN1A-5202 −GUUUGGCUGCCAGAUUCAAC 20 9051 SCNN1A-9284 − GGUUUGGCUGCCAGAUUCAAC 2113133 SCNN1A-9285 − AGGUUUGGCUGCCAGAUUCAAC 22 13134 SCNN1A-9286 −GAGGUUUGGCUGCCAGAUUCAAC 23 13135 SCNN1A-9287 − AGAGGUUUGGCUGCCAGAUUCAAC24 13136 SCNN1A-9288 − UAGCUCCUGGAAGCACAC 18 13137 SCNN1A-9289 −CUAGCUCCUGGAAGCACAC 19 13138 SCNN1A-9290 − UCUAGCUCCUGGAAGCACAC 20 13139SCNN1A-9291 − CUCUAGCUCCUGGAAGCACAC 21 13140 SCNN1A-9292 −CCUCUAGCUCCUGGAAGCACAC 22 13141 SCNN1A-9293 − GCCUCUAGCUCCUGGAAGCACAC 2313142 SCNN1A-9294 − AGCCUCUAGCUCCUGGAAGCACAC 24 13143 SCNN1A-9295 −UUUCACAUCCAGGUGCAC 18 13144 SCNN1A-9296 − CUUUCACAUCCAGGUGCAC 19 13145SCNN1A-9297 − GCUUUCACAUCCAGGUGCAC 20 13146 SCNN1A-9298 −GGCUUUCACAUCCAGGUGCAC 21 13147 SCNN1A-9299 − CGGCUUUCACAUCCAGGUGCAC 2213148 SCNN1A-9300 − CCGGCUUUCACAUCCAGGUGCAC 23 13149 SCNN1A-9301 −CCCGGCUUUCACAUCCAGGUGCAC 24 13150 SCNN1A-9302 − CCUAGCCCCCAGCUUCAC 1813151 SCNN1A-9303 − GCCUAGCCCCCAGCUUCAC 19 13152 SCNN1A-9304 −CGCCUAGCCCCCAGCUUCAC 20 13153 SCNN1A-9305 − CCGCCUAGCCCCCAGCUUCAC 2113154 SCNN1A-9306 − CCCGCCUAGCCCCCAGCUUCAC 22 13155 SCNN1A-9307 −CCCCGCCUAGCCCCCAGCUUCAC 23 13156 SCNN1A-9308 − GCCCCGCCUAGCCCCCAGCUUCAC24 13157 SCNN1A-9309 − GCAGGAAAGAGGAGGGAC 18 13158 SCNN1A-9310 −AGCAGGAAAGAGGAGGGAC 19 13159 SCNN1A-9311 − CAGCAGGAAAGAGGAGGGAC 20 13160SCNN1A-9312 − UCAGCAGGAAAGAGGAGGGAC 21 13161 SCNN1A-9313 −AUCAGCAGGAAAGAGGAGGGAC 22 13162 SCNN1A-9314 − AAUCAGCAGGAAAGAGGAGGGAC 2313163 SCNN1A-9315 − GAAUCAGCAGGAAAGAGGAGGGAC 24 13164 SCNN1A-1863 −GUGGGCGCAGGGUGGGAC 18 5712 SCNN1A-1864 − UGUGGGCGCAGGGUGGGAC 19 5713SCNN1A-1865 − AUGUGGGCGCAGGGUGGGAC 20 5714 SCNN1A-1866 −AAUGUGGGCGCAGGGUGGGAC 21 5715 SCNN1A-1867 − GAAUGUGGGCGCAGGGUGGGAC 225716 SCNN1A-1868 − AGAAUGUGGGCGCAGGGUGGGAC 23 5717 SCNN1A-1869 −GAGAAUGUGGGCGCAGGGUGGGAC 24 5718 SCNN1A-9316 − CCCAGUCCAGCCGCAACC 1813165 SCNN1A-9317 − UCCCAGUCCAGCCGCAACC 19 13166 SCNN1A-5213 −GUCCCAGUCCAGCCGCAACC 20 9062 SCNN1A-9318 − AGUCCCAGUCCAGCCGCAACC 2113167 SCNN1A-9319 − CAGUCCCAGUCCAGCCGCAACC 22 13168 SCNN1A-9320 −CCAGUCCCAGUCCAGCCGCAACC 23 13169 SCNN1A-9321 − ACCAGUCCCAGUCCAGCCGCAACC24 13170 SCNN1A-9322 − AGGAGAUAACCCAGCACC 18 13171 SCNN1A-9323 −AAGGAGAUAACCCAGCACC 19 13172 SCNN1A-9324 − CAAGGAGAUAACCCAGCACC 20 13173SCNN1A-9325 − CCAAGGAGAUAACCCAGCACC 21 13174 SCNN1A-9326 −GCCAAGGAGAUAACCCAGCACC 22 13175 SCNN1A-9327 − AGCCAAGGAGAUAACCCAGCACC 2313176 SCNN1A-9328 − GAGCCAAGGAGAUAACCCAGCACC 24 13177 SCNN1A-9329 −CAGGAAAGAGGAGGGACC 18 13178 SCNN1A-9330 − GCAGGAAAGAGGAGGGACC 19 13179SCNN1A-5571 − AGCAGGAAAGAGGAGGGACC 20 9420 SCNN1A-9331 −CAGCAGGAAAGAGGAGGGACC 21 13180 SCNN1A-9332 − UCAGCAGGAAAGAGGAGGGACC 2213181 SCNN1A-9333 − AUCAGCAGGAAAGAGGAGGGACC 23 13182 SCNN1A-9334 −AAUCAGCAGGAAAGAGGAGGGACC 24 13183 SCNN1A-9335 − CACAGACCAGGUUGGACC 1813184 SCNN1A-9336 − CCACAGACCAGGUUGGACC 19 13185 SCNN1A-9337 −GCCACAGACCAGGUUGGACC 20 13186 SCNN1A-9338 − AGCCACAGACCAGGUUGGACC 2113187 SCNN1A-9339 − AAGCCACAGACCAGGUUGGACC 22 13188 SCNN1A-9340 −GAAGCCACAGACCAGGUUGGACC 23 13189 SCNN1A-9341 − GGAAGCCACAGACCAGGUUGGACC24 13190 SCNN1A-9342 − GCGCUAAGUAGAUAGCCC 18 13191 SCNN1A-9343 −AGCGCUAAGUAGAUAGCCC 19 13192 SCNN1A-9344 − AAGCGCUAAGUAGAUAGCCC 20 13193SCNN1A-9345 − AAAGCGCUAAGUAGAUAGCCC 21 13194 SCNN1A-9346 −AAAAGCGCUAAGUAGAUAGCCC 22 13195 SCNN1A-9347 − CAAAAGCGCUAAGUAGAUAGCCC 2313196 SCNN1A-9348 − GCAAAAGCGCUAAGUAGAUAGCCC 24 13197 SCNN1A-9349 −CUGCCUCCUGUGGGGCCC 18 13198 SCNN1A-9350 − GCUGCCUCCUGUGGGGCCC 19 13199SCNN1A-9351 − GGCUGCCUCCUGUGGGGCCC 20 13200 SCNN1A-9352 −GGGCUGCCUCCUGUGGGGCCC 21 13201 SCNN1A-9353 − UGGGCUGCCUCCUGUGGGGCCC 2213202 SCNN1A-9354 − CUGGGCUGCCUCCUGUGGGGCCC 23 13203 SCNN1A-9355 −UCUGGGCUGCCUCCUGUGGGGCCC 24 13204 SCNN1A-9356 − CUCCCAGUUCACCUGCCC 1813205 SCNN1A-9357 − ACUCCCAGUUCACCUGCCC 19 13206 SCNN1A-9358 −UACUCCCAGUUCACCUGCCC 20 13207 SCNN1A-9359 − GUACUCCCAGUUCACCUGCCC 2113208 SCNN1A-9360 − AGUACUCCCAGUUCACCUGCCC 22 13209 SCNN1A-9361 −CAGUACUCCCAGUUCACCUGCCC 23 13210 SCNN1A-9362 − CCAGUACUCCCAGUUCACCUGCCC24 13211 SCNN1A-9363 − GCUGACCUGUGGGUGCCC 18 13212 SCNN1A-9364 −GGCUGACCUGUGGGUGCCC 19 13213 SCNN1A-9365 − AGGCUGACCUGUGGGUGCCC 20 13214SCNN1A-9366 − GAGGCUGACCUGUGGGUGCCC 21 13215 SCNN1A-9367 −UGAGGCUGACCUGUGGGUGCCC 22 13216 SCNN1A-9368 − GUGAGGCUGACCUGUGGGUGCCC 2313217 SCNN1A-9369 − GGUGAGGCUGACCUGUGGGUGCCC 24 13218 SCNN1A-9370 −AGACCUUUUCACAGAGCC 18 13219 SCNN1A-9371 − GAGACCUUUUCACAGAGCC 19 13220SCNN1A-9372 − AGAGACCUUUUCACAGAGCC 20 13221 SCNN1A-9373 −CAGAGACCUUUUCACAGAGCC 21 13222 SCNN1A-9374 − GCAGAGACCUUUUCACAGAGCC 2213223 SCNN1A-9375 − UGCAGAGACCUUUUCACAGAGCC 23 13224 SCNN1A-9376 −GUGCAGAGACCUUUUCACAGAGCC 24 13225 SCNN1A-1876 − GAGAGGGCACUCAGGGCC 185725 SCNN1A-1877 − GGAGAGGGCACUCAGGGCC 19 5726 SCNN1A-1878 −GGGAGAGGGCACUCAGGGCC 20 5727 SCNN1A-1879 − UGGGAGAGGGCACUCAGGGCC 21 5728SCNN1A-1880 − AUGGGAGAGGGCACUCAGGGCC 22 5729 SCNN1A-1881 −GAUGGGAGAGGGCACUCAGGGCC 23 5730 SCNN1A-1882 − UGAUGGGAGAGGGCACUCAGGGCC24 5731 SCNN1A-1889 − UGGGACAUGGGCAUGGCC 18 5738 SCNN1A-1890 −GUGGGACAUGGGCAUGGCC 19 5739 SCNN1A-347 − GGUGGGACAUGGGCAUGGCC 20 4196SCNN1A-1891 − GGGUGGGACAUGGGCAUGGCC 21 5740 SCNN1A-1892 −AGGGUGGGACAUGGGCAUGGCC 22 5741 SCNN1A-1893 − CAGGGUGGGACAUGGGCAUGGCC 235742 SCNN1A-1894 − GCAGGGUGGGACAUGGGCAUGGCC 24 5743 SCNN1A-9377 −CAGAGAGCAGACGAAUCC 18 13226 SCNN1A-9378 − CCAGAGAGCAGACGAAUCC 19 13227SCNN1A-9379 − CCCAGAGAGCAGACGAAUCC 20 13228 SCNN1A-9380 −ACCCAGAGAGCAGACGAAUCC 21 13229 SCNN1A-9381 − CACCCAGAGAGCAGACGAAUCC 2213230 SCNN1A-9382 − GCACCCAGAGAGCAGACGAAUCC 23 13231 SCNN1A-9383 −AGCACCCAGAGAGCAGACGAAUCC 24 13232 SCNN1A-9384 − GAGCUGAGACACAGAUCC 1813233 SCNN1A-9385 − GGAGCUGAGACACAGAUCC 19 13234 SCNN1A-5588 −AGGAGCUGAGACACAGAUCC 20 9437 SCNN1A-9386 − CAGGAGCUGAGACACAGAUCC 2113235 SCNN1A-9387 − GCAGGAGCUGAGACACAGAUCC 22 13236 SCNN1A-9388 −GGCAGGAGCUGAGACACAGAUCC 23 13237 SCNN1A-9389 − AGGCAGGAGCUGAGACACAGAUCC24 13238 SCNN1A-9390 − CAGAAAACUGAUUUAUCC 18 13239 SCNN1A-9391 −UCAGAAAACUGAUUUAUCC 19 13240 SCNN1A-9392 − CUCAGAAAACUGAUUUAUCC 20 13241SCNN1A-9393 − CCUCAGAAAACUGAUUUAUCC 21 13242 SCNN1A-9394 −ACCUCAGAAAACUGAUUUAUCC 22 13243 SCNN1A-9395 − AACCUCAGAAAACUGAUUUAUCC 2313244 SCNN1A-9396 − UAACCUCAGAAAACUGAUUUAUCC 24 13245 SCNN1A-9397 −GAGGCAGCCCAGACCUCC 18 13246 SCNN1A-9398 − GGAGGCAGCCCAGACCUCC 19 13247SCNN1A-5591 − UGGAGGCAGCCCAGACCUCC 20 9440 SCNN1A-9399 −CUGGAGGCAGCCCAGACCUCC 21 13248 SCNN1A-9400 − GCUGGAGGCAGCCCAGACCUCC 2213249 SCNN1A-9401 − AGCUGGAGGCAGCCCAGACCUCC 23 13250 SCNN1A-9402 −AAGCUGGAGGCAGCCCAGACCUCC 24 13251 SCNN1A-9403 − ACGAAUUUCUCCUCCUCC 1813252 SCNN1A-9404 − AACGAAUUUCUCCUCCUCC 19 13253 SCNN1A-9405 −CAACGAAUUUCUCCUCCUCC 20 13254 SCNN1A-9406 − UCAACGAAUUUCUCCUCCUCC 2113255 SCNN1A-9407 − AUCAACGAAUUUCUCCUCCUCC 22 13256 SCNN1A-9408 −CAUCAACGAAUUUCUCCUCCUCC 23 13257 SCNN1A-9409 − CCAUCAACGAAUUUCUCCUCCUCC24 13258 SCNN1A-9410 − UGCUGAGCCUCUAGCUCC 18 13259 SCNN1A-9411 −UUGCUGAGCCUCUAGCUCC 19 13260 SCNN1A-5594 − CUUGCUGAGCCUCUAGCUCC 20 9443SCNN1A-9412 − ACUUGCUGAGCCUCUAGCUCC 21 13261 SCNN1A-9413 −CACUUGCUGAGCCUCUAGCUCC 22 13262 SCNN1A-9414 − CCACUUGCUGAGCCUCUAGCUCC 2313263 SCNN1A-9415 − CCCACUUGCUGAGCCUCUAGCUCC 24 13264 SCNN1A-9416 −CGCAGGUCUGCUGGCUCC 18 13265 SCNN1A-9417 − CCGCAGGUCUGCUGGCUCC 19 13266SCNN1A-5595 − CCCGCAGGUCUGCUGGCUCC 20 9444 SCNN1A-9418 −UCCCGCAGGUCUGCUGGCUCC 21 13267 SCNN1A-9419 − CUCCCGCAGGUCUGCUGGCUCC 2213268 SCNN1A-9420 − ACUCCCGCAGGUCUGCUGGCUCC 23 13269 SCNN1A-9421 −AACUCCCGCAGGUCUGCUGGCUCC 24 13270 SCNN1A-9422 − CCUGGAGCCCUGCAGUCC 1813271 SCNN1A-9423 − UCCUGGAGCCCUGCAGUCC 19 13272 SCNN1A-6114 −CUCCUGGAGCCCUGCAGUCC 20 9963 SCNN1A-9424 − CCUCCUGGAGCCCUGCAGUCC 2113273 SCNN1A-9425 − ACCUCCUGGAGCCCUGCAGUCC 22 13274 SCNN1A-9426 −GACCUCCUGGAGCCCUGCAGUCC 23 13275 SCNN1A-9427 − AGACCUCCUGGAGCCCUGCAGUCC24 13276 SCNN1A-9428 − AAAAAGAACAGAAUGUCC 18 13277 SCNN1A-9429 −AAAAAAGAACAGAAUGUCC 19 13278 SCNN1A-9430 − UAAAAAAGAACAGAAUGUCC 20 13279SCNN1A-9431 − GUAAAAAAGAACAGAAUGUCC 21 13280 SCNN1A-9432 −UGUAAAAAAGAACAGAAUGUCC 22 13281 SCNN1A-9433 − GUGUAAAAAAGAACAGAAUGUCC 2313282 SCNN1A-9434 − AGUGUAAAAAAGAACAGAAUGUCC 24 13283 SCNN1A-9435 −AAUCCAGCUGUCCCUUCC 18 13284 SCNN1A-9436 − AAAUCCAGCUGUCCCUUCC 19 13285SCNN1A-9437 − AAAAUCCAGCUGUCCCUUCC 20 13286 SCNN1A-9438 −AAAAAUCCAGCUGUCCCUUCC 21 13287 SCNN1A-9439 − GAAAAAUCCAGCUGUCCCUUCC 2213288 SCNN1A-9440 − AGAAAAAUCCAGCUGUCCCUUCC 23 13289 SCNN1A-9441 −AAGAAAAAUCCAGCUGUCCCUUCC 24 13290 SCNN1A-9442 − CCCCCUUGCUCUCCUUCC 1813291 SCNN1A-9443 − CCCCCCUUGCUCUCCUUCC 19 13292 SCNN1A-5598 −UCCCCCCUUGCUCUCCUUCC 20 9447 SCNN1A-9444 − CUCCCCCCUUGCUCUCCUUCC 2113293 SCNN1A-9445 − ACUCCCCCCUUGCUCUCCUUCC 22 13294 SCNN1A-9446 −GACUCCCCCCUUGCUCUCCUUCC 23 13295 SCNN1A-9447 − GGACUCCCCCCUUGCUCUCCUUCC24 13296 SCNN1A-1895 − UCAUGAAGGGGAACAAGC 18 5744 SCNN1A-1896 −CUCAUGAAGGGGAACAAGC 19 5745 SCNN1A-176 − GCUCAUGAAGGGGAACAAGC 20 811SCNN1A-1897 − GGCUCAUGAAGGGGAACAAGC 21 5746 SCNN1A-1898 −GGGCUCAUGAAGGGGAACAAGC 22 5747 SCNN1A-1901 − GGGGCUCAUGAAGGGGAACAAGC 235750 SCNN1A-1902 − CGGGGCUCAUGAAGGGGAACAAGC 24 5751 SCNN1A-1903 −UCAUGGAGGGGAACAAGC 18 5752 SCNN1A-1904 − CUCAUGGAGGGGAACAAGC 19 5753SCNN1A-5 − UCUCAUGGAGGGGAACAAGC 20 557 SCNN1A-1905 −GUCUCAUGGAGGGGAACAAGC 21 5754 SCNN1A-1906 − GGUCUCAUGGAGGGGAACAAGC 225755 SCNN1A-1907 − AGGUCUCAUGGAGGGGAACAAGC 23 5756 SCNN1A-1908 −CAGGUCUCAUGGAGGGGAACAAGC 24 5757 SCNN1A-9448 − AACCUGGGAGUGGGAAGC 1813297 SCNN1A-9449 − CAACCUGGGAGUGGGAAGC 19 13298 SCNN1A-5228 −GCAACCUGGGAGUGGGAAGC 20 9077 SCNN1A-9450 − CGCAACCUGGGAGUGGGAAGC 2113299 SCNN1A-9451 − CCGCAACCUGGGAGUGGGAAGC 22 13300 SCNN1A-9452 −GCCGCAACCUGGGAGUGGGAAGC 23 13301 SCNN1A-9453 − AGCCGCAACCUGGGAGUGGGAAGC24 13302 SCNN1A-1909 − AGCAGUAUCAAGGUAAGC 18 5758 SCNN1A-1910 −GAGCAGUAUCAAGGUAAGC 19 5759 SCNN1A-1911 − UGAGCAGUAUCAAGGUAAGC 20 5760SCNN1A-1912 − AUGAGCAGUAUCAAGGUAAGC 21 5761 SCNN1A-1913 −CAUGAGCAGUAUCAAGGUAAGC 22 5762 SCNN1A-1914 − UCAUGAGCAGUAUCAAGGUAAGC 235763 SCNN1A-1915 − AUCAUGAGCAGUAUCAAGGUAAGC 24 5764 SCNN1A-9454 −ACAGAAUCAGGACACAGC 18 13303 SCNN1A-9455 − GACAGAAUCAGGACACAGC 19 13304SCNN1A-9456 − AGACAGAAUCAGGACACAGC 20 13305 SCNN1A-9457 −GAGACAGAAUCAGGACACAGC 21 13306 SCNN1A-9458 − AGAGACAGAAUCAGGACACAGC 2213307 SCNN1A-9459 − CAGAGACAGAAUCAGGACACAGC 23 13308 SCNN1A-9460 −GCAGAGACAGAAUCAGGACACAGC 24 13309 SCNN1A-9461 − CAACUCUGUGACCACAGC 1813310 SCNN1A-9462 − GCAACUCUGUGACCACAGC 19 13311 SCNN1A-5599 −UGCAACUCUGUGACCACAGC 20 9448 SCNN1A-9463 − CUGCAACUCUGUGACCACAGC 2113312 SCNN1A-9464 − CCUGCAACUCUGUGACCACAGC 22 13313 SCNN1A-9465 −UCCUGCAACUCUGUGACCACAGC 23 13314 SCNN1A-9466 − UUCCUGCAACUCUGUGACCACAGC24 13315 SCNN1A-9467 − GGGUGGCGAGGAAUCAGC 18 13316 SCNN1A-9468 −GGGGUGGCGAGGAAUCAGC 19 13317 SCNN1A-5229 − GGGGGUGGCGAGGAAUCAGC 20 9078SCNN1A-9469 − AGGGGGUGGCGAGGAAUCAGC 21 13318 SCNN1A-9470 −GAGGGGGUGGCGAGGAAUCAGC 22 13319 SCNN1A-9471 − GGAGGGGGUGGCGAGGAAUCAGC 2313320 SCNN1A-9472 − UGGAGGGGGUGGCGAGGAAUCAGC 24 13321 SCNN1A-9473 −GGCCAGAAAGAGGAGAGC 18 13322 SCNN1A-9474 − AGGCCAGAAAGAGGAGAGC 19 13323SCNN1A-6119 − CAGGCCAGAAAGAGGAGAGC 20 9968 SCNN1A-9475 −GCAGGCCAGAAAGAGGAGAGC 21 13324 SCNN1A-9476 − GGCAGGCCAGAAAGAGGAGAGC 2213325 SCNN1A-9477 − AGGCAGGCCAGAAAGAGGAGAGC 23 13326 SCNN1A-9478 −GAGGCAGGCCAGAAAGAGGAGAGC 24 13327 SCNN1A-9479 − CCAGGUUGGACCCUGAGC 1813328 SCNN1A-9480 − ACCAGGUUGGACCCUGAGC 19 13329 SCNN1A-9481 −GACCAGGUUGGACCCUGAGC 20 13330 SCNN1A-9482 − AGACCAGGUUGGACCCUGAGC 2113331 SCNN1A-9483 − CAGACCAGGUUGGACCCUGAGC 22 13332 SCNN1A-9484 −ACAGACCAGGUUGGACCCUGAGC 23 13333 SCNN1A-9485 − CACAGACCAGGUUGGACCCUGAGC24 13334 SCNN1A-9486 − UGCUCCCACUUAGUGAGC 18 13335 SCNN1A-9487 −CUGCUCCCACUUAGUGAGC 19 13336 SCNN1A-5230 − GCUGCUCCCACUUAGUGAGC 20 9079SCNN1A-9488 − CGCUGCUCCCACUUAGUGAGC 21 13337 SCNN1A-9489 −GCGCUGCUCCCACUUAGUGAGC 22 13338 SCNN1A-9490 − UGCGCUGCUCCCACUUAGUGAGC 2313339 SCNN1A-9491 − GUGCGCUGCUCCCACUUAGUGAGC 24 13340 SCNN1A-9492 −GUCGCAAGAGACUGCCGC 18 13341 SCNN1A-9493 − AGUCGCAAGAGACUGCCGC 19 13342SCNN1A-9494 − AAGUCGCAAGAGACUGCCGC 20 13343 SCNN1A-9495 −GAAGUCGCAAGAGACUGCCGC 21 13344 SCNN1A-9496 − AGAAGUCGCAAGAGACUGCCGC 2213345 SCNN1A-9497 − AAGAAGUCGCAAGAGACUGCCGC 23 13346 SCNN1A-9498 −UAAGAAGUCGCAAGAGACUGCCGC 24 13347 SCNN1A-9499 − UUCACUUUAAGAAGUCGC 1813348 SCNN1A-9500 − UUUCACUUUAAGAAGUCGC 19 13349 SCNN1A-9501 −CUUUCACUUUAAGAAGUCGC 20 13350 SCNN1A-9502 − GCUUUCACUUUAAGAAGUCGC 2113351 SCNN1A-9503 − GGCUUUCACUUUAAGAAGUCGC 22 13352 SCNN1A-9504 −CGGCUUUCACUUUAAGAAGUCGC 23 13353 SCNN1A-9505 − CCGGCUUUCACUUUAAGAAGUCGC24 13354 SCNN1A-9506 − CUGGCAAAUAGAAAAGGC 18 13355 SCNN1A-9507 −GCUGGCAAAUAGAAAAGGC 19 13356 SCNN1A-6121 − AGCUGGCAAAUAGAAAAGGC 20 9970SCNN1A-9508 − GAGCUGGCAAAUAGAAAAGGC 21 13357 SCNN1A-9509 −UGAGCUGGCAAAUAGAAAAGGC 22 13358 SCNN1A-9510 − AUGAGCUGGCAAAUAGAAAAGGC 2313359 SCNN1A-9511 − CAUGAGCUGGCAAAUAGAAAAGGC 24 13360 SCNN1A-9512 −AGUGAGAGGGGGCAAGGC 18 13361 SCNN1A-9513 − GAGUGAGAGGGGGCAAGGC 19 13362SCNN1A-9514 − AGAGUGAGAGGGGGCAAGGC 20 13363 SCNN1A-9515 −UAGAGUGAGAGGGGGCAAGGC 21 13364 SCNN1A-9516 − CUAGAGUGAGAGGGGGCAAGGC 2213365 SCNN1A-9517 − CCUAGAGUGAGAGGGGGCAAGGC 23 13366 SCNN1A-9518 −GCCUAGAGUGAGAGGGGGCAAGGC 24 13367 SCNN1A-9519 − UAGAGAGAGGAGGCAGGC 1813368 SCNN1A-9520 − UUAGAGAGAGGAGGCAGGC 19 13369 SCNN1A-9521 −AUUAGAGAGAGGAGGCAGGC 20 13370 SCNN1A-9522 − GAUUAGAGAGAGGAGGCAGGC 2113371 SCNN1A-9523 − GGAUUAGAGAGAGGAGGCAGGC 22 13372 SCNN1A-9524 −AGGAUUAGAGAGAGGAGGCAGGC 23 13373 SCNN1A-9525 − CAGGAUUAGAGAGAGGAGGCAGGC24 13374 SCNN1A-9526 − AGUGGUUGGAUUUCAGGC 18 13375 SCNN1A-9527 −UAGUGGUUGGAUUUCAGGC 19 13376 SCNN1A-9528 − CUAGUGGUUGGAUUUCAGGC 20 13377SCNN1A-9529 − GCUAGUGGUUGGAUUUCAGGC 21 13378 SCNN1A-9530 −AGCUAGUGGUUGGAUUUCAGGC 22 13379 SCNN1A-9531 − AAGCUAGUGGUUGGAUUUCAGGC 2313380 SCNN1A-9532 − UAAGCUAGUGGUUGGAUUUCAGGC 24 13381 SCNN1A-9533 −GAGGUCAGGGCCAGAGGC 18 13382 SCNN1A-9534 − CGAGGUCAGGGCCAGAGGC 19 13383SCNN1A-5607 − UCGAGGUCAGGGCCAGAGGC 20 9456 SCNN1A-9535 −CUCGAGGUCAGGGCCAGAGGC 21 13384 SCNN1A-9536 − GCUCGAGGUCAGGGCCAGAGGC 2213385 SCNN1A-9537 − AGCUCGAGGUCAGGGCCAGAGGC 23 13386 SCNN1A-9538 −CAGCUCGAGGUCAGGGCCAGAGGC 24 13387 SCNN1A-9539 − AGAGAGGGAGUGAGAGGC 1813388 SCNN1A-9540 − UAGAGAGGGAGUGAGAGGC 19 13389 SCNN1A-6123 −AUAGAGAGGGAGUGAGAGGC 20 9972 SCNN1A-9541 − GAUAGAGAGGGAGUGAGAGGC 2113390 SCNN1A-9542 − AGAUAGAGAGGGAGUGAGAGGC 22 13391 SCNN1A-9543 −CAGAUAGAGAGGGAGUGAGAGGC 23 13392 SCNN1A-9544 − GCAGAUAGAGAGGGAGUGAGAGGC24 13393 SCNN1A-9545 − CUCUCUUCUCUGCAGGGC 18 13394 SCNN1A-9546 −UCUCUCUUCUCUGCAGGGC 19 13395 SCNN1A-9547 − UUCUCUCUUCUCUGCAGGGC 20 13396SCNN1A-9548 − CUUCUCUCUUCUCUGCAGGGC 21 13397 SCNN1A-9549 −UCUUCUCUCUUCUCUGCAGGGC 22 13398 SCNN1A-9550 − CUCUUCUCUCUUCUCUGCAGGGC 2313399 SCNN1A-9551 − CCUCUUCUCUCUUCUCUGCAGGGC 24 13400 SCNN1A-9552 −ACAGCUCGAGGUCAGGGC 18 13401 SCNN1A-9553 − CACAGCUCGAGGUCAGGGC 19 13402SCNN1A-9554 − ACACAGCUCGAGGUCAGGGC 20 13403 SCNN1A-9555 −GACACAGCUCGAGGUCAGGGC 21 13404 SCNN1A-9556 − GGACACAGCUCGAGGUCAGGGC 2213405 SCNN1A-9557 − AGGACACAGCUCGAGGUCAGGGC 23 13406 SCNN1A-9558 −CAGGACACAGCUCGAGGUCAGGGC 24 13407 SCNN1A-1928 − GUGGGACAUGGGCAUGGC 185777 SCNN1A-1929 − GGUGGGACAUGGGCAUGGC 19 5778 SCNN1A-1930 −GGGUGGGACAUGGGCAUGGC 20 5779 SCNN1A-1931 − AGGGUGGGACAUGGGCAUGGC 21 5780SCNN1A-1932 − CAGGGUGGGACAUGGGCAUGGC 22 5781 SCNN1A-1933 −GCAGGGUGGGACAUGGGCAUGGC 23 5782 SCNN1A-1934 − CGCAGGGUGGGACAUGGGCAUGGC24 5783 SCNN1A-9559 − AAGGUUGGAGGGGGUGGC 18 13408 SCNN1A-9560 −CAAGGUUGGAGGGGGUGGC 19 13409 SCNN1A-9561 − ACAAGGUUGGAGGGGGUGGC 20 13410SCNN1A-9562 − GACAAGGUUGGAGGGGGUGGC 21 13411 SCNN1A-9563 −GGACAAGGUUGGAGGGGGUGGC 22 13412 SCNN1A-9564 − UGGACAAGGUUGGAGGGGGUGGC 2313413 SCNN1A-9565 − CUGGACAAGGUUGGAGGGGGUGGC 24 13414 SCNN1A-9566 −AGACAGAAAGGGAGGUGC 18 13415 SCNN1A-9567 − GAGACAGAAAGGGAGGUGC 19 13416SCNN1A-9568 − AGAGACAGAAAGGGAGGUGC 20 13417 SCNN1A-9569 −CAGAGACAGAAAGGGAGGUGC 21 13418 SCNN1A-9570 − GCAGAGACAGAAAGGGAGGUGC 2213419 SCNN1A-9571 − GGCAGAGACAGAAAGGGAGGUGC 23 13420 SCNN1A-9572 −GGGCAGAGACAGAAAGGGAGGUGC 24 13421 SCNN1A-9573 − UGCUGAGCACCUUAUUGC 1813422 SCNN1A-9574 − GUGCUGAGCACCUUAUUGC 19 13423 SCNN1A-5237 −GGUGCUGAGCACCUUAUUGC 20 9086 SCNN1A-9575 − GGGUGCUGAGCACCUUAUUGC 2113424 SCNN1A-9576 − AGGGUGCUGAGCACCUUAUUGC 22 13425 SCNN1A-9577 −CAGGGUGCUGAGCACCUUAUUGC 23 13426 SCNN1A-9578 − CCAGGGUGCUGAGCACCUUAUUGC24 13427 SCNN1A-9579 − GGAGCUGAGACACAGAUC 18 13428 SCNN1A-9580 −AGGAGCUGAGACACAGAUC 19 13429 SCNN1A-9581 − CAGGAGCUGAGACACAGAUC 20 13430SCNN1A-9582 − GCAGGAGCUGAGACACAGAUC 21 13431 SCNN1A-9583 −GGCAGGAGCUGAGACACAGAUC 22 13432 SCNN1A-9584 − AGGCAGGAGCUGAGACACAGAUC 2313433 SCNN1A-9585 − GAGGCAGGAGCUGAGACACAGAUC 24 13434 SCNN1A-9586 −UCGAAAGGUGGCCCUAUC 18 13435 SCNN1A-9587 − CUCGAAAGGUGGCCCUAUC 19 13436SCNN1A-5626 − ACUCGAAAGGUGGCCCUAUC 20 9475 SCNN1A-9588 −AACUCGAAAGGUGGCCCUAUC 21 13437 SCNN1A-9589 − AAACUCGAAAGGUGGCCCUAUC 2213438 SCNN1A-9590 − AAAACUCGAAAGGUGGCCCUAUC 23 13439 SCNN1A-9591 −CAAAACUCGAAAGGUGGCCCUAUC 24 13440 SCNN1A-1935 − CUUCCAAGGGGAGGUAUC 185784 SCNN1A-1936 − CCUUCCAAGGGGAGGUAUC 19 5785 SCNN1A-1937 −CCCUUCCAAGGGGAGGUAUC 20 5786 SCNN1A-1938 − UCCCUUCCAAGGGGAGGUAUC 21 5787SCNN1A-1939 − GUCCCUUCCAAGGGGAGGUAUC 22 5788 SCNN1A-1940 −UGUCCCUUCCAAGGGGAGGUAUC 23 5789 SCNN1A-1941 − CUGUCCCUUCCAAGGGGAGGUAUC24 5790 SCNN1A-1942 − GCUCUCCCCAAUCCACUC 18 5791 SCNN1A-1943 −UGCUCUCCCCAAUCCACUC 19 5792 SCNN1A-410 − UUGCUCUCCCCAAUCCACUC 20 4259SCNN1A-1944 − CUUGCUCUCCCCAAUCCACUC 21 5793 SCNN1A-1945 −CCUUGCUCUCCCCAAUCCACUC 22 5794 SCNN1A-1946 − CCCUUGCUCUCCCCAAUCCACUC 235795 SCNN1A-1947 − ACCCUUGCUCUCCCCAAUCCACUC 24 5796 SCNN1A-1948 −GCCCUCCACAGUCCACUC 18 5797 SCNN1A-1949 − AGCCCUCCACAGUCCACUC 19 5798SCNN1A-170 − UAGCCCUCCACAGUCCACUC 20 808 SCNN1A-1950 −CUAGCCCUCCACAGUCCACUC 21 5799 SCNN1A-1951 − UCUAGCCCUCCACAGUCCACUC 225800 SCNN1A-1952 − CUCUAGCCCUCCACAGUCCACUC 23 5801 SCNN1A-1953 −ACUCUAGCCCUCCACAGUCCACUC 24 5802 SCNN1A-9592 − GGAGGCAGCCCAGACCUC 1813441 SCNN1A-9593 − UGGAGGCAGCCCAGACCUC 19 13442 SCNN1A-9594 −CUGGAGGCAGCCCAGACCUC 20 13443 SCNN1A-9595 − GCUGGAGGCAGCCCAGACCUC 2113444 SCNN1A-9596 − AGCUGGAGGCAGCCCAGACCUC 22 13445 SCNN1A-9597 −AAGCUGGAGGCAGCCCAGACCUC 23 13446 SCNN1A-9598 − GAAGCUGGAGGCAGCCCAGACCUC24 13447 SCNN1A-9599 − CCCAGUUCACCUGCCCUC 18 13448 SCNN1A-9600 −UCCCAGUUCACCUGCCCUC 19 13449 SCNN1A-6132 − CUCCCAGUUCACCUGCCCUC 20 9981SCNN1A-9601 − ACUCCCAGUUCACCUGCCCUC 21 13450 SCNN1A-9602 −UACUCCCAGUUCACCUGCCCUC 22 13451 SCNN1A-9603 − GUACUCCCAGUUCACCUGCCCUC 2313452 SCNN1A-9604 − AGUACUCCCAGUUCACCUGCCCUC 24 13453 SCNN1A-9605 −UUGCUGAGCCUCUAGCUC 18 13454 SCNN1A-9606 − CUUGCUGAGCCUCUAGCUC 19 13455SCNN1A-9607 − ACUUGCUGAGCCUCUAGCUC 20 13456 SCNN1A-9608 −CACUUGCUGAGCCUCUAGCUC 21 13457 SCNN1A-9609 − CCACUUGCUGAGCCUCUAGCUC 2213458 SCNN1A-9610 − CCCACUUGCUGAGCCUCUAGCUC 23 13459 SCNN1A-9611 −GCCCACUUGCUGAGCCUCUAGCUC 24 13460 SCNN1A-1960 − CAAUCCACUCCGGGGCUC 185809 SCNN1A-1961 − CCAAUCCACUCCGGGGCUC 19 5810 SCNN1A-1962 −CCCAAUCCACUCCGGGGCUC 20 5811 SCNN1A-1963 − CCCCAAUCCACUCCGGGGCUC 21 5812SCNN1A-1964 − UCCCCAAUCCACUCCGGGGCUC 22 5813 SCNN1A-1965 −CUCCCCAAUCCACUCCGGGGCUC 23 5814 SCNN1A-1966 − UCUCCCCAAUCCACUCCGGGGCUC24 5815 SCNN1A-9612 − AAUGUAAGGACCUGGCUC 18 13461 SCNN1A-9613 −CAAUGUAAGGACCUGGCUC 19 13462 SCNN1A-9614 − CCAAUGUAAGGACCUGGCUC 20 13463SCNN1A-9615 − CCCAAUGUAAGGACCUGGCUC 21 13464 SCNN1A-9616 −GCCCAAUGUAAGGACCUGGCUC 22 13465 SCNN1A-9617 − UGCCCAAUGUAAGGACCUGGCUC 2313466 SCNN1A-9618 − AUGCCCAAUGUAAGGACCUGGCUC 24 13467 SCNN1A-9619 −CCGCAGGUCUGCUGGCUC 18 13468 SCNN1A-9620 − CCCGCAGGUCUGCUGGCUC 19 13469SCNN1A-9621 − UCCCGCAGGUCUGCUGGCUC 20 13470 SCNN1A-9622 −CUCCCGCAGGUCUGCUGGCUC 21 13471 SCNN1A-9623 − ACUCCCGCAGGUCUGCUGGCUC 2213472 SCNN1A-9624 − AACUCCCGCAGGUCUGCUGGCUC 23 13473 SCNN1A-9625 −CAACUCCCGCAGGUCUGCUGGCUC 24 13474 SCNN1A-1967 − CAGCCCAUACCAGGUCUC 185816 SCNN1A-1968 − GCAGCCCAUACCAGGUCUC 19 5817 SCNN1A-159 −UGCAGCCCAUACCAGGUCUC 20 803 SCNN1A-1969 − CUGCAGCCCAUACCAGGUCUC 21 5818SCNN1A-1970 − UCUGCAGCCCAUACCAGGUCUC 22 5819 SCNN1A-1971 −CUCUGCAGCCCAUACCAGGUCUC 23 5820 SCNN1A-1972 − CCUCUGCAGCCCAUACCAGGUCUC24 5821 SCNN1A-9626 − CCCCCAUGAGUCUGUCUC 18 13475 SCNN1A-9627 −UCCCCCAUGAGUCUGUCUC 19 13476 SCNN1A-5636 − AUCCCCCAUGAGUCUGUCUC 20 9485SCNN1A-9628 − GAUCCCCCAUGAGUCUGUCUC 21 13477 SCNN1A-9629 −CGAUCCCCCAUGAGUCUGUCUC 22 13478 SCNN1A-9630 − CCGAUCCCCCAUGAGUCUGUCUC 2313479 SCNN1A-9631 − CCCGAUCCCCCAUGAGUCUGUCUC 24 13480 SCNN1A-9632 −CAGAGAUGACACCUUCUC 18 13481 SCNN1A-9633 − GCAGAGAUGACACCUUCUC 19 13482SCNN1A-5637 − AGCAGAGAUGACACCUUCUC 20 9486 SCNN1A-9634 −CAGCAGAGAUGACACCUUCUC 21 13483 SCNN1A-9635 − UCAGCAGAGAUGACACCUUCUC 2213484 SCNN1A-9636 − UUCAGCAGAGAUGACACCUUCUC 23 13485 SCNN1A-9637 −AUUCAGCAGAGAUGACACCUUCUC 24 13486 SCNN1A-9638 − UCCUGGAGCCCUGCAGUC 1813487 SCNN1A-9639 − CUCCUGGAGCCCUGCAGUC 19 13488 SCNN1A-9640 −CCUCCUGGAGCCCUGCAGUC 20 13489 SCNN1A-9641 − ACCUCCUGGAGCCCUGCAGUC 2113490 SCNN1A-9642 − GACCUCCUGGAGCCCUGCAGUC 22 13491 SCNN1A-9643 −AGACCUCCUGGAGCCCUGCAGUC 23 13492 SCNN1A-9644 − CAGACCUCCUGGAGCCCUGCAGUC24 13493 SCNN1A-9645 − CCCCCCUUGCUCUCCUUC 18 13494 SCNN1A-9646 −UCCCCCCUUGCUCUCCUUC 19 13495 SCNN1A-9647 − CUCCCCCCUUGCUCUCCUUC 20 13496SCNN1A-9648 − ACUCCCCCCUUGCUCUCCUUC 21 13497 SCNN1A-9649 −GACUCCCCCCUUGCUCUCCUUC 22 13498 SCNN1A-9650 − GGACUCCCCCCUUGCUCUCCUUC 2313499 SCNN1A-9651 − GGGACUCCCCCCUUGCUCUCCUUC 24 13500 SCNN1A-9652 −UGCUUUCCCUGCCUCUUC 18 13501 SCNN1A-9653 − CUGCUUUCCCUGCCUCUUC 19 13502SCNN1A-9654 − CCUGCUUUCCCUGCCUCUUC 20 13503 SCNN1A-9655 −GCCUGCUUUCCCUGCCUCUUC 21 13504 SCNN1A-9656 − UGCCUGCUUUCCCUGCCUCUUC 2213505 SCNN1A-9657 − GUGCCUGCUUUCCCUGCCUCUUC 23 13506 SCNN1A-9658 −AGUGCCUGCUUUCCCUGCCUCUUC 24 13507 SCNN1A-9659 − GCAGAGGAGAGGCCGUUC 1813508 SCNN1A-9660 − AGCAGAGGAGAGGCCGUUC 19 13509 SCNN1A-9661 −AAGCAGAGGAGAGGCCGUUC 20 13510 SCNN1A-9662 − GAAGCAGAGGAGAGGCCGUUC 2113511 SCNN1A-9663 − GGAAGCAGAGGAGAGGCCGUUC 22 13512 SCNN1A-9664 −GGGAAGCAGAGGAGAGGCCGUUC 23 13513 SCNN1A-9665 − AGGGAAGCAGAGGAGAGGCCGUUC24 13514 SCNN1A-1973 − GCAGCCUCACUCGGGUUC 18 5822 SCNN1A-1974 −GGCAGCCUCACUCGGGUUC 19 5823 SCNN1A-1975 − GGGCAGCCUCACUCGGGUUC 20 5824SCNN1A-1976 − GGGGCAGCCUCACUCGGGUUC 21 5825 SCNN1A-1977 −AGGGGCAGCCUCACUCGGGUUC 22 5826 SCNN1A-1978 − CAGGGGCAGCCUCACUCGGGUUC 235827 SCNN1A-1979 − CCAGGGGCAGCCUCACUCGGGUUC 24 5828 SCNN1A-9666 −AAGGGAGACUGGAGUUUC 18 13515 SCNN1A-9667 − CAAGGGAGACUGGAGUUUC 19 13516SCNN1A-9668 − UCAAGGGAGACUGGAGUUUC 20 13517 SCNN1A-9669 −CUCAAGGGAGACUGGAGUUUC 21 13518 SCNN1A-9670 − GCUCAAGGGAGACUGGAGUUUC 2213519 SCNN1A-9671 − GGCUCAAGGGAGACUGGAGUUUC 23 13520 SCNN1A-9672 −UGGCUCAAGGGAGACUGGAGUUUC 24 13521 SCNN1A-9673 − AGGAGGCAGGCCAGAAAG 1813522 SCNN1A-9674 − GAGGAGGCAGGCCAGAAAG 19 13523 SCNN1A-6139 −AGAGGAGGCAGGCCAGAAAG 20 9988 SCNN1A-9675 − GAGAGGAGGCAGGCCAGAAAG 2113524 SCNN1A-9676 − AGAGAGGAGGCAGGCCAGAAAG 22 13525 SCNN1A-9677 −GAGAGAGGAGGCAGGCCAGAAAG 23 13526 SCNN1A-9678 − AGAGAGAGGAGGCAGGCCAGAAAG24 13527 SCNN1A-9679 − CUGCUGGCUCCAGGAAAG 18 13528 SCNN1A-9680 −UCUGCUGGCUCCAGGAAAG 19 13529 SCNN1A-9681 − GUCUGCUGGCUCCAGGAAAG 20 13530SCNN1A-9682 − GGUCUGCUGGCUCCAGGAAAG 21 13531 SCNN1A-9683 −AGGUCUGCUGGCUCCAGGAAAG 22 13532 SCNN1A-9684 − CAGGUCUGCUGGCUCCAGGAAAG 2313533 SCNN1A-9685 − GCAGGUCUGCUGGCUCCAGGAAAG 24 13534 SCNN1A-9686 −GAGGAAUCAGCAGGAAAG 18 13535 SCNN1A-9687 − CGAGGAAUCAGCAGGAAAG 19 13536SCNN1A-5244 − GCGAGGAAUCAGCAGGAAAG 20 9093 SCNN1A-9688 −GGCGAGGAAUCAGCAGGAAAG 21 13537 SCNN1A-9689 − UGGCGAGGAAUCAGCAGGAAAG 2213538 SCNN1A-9690 − GUGGCGAGGAAUCAGCAGGAAAG 23 13539 SCNN1A-9691 −GGUGGCGAGGAAUCAGCAGGAAAG 24 13540 SCNN1A-1980 − CUCAUGAAGGGGAACAAG 185829 SCNN1A-1981 − GCUCAUGAAGGGGAACAAG 19 5830 SCNN1A-1982 −GGCUCAUGAAGGGGAACAAG 20 5831 SCNN1A-1983 − GGGCUCAUGAAGGGGAACAAG 21 5832SCNN1A-1984 − GGGGCUCAUGAAGGGGAACAAG 22 5833 SCNN1A-1985 −CGGGGCUCAUGAAGGGGAACAAG 23 5834 SCNN1A-1986 − CCGGGGCUCAUGAAGGGGAACAAG24 5835 SCNN1A-1987 − CUCAUGGAGGGGAACAAG 18 5836 SCNN1A-1988 −UCUCAUGGAGGGGAACAAG 19 5837 SCNN1A-165 − GUCUCAUGGAGGGGAACAAG 20 805SCNN1A-1989 − GGUCUCAUGGAGGGGAACAAG 21 5838 SCNN1A-1990 −AGGUCUCAUGGAGGGGAACAAG 22 5839 SCNN1A-1991 − CAGGUCUCAUGGAGGGGAACAAG 235840 SCNN1A-1992 − CCAGGUCUCAUGGAGGGGAACAAG 24 5841 SCNN1A-1993 −CCAGCUGUCCCUUCCAAG 18 5842 SCNN1A-1994 − UCCAGCUGUCCCUUCCAAG 19 5843SCNN1A-412 − AUCCAGCUGUCCCUUCCAAG 20 4261 SCNN1A-9692 −AAUCCAGCUGUCCCUUCCAAG 21 13541 SCNN1A-9693 − AAAUCCAGCUGUCCCUUCCAAG 2213542 SCNN1A-9694 − AAAAUCCAGCUGUCCCUUCCAAG 23 13543 SCNN1A-9695 −AAAAAUCCAGCUGUCCCUUCCAAG 24 13544 SCNN1A-9696 − GAGAGGGGGCAAGGCAAG 1813545 SCNN1A-9697 − UGAGAGGGGGCAAGGCAAG 19 13546 SCNN1A-5246 −GUGAGAGGGGGCAAGGCAAG 20 9095 SCNN1A-9698 − AGUGAGAGGGGGCAAGGCAAG 2113547 SCNN1A-9699 − GAGUGAGAGGGGGCAAGGCAAG 22 13548 SCNN1A-9700 −AGAGUGAGAGGGGGCAAGGCAAG 23 13549 SCNN1A-9701 − UAGAGUGAGAGGGGGCAAGGCAAG24 13550 SCNN1A-9702 − GUGGCCCUAUCAGGGAAG 18 13551 SCNN1A-9703 −GGUGGCCCUAUCAGGGAAG 19 13552 SCNN1A-9704 − AGGUGGCCCUAUCAGGGAAG 20 13553SCNN1A-9705 − AAGGUGGCCCUAUCAGGGAAG 21 13554 SCNN1A-9706 −AAAGGUGGCCCUAUCAGGGAAG 22 13555 SCNN1A-9707 − GAAAGGUGGCCCUAUCAGGGAAG 2313556 SCNN1A-9708 − CGAAAGGUGGCCCUAUCAGGGAAG 24 13557 SCNN1A-9709 −CAACCUGGGAGUGGGAAG 18 13558 SCNN1A-9710 − GCAACCUGGGAGUGGGAAG 19 13559SCNN1A-9711 − CGCAACCUGGGAGUGGGAAG 20 13560 SCNN1A-9712 −CCGCAACCUGGGAGUGGGAAG 21 13561 SCNN1A-9713 − GCCGCAACCUGGGAGUGGGAAG 2213562 SCNN1A-9714 − AGCCGCAACCUGGGAGUGGGAAG 23 13563 SCNN1A-9715 −CAGCCGCAACCUGGGAGUGGGAAG 24 13564 SCNN1A-2001 − ACUCCGGGGCUCAUGAAG 185850 SCNN1A-2002 − CACUCCGGGGCUCAUGAAG 19 5851 SCNN1A-453 −CCACUCCGGGGCUCAUGAAG 20 4302 SCNN1A-2003 − UCCACUCCGGGGCUCAUGAAG 21 5852SCNN1A-2004 − AUCCACUCCGGGGCUCAUGAAG 22 5853 SCNN1A-2005 −AAUCCACUCCGGGGCUCAUGAAG 23 5854 SCNN1A-2006 − CAAUCCACUCCGGGGCUCAUGAAG24 5855 SCNN1A-9716 − GCAACUCUGUGACCACAG 18 13565 SCNN1A-9717 −UGCAACUCUGUGACCACAG 19 13566 SCNN1A-9718 − CUGCAACUCUGUGACCACAG 20 13567SCNN1A-9719 − CCUGCAACUCUGUGACCACAG 21 13568 SCNN1A-9720 −UCCUGCAACUCUGUGACCACAG 22 13569 SCNN1A-9721 − UUCCUGCAACUCUGUGACCACAG 2313570 SCNN1A-9722 − AUUCCUGCAACUCUGUGACCACAG 24 13571 SCNN1A-9723 −GGAAAGAGGAGGGACCAG 18 13572 SCNN1A-9724 − AGGAAAGAGGAGGGACCAG 19 13573SCNN1A-9725 − CAGGAAAGAGGAGGGACCAG 20 13574 SCNN1A-9726 −GCAGGAAAGAGGAGGGACCAG 21 13575 SCNN1A-9727 − AGCAGGAAAGAGGAGGGACCAG 2213576 SCNN1A-9728 − CAGCAGGAAAGAGGAGGGACCAG 23 13577 SCNN1A-9729 −UCAGCAGGAAAGAGGAGGGACCAG 24 13578 SCNN1A-9730 − CUAAGUAGAUAGCCCCAG 1813579 SCNN1A-9731 − GCUAAGUAGAUAGCCCCAG 19 13580 SCNN1A-5646 −CGCUAAGUAGAUAGCCCCAG 20 9495 SCNN1A-9732 − GCGCUAAGUAGAUAGCCCCAG 2113581 SCNN1A-9733 − AGCGCUAAGUAGAUAGCCCCAG 22 13582 SCNN1A-9734 −AAGCGCUAAGUAGAUAGCCCCAG 23 13583 SCNN1A-9735 − AAAGCGCUAAGUAGAUAGCCCCAG24 13584 SCNN1A-9736 − GCCCUAUCAGGGAAGCAG 18 13585 SCNN1A-9737 −GGCCCUAUCAGGGAAGCAG 19 13586 SCNN1A-5649 − UGGCCCUAUCAGGGAAGCAG 20 9498SCNN1A-9738 − GUGGCCCUAUCAGGGAAGCAG 21 13587 SCNN1A-9739 −GGUGGCCCUAUCAGGGAAGCAG 22 13588 SCNN1A-9740 − AGGUGGCCCUAUCAGGGAAGCAG 2313589 SCNN1A-9741 − AAGGUGGCCCUAUCAGGGAAGCAG 24 13590 SCNN1A-9742 −CCAGAAAGAGGAGAGCAG 18 13591 SCNN1A-9743 − GCCAGAAAGAGGAGAGCAG 19 13592SCNN1A-9744 − GGCCAGAAAGAGGAGAGCAG 20 13593 SCNN1A-9745 −AGGCCAGAAAGAGGAGAGCAG 21 13594 SCNN1A-9746 − CAGGCCAGAAAGAGGAGAGCAG 2213595 SCNN1A-9747 − GCAGGCCAGAAAGAGGAGAGCAG 23 13596 SCNN1A-9748 −GGCAGGCCAGAAAGAGGAGAGCAG 24 13597 SCNN1A-9749 − CUGGGAUAUGUGGGGCAG 1813598 SCNN1A-9750 − UCUGGGAUAUGUGGGGCAG 19 13599 SCNN1A-5651 −CUCUGGGAUAUGUGGGGCAG 20 9500 SCNN1A-9751 − UCUCUGGGAUAUGUGGGGCAG 2113600 SCNN1A-9752 − GUCUCUGGGAUAUGUGGGGCAG 22 13601 SCNN1A-9753 −GGUCUCUGGGAUAUGUGGGGCAG 23 13602 SCNN1A-9754 − GGGUCUCUGGGAUAUGUGGGGCAG24 13603 SCNN1A-9755 − GGGGUGGCGAGGAAUCAG 18 13604 SCNN1A-9756 −GGGGGUGGCGAGGAAUCAG 19 13605 SCNN1A-9757 − AGGGGGUGGCGAGGAAUCAG 20 13606SCNN1A-9758 − GAGGGGGUGGCGAGGAAUCAG 21 13607 SCNN1A-9759 −GGAGGGGGUGGCGAGGAAUCAG 22 13608 SCNN1A-9760 − UGGAGGGGGUGGCGAGGAAUCAG 2313609 SCNN1A-9761 − UUGGAGGGGGUGGCGAGGAAUCAG 24 13610 SCNN1A-9762 −GGCCGCUGCACCUGUCAG 18 13611 SCNN1A-9763 − AGGCCGCUGCACCUGUCAG 19 13612SCNN1A-9764 − CAGGCCGCUGCACCUGUCAG 20 13613 SCNN1A-9765 −CCAGGCCGCUGCACCUGUCAG 21 13614 SCNN1A-9766 − GCCAGGCCGCUGCACCUGUCAG 2213615 SCNN1A-9767 − AGCCAGGCCGCUGCACCUGUCAG 23 13616 SCNN1A-9768 −CAGCCAGGCCGCUGCACCUGUCAG 24 13617 SCNN1A-9769 − UUGCUUGUCAAGAUUCAG 1813618 SCNN1A-9770 − CUUGCUUGUCAAGAUUCAG 19 13619 SCNN1A-9771 −CCUUGCUUGUCAAGAUUCAG 20 13620 SCNN1A-9772 − UCCUUGCUUGUCAAGAUUCAG 2113621 SCNN1A-9773 − CUCCUUGCUUGUCAAGAUUCAG 22 13622 SCNN1A-9774 −ACUCCUUGCUUGUCAAGAUUCAG 23 13623 SCNN1A-9775 − AACUCCUUGCUUGUCAAGAUUCAG24 13624 SCNN1A-9776 − GAGGCAGGCCAGAAAGAG 18 13625 SCNN1A-9777 −GGAGGCAGGCCAGAAAGAG 19 13626 SCNN1A-9778 − AGGAGGCAGGCCAGAAAGAG 20 13627SCNN1A-9779 − GAGGAGGCAGGCCAGAAAGAG 21 13628 SCNN1A-9780 −AGAGGAGGCAGGCCAGAAAGAG 22 13629 SCNN1A-9781 − GAGAGGAGGCAGGCCAGAAAGAG 2313630 SCNN1A-9782 − AGAGAGGAGGCAGGCCAGAAAGAG 24 13631 SCNN1A-9783 −GGAAUCAGCAGGAAAGAG 18 13632 SCNN1A-9784 − AGGAAUCAGCAGGAAAGAG 19 13633SCNN1A-9785 − GAGGAAUCAGCAGGAAAGAG 20 13634 SCNN1A-9786 −CGAGGAAUCAGCAGGAAAGAG 21 13635 SCNN1A-9787 − GCGAGGAAUCAGCAGGAAAGAG 2213636 SCNN1A-9788 − GGCGAGGAAUCAGCAGGAAAGAG 23 13637 SCNN1A-9789 −UGGCGAGGAAUCAGCAGGAAAGAG 24 13638 SCNN1A-9790 − AAGAGACUGCCGCAAGAG 1813639 SCNN1A-9791 − CAAGAGACUGCCGCAAGAG 19 13640 SCNN1A-5249 −GCAAGAGACUGCCGCAAGAG 20 9098 SCNN1A-9792 − CGCAAGAGACUGCCGCAAGAG 2113641 SCNN1A-9793 − UCGCAAGAGACUGCCGCAAGAG 22 13642 SCNN1A-9794 −GUCGCAAGAGACUGCCGCAAGAG 23 13643 SCNN1A-9795 − AGUCGCAAGAGACUGCCGCAAGAG24 13644 SCNN1A-9796 − AAGUAGAUAGCCCCAGAG 18 13645 SCNN1A-9797 −UAAGUAGAUAGCCCCAGAG 19 13646 SCNN1A-9798 − CUAAGUAGAUAGCCCCAGAG 20 13647SCNN1A-9799 − GCUAAGUAGAUAGCCCCAGAG 21 13648 SCNN1A-9800 −CGCUAAGUAGAUAGCCCCAGAG 22 13649 SCNN1A-9801 − GCGCUAAGUAGAUAGCCCCAGAG 2313650 SCNN1A-9802 − AGCGCUAAGUAGAUAGCCCCAGAG 24 13651 SCNN1A-9803 −CCUAUCAGGGAAGCAGAG 18 13652 SCNN1A-9804 − CCCUAUCAGGGAAGCAGAG 19 13653SCNN1A-9805 − GCCCUAUCAGGGAAGCAGAG 20 13654 SCNN1A-9806 −GGCCCUAUCAGGGAAGCAGAG 21 13655 SCNN1A-9807 − UGGCCCUAUCAGGGAAGCAGAG 2213656 SCNN1A-9808 − GUGGCCCUAUCAGGGAAGCAGAG 23 13657 SCNN1A-9809 −GGUGGCCCUAUCAGGGAAGCAGAG 24 13658 SCNN1A-9810 − AGAGGCAGGAUUAGAGAG 1813659 SCNN1A-9811 − GAGAGGCAGGAUUAGAGAG 19 13660 SCNN1A-6147 −AGAGAGGCAGGAUUAGAGAG 20 9996 SCNN1A-9812 − AAGAGAGGCAGGAUUAGAGAG 2113661 SCNN1A-9813 − GAAGAGAGGCAGGAUUAGAGAG 22 13662 SCNN1A-9814 −GGAAGAGAGGCAGGAUUAGAGAG 23 13663 SCNN1A-9815 − AGGAAGAGAGGCAGGAUUAGAGAG24 13664 SCNN1A-9816 − AGGCCAGAAAGAGGAGAG 18 13665 SCNN1A-9817 −CAGGCCAGAAAGAGGAGAG 19 13666 SCNN1A-9818 − GCAGGCCAGAAAGAGGAGAG 20 13667SCNN1A-9819 − GGCAGGCCAGAAAGAGGAGAG 21 13668 SCNN1A-9820 −AGGCAGGCCAGAAAGAGGAGAG 22 13669 SCNN1A-9821 − GAGGCAGGCCAGAAAGAGGAGAG 2313670 SCNN1A-9822 − GGAGGCAGGCCAGAAAGAGGAGAG 24 13671 SCNN1A-9823 −AACAGAAGGCAGAUAGAG 18 13672 SCNN1A-9824 − AAACAGAAGGCAGAUAGAG 19 13673SCNN1A-5250 − GAAACAGAAGGCAGAUAGAG 20 9099 SCNN1A-9825 −AGAAACAGAAGGCAGAUAGAG 21 13674 SCNN1A-9826 − GAGAAACAGAAGGCAGAUAGAG 2213675 SCNN1A-9827 − AGAGAAACAGAAGGCAGAUAGAG 23 13676 SCNN1A-9828 −AAGAGAAACAGAAGGCAGAUAGAG 24 13677 SCNN1A-9829 − GGGAGUGAGAGGCAGGAG 1813678 SCNN1A-9830 − AGGGAGUGAGAGGCAGGAG 19 13679 SCNN1A-9831 −GAGGGAGUGAGAGGCAGGAG 20 13680 SCNN1A-9832 − AGAGGGAGUGAGAGGCAGGAG 2113681 SCNN1A-9833 − GAGAGGGAGUGAGAGGCAGGAG 22 13682 SCNN1A-9834 −AGAGAGGGAGUGAGAGGCAGGAG 23 13683 SCNN1A-9835 − UAGAGAGGGAGUGAGAGGCAGGAG24 13684 SCNN1A-9836 − UAGAUAGCCCCAGAGGAG 18 13685 SCNN1A-9837 −GUAGAUAGCCCCAGAGGAG 19 13686 SCNN1A-9838 − AGUAGAUAGCCCCAGAGGAG 20 13687SCNN1A-9839 − AAGUAGAUAGCCCCAGAGGAG 21 13688 SCNN1A-9840 −UAAGUAGAUAGCCCCAGAGGAG 22 13689 SCNN1A-9841 − CUAAGUAGAUAGCCCCAGAGGAG 2313690 SCNN1A-9842 − GCUAAGUAGAUAGCCCCAGAGGAG 24 13691 SCNN1A-9843 −GGAGGAGGGAGGGAGGAG 18 13692 SCNN1A-9844 − UGGAGGAGGGAGGGAGGAG 19 13693SCNN1A-5897 − GUGGAGGAGGGAGGGAGGAG 20 9746 SCNN1A-9845 −GGUGGAGGAGGGAGGGAGGAG 21 13694 SCNN1A-9846 − AGGUGGAGGAGGGAGGGAGGAG 2213695 SCNN1A-9847 − AAGGUGGAGGAGGGAGGGAGGAG 23 13696 SCNN1A-9848 −AAAGGUGGAGGAGGGAGGGAGGAG 24 13697 SCNN1A-2007 − GGGAACAAGCUGGAGGAG 185856 SCNN1A-2008 − GGGGAACAAGCUGGAGGAG 19 5857 SCNN1A-169 −AGGGGAACAAGCUGGAGGAG 20 807 SCNN1A-2009 − AAGGGGAACAAGCUGGAGGAG 21 5858SCNN1A-2010 − GAAGGGGAACAAGCUGGAGGAG 22 5859 SCNN1A-2011 −UGAAGGGGAACAAGCUGGAGGAG 23 5860 SCNN1A-2012 − AUGAAGGGGAACAAGCUGGAGGAG24 5861 SCNN1A-2013 − GAGGGGAACAAGCUGGAGGAG 21 5862 SCNN1A-2014 −GGAGGGGAACAAGCUGGAGGAG 22 5863 SCNN1A-2015 − UGGAGGGGAACAAGCUGGAGGAG 235864 SCNN1A-2016 − AUGGAGGGGAACAAGCUGGAGGAG 24 5865 SCNN1A-9849 −CUGUCAGGUGAGGGGGAG 18 13698 SCNN1A-9850 − CCUGUCAGGUGAGGGGGAG 19 13699SCNN1A-9851 − ACCUGUCAGGUGAGGGGGAG 20 13700 SCNN1A-9852 −CACCUGUCAGGUGAGGGGGAG 21 13701 SCNN1A-9853 − GCACCUGUCAGGUGAGGGGGAG 2213702 SCNN1A-9854 − UGCACCUGUCAGGUGAGGGGGAG 23 13703 SCNN1A-9855 −CUGCACCUGUCAGGUGAGGGGGAG 24 13704 SCNN1A-9856 − GCAAGGCAAGGGGGGGAG 1813705 SCNN1A-9857 − GGCAAGGCAAGGGGGGGAG 19 13706 SCNN1A-5900 −GGGCAAGGCAAGGGGGGGAG 20 9749 SCNN1A-9858 − GGGGCAAGGCAAGGGGGGGAG 2113707 SCNN1A-9859 − GGGGGCAAGGCAAGGGGGGGAG 22 13708 SCNN1A-9860 −AGGGGGCAAGGCAAGGGGGGGAG 23 13709 SCNN1A-9861 − GAGGGGGCAAGGCAAGGGGGGGAG24 13710 SCNN1A-9862 − CCAGCCGCAACCUGGGAG 18 13711 SCNN1A-9863 −UCCAGCCGCAACCUGGGAG 19 13712 SCNN1A-5251 − GUCCAGCCGCAACCUGGGAG 20 9100SCNN1A-9864 − AGUCCAGCCGCAACCUGGGAG 21 13713 SCNN1A-9865 −CAGUCCAGCCGCAACCUGGGAG 22 13714 SCNN1A-9866 − CCAGUCCAGCCGCAACCUGGGAG 2313715 SCNN1A-9867 − CCCAGUCCAGCCGCAACCUGGGAG 24 13716 SCNN1A-2029 −AUACCAGGUCUCAUGGAG 18 5878 SCNN1A-2030 − CAUACCAGGUCUCAUGGAG 19 5879SCNN1A-4 − CCAUACCAGGUCUCAUGGAG 20 498 SCNN1A-2031 −CCCAUACCAGGUCUCAUGGAG 21 5880 SCNN1A-2032 − GCCCAUACCAGGUCUCAUGGAG 225881 SCNN1A-2033 − AGCCCAUACCAGGUCUCAUGGAG 23 5882 SCNN1A-2034 −CAGCCCAUACCAGGUCUCAUGGAG 24 5883 SCNN1A-9868 − CAGGGCCAGAGGCUGGAG 1813717 SCNN1A-9869 − UCAGGGCCAGAGGCUGGAG 19 13718 SCNN1A-9870 −GUCAGGGCCAGAGGCUGGAG 20 13719 SCNN1A-9871 − GGUCAGGGCCAGAGGCUGGAG 2113720 SCNN1A-9872 − AGGUCAGGGCCAGAGGCUGGAG 22 13721 SCNN1A-9873 −GAGGUCAGGGCCAGAGGCUGGAG 23 13722 SCNN1A-9874 − CGAGGUCAGGGCCAGAGGCUGGAG24 13723 SCNN1A-9875 − GCUCCAGGAAAGGUGGAG 18 13724 SCNN1A-9876 −GGCUCCAGGAAAGGUGGAG 19 13725 SCNN1A-9877 − UGGCUCCAGGAAAGGUGGAG 20 13726SCNN1A-9878 − CUGGCUCCAGGAAAGGUGGAG 21 13727 SCNN1A-9879 −GCUGGCUCCAGGAAAGGUGGAG 22 13728 SCNN1A-9880 − UGCUGGCUCCAGGAAAGGUGGAG 2313729 SCNN1A-9881 − CUGCUGGCUCCAGGAAAGGUGGAG 24 13730 SCNN1A-9882 −CUGAGGGCCUAGAGUGAG 18 13731 SCNN1A-9883 − GCUGAGGGCCUAGAGUGAG 19 13732SCNN1A-5657 − AGCUGAGGGCCUAGAGUGAG 20 9506 SCNN1A-9884 −GAGCUGAGGGCCUAGAGUGAG 21 13733 SCNN1A-9885 − GGAGCUGAGGGCCUAGAGUGAG 2213734 SCNN1A-9886 − UGGAGCUGAGGGCCUAGAGUGAG 23 13735 SCNN1A-9887 −CUGGAGCUGAGGGCCUAGAGUGAG 24 13736 SCNN1A-9888 − CUGCUCCCACUUAGUGAG 1813737 SCNN1A-9889 − GCUGCUCCCACUUAGUGAG 19 13738 SCNN1A-5658 −CGCUGCUCCCACUUAGUGAG 20 9507 SCNN1A-9890 − GCGCUGCUCCCACUUAGUGAG 2113739 SCNN1A-9891 − UGCGCUGCUCCCACUUAGUGAG 22 13740 SCNN1A-9892 −GUGCGCUGCUCCCACUUAGUGAG 23 13741 SCNN1A-9893 − AGUGCGCUGCUCCCACUUAGUGAG24 13742 SCNN1A-9894 − CUGCACCUGUCAGGUGAG 18 13743 SCNN1A-9895 −GCUGCACCUGUCAGGUGAG 19 13744 SCNN1A-5659 − CGCUGCACCUGUCAGGUGAG 20 9508SCNN1A-9896 − CCGCUGCACCUGUCAGGUGAG 21 13745 SCNN1A-9897 −GCCGCUGCACCUGUCAGGUGAG 22 13746 SCNN1A-9898 − GGCCGCUGCACCUGUCAGGUGAG 2313747 SCNN1A-9899 − AGGCCGCUGCACCUGUCAGGUGAG 24 13748 SCNN1A-9900 −GCUCCCACUUAGUGAGCG 18 13749 SCNN1A-9901 − UGCUCCCACUUAGUGAGCG 19 13750SCNN1A-5668 − CUGCUCCCACUUAGUGAGCG 20 9517 SCNN1A-9902 −GCUGCUCCCACUUAGUGAGCG 21 13751 SCNN1A-9903 − CGCUGCUCCCACUUAGUGAGCG 2213752 SCNN1A-9904 − GCGCUGCUCCCACUUAGUGAGCG 23 13753 SCNN1A-9905 −UGCGCUGCUCCCACUUAGUGAGCG 24 13754 SCNN1A-9906 − GCUGGCAAAUAGAAAAGG 1813755 SCNN1A-9907 − AGCUGGCAAAUAGAAAAGG 19 13756 SCNN1A-9908 −GAGCUGGCAAAUAGAAAAGG 20 13757 SCNN1A-9909 − UGAGCUGGCAAAUAGAAAAGG 2113758 SCNN1A-9910 − AUGAGCUGGCAAAUAGAAAAGG 22 13759 SCNN1A-9911 −CAUGAGCUGGCAAAUAGAAAAGG 23 13760 SCNN1A-9912 − GCAUGAGCUGGCAAAUAGAAAAGG24 13761 SCNN1A-9913 − GAGGAAGAAGACCAAAGG 18 13762 SCNN1A-9914 −GGAGGAAGAAGACCAAAGG 19 13763 SCNN1A-9915 − UGGAGGAAGAAGACCAAAGG 20 13764SCNN1A-9916 − CUGGAGGAAGAAGACCAAAGG 21 13765 SCNN1A-9917 −CCUGGAGGAAGAAGACCAAAGG 22 13766 SCNN1A-9918 − UCCUGGAGGAAGAAGACCAAAGG 2313767 SCNN1A-9919 − AUCCUGGAGGAAGAAGACCAAAGG 24 13768 SCNN1A-9920 −UGCUGGCUCCAGGAAAGG 18 13769 SCNN1A-9921 − CUGCUGGCUCCAGGAAAGG 19 13770SCNN1A-6150 − UCUGCUGGCUCCAGGAAAGG 20 9999 SCNN1A-9922 −GUCUGCUGGCUCCAGGAAAGG 21 13771 SCNN1A-9923 − GGUCUGCUGGCUCCAGGAAAGG 2213772 SCNN1A-9924 − AGGUCUGCUGGCUCCAGGAAAGG 23 13773 SCNN1A-9925 −CAGGUCUGCUGGCUCCAGGAAAGG 24 13774 SCNN1A-9926 − UCCCGGGUCUGGACAAGG 1813775 SCNN1A-9927 − CUCCCGGGUCUGGACAAGG 19 13776 SCNN1A-9928 −CCUCCCGGGUCUGGACAAGG 20 13777 SCNN1A-9929 − CCCUCCCGGGUCUGGACAAGG 2113778 SCNN1A-9930 − CCCCUCCCGGGUCUGGACAAGG 22 13779 SCNN1A-9931 −GCCCCUCCCGGGUCUGGACAAGG 23 13780 SCNN1A-9932 − GGCCCCUCCCGGGUCUGGACAAGG24 13781 SCNN1A-9933 − AGAGGGGGCAAGGCAAGG 18 13782 SCNN1A-9934 −GAGAGGGGGCAAGGCAAGG 19 13783 SCNN1A-6152 − UGAGAGGGGGCAAGGCAAGG 20 10001SCNN1A-9935 − GUGAGAGGGGGCAAGGCAAGG 21 13784 SCNN1A-9936 −AGUGAGAGGGGGCAAGGCAAGG 22 13785 SCNN1A-9937 − GAGUGAGAGGGGGCAAGGCAAGG 2313786 SCNN1A-9938 − AGAGUGAGAGGGGGCAAGGCAAGG 24 13787 SCNN1A-9939 −AGGAAGCCACAGACCAGG 18 13788 SCNN1A-9940 − GAGGAAGCCACAGACCAGG 19 13789SCNN1A-9941 − AGAGGAAGCCACAGACCAGG 20 13790 SCNN1A-9942 −GAGAGGAAGCCACAGACCAGG 21 13791 SCNN1A-9943 − AGAGAGGAAGCCACAGACCAGG 2213792 SCNN1A-9944 − AAGAGAGGAAGCCACAGACCAGG 23 13793 SCNN1A-9945 −CAAGAGAGGAAGCCACAGACCAGG 24 13794 SCNN1A-9946 − GAAAGAGGAGGGACCAGG 1813795 SCNN1A-9947 − GGAAAGAGGAGGGACCAGG 19 13796 SCNN1A-6153 −AGGAAAGAGGAGGGACCAGG 20 10002 SCNN1A-9948 − CAGGAAAGAGGAGGGACCAGG 2113797 SCNN1A-9949 − GCAGGAAAGAGGAGGGACCAGG 22 13798 SCNN1A-9950 −AGCAGGAAAGAGGAGGGACCAGG 23 13799 SCNN1A-9951 − CAGCAGGAAAGAGGAGGGACCAGG24 13800 SCNN1A-2047 − GGAGAAUGUGGGCGCAGG 18 5896 SCNN1A-2048 −GGGAGAAUGUGGGCGCAGG 19 5897 SCNN1A-2049 − UGGGAGAAUGUGGGCGCAGG 20 5898SCNN1A-9952 − GUGGGAGAAUGUGGGCGCAGG 21 13801 SCNN1A-9953 −AGUGGGAGAAUGUGGGCGCAGG 22 13802 SCNN1A-9954 − GAGUGGGAGAAUGUGGGCGCAGG 2313803 SCNN1A-9955 − GGAGUGGGAGAAUGUGGGCGCAGG 24 13804 SCNN1A-9956 −UGAGCACCUUAUUGCAGG 18 13805 SCNN1A-9957 − CUGAGCACCUUAUUGCAGG 19 13806SCNN1A-9958 − GCUGAGCACCUUAUUGCAGG 20 13807 SCNN1A-9959 −UGCUGAGCACCUUAUUGCAGG 21 13808 SCNN1A-9960 − GUGCUGAGCACCUUAUUGCAGG 2213809 SCNN1A-9961 − GGUGCUGAGCACCUUAUUGCAGG 23 13810 SCNN1A-9962 −GGGUGCUGAGCACCUUAUUGCAGG 24 13811 SCNN1A-9963 − UGUGUAUCAAUGCUCAGG 1813812 SCNN1A-9964 − GUGUGUAUCAAUGCUCAGG 19 13813 SCNN1A-9965 −GGUGUGUAUCAAUGCUCAGG 20 13814 SCNN1A-9966 − CGGUGUGUAUCAAUGCUCAGG 2113815 SCNN1A-9967 − CCGGUGUGUAUCAAUGCUCAGG 22 13816 SCNN1A-9968 −CCCGGUGUGUAUCAAUGCUCAGG 23 13817 SCNN1A-9969 − CCCCGGUGUGUAUCAAUGCUCAGG24 13818 SCNN1A-9970 − GAAUCAGCAGGAAAGAGG 18 13819 SCNN1A-9971 −GGAAUCAGCAGGAAAGAGG 19 13820 SCNN1A-6155 − AGGAAUCAGCAGGAAAGAGG 20 10004SCNN1A-9972 − GAGGAAUCAGCAGGAAAGAGG 21 13821 SCNN1A-9973 −CGAGGAAUCAGCAGGAAAGAGG 22 13822 SCNN1A-9974 − GCGAGGAAUCAGCAGGAAAGAGG 2313823 SCNN1A-9975 − GGCGAGGAAUCAGCAGGAAAGAGG 24 13824 SCNN1A-9976 −AGUAGAUAGCCCCAGAGG 18 13825 SCNN1A-9977 − AAGUAGAUAGCCCCAGAGG 19 13826SCNN1A-5678 − UAAGUAGAUAGCCCCAGAGG 20 9527 SCNN1A-9978 −CUAAGUAGAUAGCCCCAGAGG 21 13827 SCNN1A-9979 − GCUAAGUAGAUAGCCCCAGAGG 2213828 SCNN1A-9980 − CGCUAAGUAGAUAGCCCCAGAGG 23 13829 SCNN1A-9981 −GCGCUAAGUAGAUAGCCCCAGAGG 24 13830 SCNN1A-9982 − CGAGGUCAGGGCCAGAGG 1813831 SCNN1A-9983 − UCGAGGUCAGGGCCAGAGG 19 13832 SCNN1A-9984 −CUCGAGGUCAGGGCCAGAGG 20 13833 SCNN1A-9985 − GCUCGAGGUCAGGGCCAGAGG 2113834 SCNN1A-9986 − AGCUCGAGGUCAGGGCCAGAGG 22 13835 SCNN1A-9987 −CAGCUCGAGGUCAGGGCCAGAGG 23 13836 SCNN1A-9988 − ACAGCUCGAGGUCAGGGCCAGAGG24 13837 SCNN1A-9989 − AGGCAAGGGGGGGAGAGG 18 13838 SCNN1A-9990 −AAGGCAAGGGGGGGAGAGG 19 13839 SCNN1A-9991 − CAAGGCAAGGGGGGGAGAGG 20 13840SCNN1A-9992 − GCAAGGCAAGGGGGGGAGAGG 21 13841 SCNN1A-9993 −GGCAAGGCAAGGGGGGGAGAGG 22 13842 SCNN1A-9994 − GGGCAAGGCAAGGGGGGGAGAGG 2313843 SCNN1A-9995 − GGGGCAAGGCAAGGGGGGGAGAGG 24 13844 SCNN1A-9996 −UAGAGAGGGAGUGAGAGG 18 13845 SCNN1A-9997 − AUAGAGAGGGAGUGAGAGG 19 13846SCNN1A-9998 − GAUAGAGAGGGAGUGAGAGG 20 13847 SCNN1A-9999 −AGAUAGAGAGGGAGUGAGAGG 21 13848 SCNN1A-10000 − CAGAUAGAGAGGGAGUGAGAGG 2213849 SCNN1A-10001 − GCAGAUAGAGAGGGAGUGAGAGG 23 13850 SCNN1A-10002 −GGCAGAUAGAGAGGGAGUGAGAGG 24 13851 SCNN1A-10003 − AGAUAGCCCCAGAGGAGG 1813852 SCNN1A-10004 − UAGAUAGCCCCAGAGGAGG 19 13853 SCNN1A-5261 −GUAGAUAGCCCCAGAGGAGG 20 9110 SCNN1A-10005 − AGUAGAUAGCCCCAGAGGAGG 2113854 SCNN1A-10006 − AAGUAGAUAGCCCCAGAGGAGG 22 13855 SCNN1A-10007 −UAAGUAGAUAGCCCCAGAGGAGG 23 13856 SCNN1A-10008 − CUAAGUAGAUAGCCCCAGAGGAGG24 13857 SCNN1A-10009 − CAGGAAAGGUGGAGGAGG 18 13858 SCNN1A-10010 −CCAGGAAAGGUGGAGGAGG 19 13859 SCNN1A-10011 − UCCAGGAAAGGUGGAGGAGG 2013860 SCNN1A-10012 − CUCCAGGAAAGGUGGAGGAGG 21 13861 SCNN1A-10013 −GCUCCAGGAAAGGUGGAGGAGG 22 13862 SCNN1A-10014 − GGCUCCAGGAAAGGUGGAGGAGG23 13863 SCNN1A-10015 − UGGCUCCAGGAAAGGUGGAGGAGG 24 13864 SCNN1A-10016 −AAAGGUGGAGGAGGGAGG 18 13865 SCNN1A-10017 − GAAAGGUGGAGGAGGGAGG 19 13866SCNN1A-10018 − GGAAAGGUGGAGGAGGGAGG 20 13867 SCNN1A-10019 −AGGAAAGGUGGAGGAGGGAGG 21 13868 SCNN1A-10020 − CAGGAAAGGUGGAGGAGGGAGG 2213869 SCNN1A-10021 − CCAGGAAAGGUGGAGGAGGGAGG 23 13870 SCNN1A-10022 −UCCAGGAAAGGUGGAGGAGGGAGG 24 13871 SCNN1A-10023 − CUGGCUUGUGGAGGGAGG 1813872 SCNN1A-10024 − GCUGGCUUGUGGAGGGAGG 19 13873 SCNN1A-10025 −UGCUGGCUUGUGGAGGGAGG 20 13874 SCNN1A-10026 − CUGCUGGCUUGUGGAGGGAGG 2113875 SCNN1A-10027 − UCUGCUGGCUUGUGGAGGGAGG 22 13876 SCNN1A-10028 −GUCUGCUGGCUUGUGGAGGGAGG 23 13877 SCNN1A-10029 − UGUCUGCUGGCUUGUGGAGGGAGG24 13878 SCNN1A-10030 − AGACACAGAUCCUGGAGG 18 13879 SCNN1A-10031 −GAGACACAGAUCCUGGAGG 19 13880 SCNN1A-10032 − UGAGACACAGAUCCUGGAGG 2013881 SCNN1A-10033 − CUGAGACACAGAUCCUGGAGG 21 13882 SCNN1A-10034 −GCUGAGACACAGAUCCUGGAGG 22 13883 SCNN1A-10035 − AGCUGAGACACAGAUCCUGGAGG23 13884 SCNN1A-10036 − GAGCUGAGACACAGAUCCUGGAGG 24 13885 SCNN1A-10037 −CUCCAGGAAAGGUGGAGG 18 13886 SCNN1A-10038 − GCUCCAGGAAAGGUGGAGG 19 13887SCNN1A-5906 − GGCUCCAGGAAAGGUGGAGG 20 9755 SCNN1A-10039 −UGGCUCCAGGAAAGGUGGAGG 21 13888 SCNN1A-10040 − CUGGCUCCAGGAAAGGUGGAGG 2213889 SCNN1A-10041 − GCUGGCUCCAGGAAAGGUGGAGG 23 13890 SCNN1A-10042 −UGCUGGCUCCAGGAAAGGUGGAGG 24 13891 SCNN1A-10043 − UCUCUGCAGGGCCUGAGG 1813892 SCNN1A-10044 − UUCUCUGCAGGGCCUGAGG 19 13893 SCNN1A-10045 −CUUCUCUGCAGGGCCUGAGG 20 13894 SCNN1A-10046 − UCUUCUCUGCAGGGCCUGAGG 2113895 SCNN1A-10047 − CUCUUCUCUGCAGGGCCUGAGG 22 13896 SCNN1A-10048 −UCUCUUCUCUGCAGGGCCUGAGG 23 13897 SCNN1A-10049 − CUCUCUUCUCUGCAGGGCCUGAGG24 13898 SCNN1A-10050 − UGCACCUGUCAGGUGAGG 18 13899 SCNN1A-10051 −CUGCACCUGUCAGGUGAGG 19 13900 SCNN1A-5908 − GCUGCACCUGUCAGGUGAGG 20 9757SCNN1A-10052 − CGCUGCACCUGUCAGGUGAGG 21 13901 SCNN1A-10053 −CCGCUGCACCUGUCAGGUGAGG 22 13902 SCNN1A-10054 − GCCGCUGCACCUGUCAGGUGAGG23 13903 SCNN1A-10055 − GGCCGCUGCACCUGUCAGGUGAGG 24 13904 SCNN1A-10056 −UCCCUGGCCGGCCAGCGG 18 13905 SCNN1A-10057 − AUCCCUGGCCGGCCAGCGG 19 13906SCNN1A-10058 − CAUCCCUGGCCGGCCAGCGG 20 13907 SCNN1A-10059 −CCAUCCCUGGCCGGCCAGCGG 21 13908 SCNN1A-10060 − UCCAUCCCUGGCCGGCCAGCGG 2213909 SCNN1A-10061 − UUCCAUCCCUGGCCGGCCAGCGG 23 13910 SCNN1A-10062 −CUUCCAUCCCUGGCCGGCCAGCGG 24 13911 SCNN1A-10063 − GAGGGGGCAAGGCAAGGG 1813912 SCNN1A-10064 − AGAGGGGGCAAGGCAAGGG 19 13913 SCNN1A-5910 −GAGAGGGGGCAAGGCAAGGG 20 9759 SCNN1A-10065 − UGAGAGGGGGCAAGGCAAGGG 2113914 SCNN1A-10066 − GUGAGAGGGGGCAAGGCAAGGG 22 13915 SCNN1A-10067 −AGUGAGAGGGGGCAAGGCAAGGG 23 13916 SCNN1A-10068 − GAGUGAGAGGGGGCAAGGCAAGGG24 13917 SCNN1A-2068 − GAGAAUGUGGGCGCAGGG 18 5917 SCNN1A-2069 −GGAGAAUGUGGGCGCAGGG 19 5918 SCNN1A-354 − GGGAGAAUGUGGGCGCAGGG 20 4203SCNN1A-2070 − UGGGAGAAUGUGGGCGCAGGG 21 5919 SCNN1A-2071 −GUGGGAGAAUGUGGGCGCAGGG 22 5920 SCNN1A-2072 − AGUGGGAGAAUGUGGGCGCAGGG 235921 SCNN1A-2073 − GAGUGGGAGAAUGUGGGCGCAGGG 24 5922 SCNN1A-10069 −AGGAAAGGUGGAGGAGGG 18 13918 SCNN1A-10070 − CAGGAAAGGUGGAGGAGGG 19 13919SCNN1A-6162 − CCAGGAAAGGUGGAGGAGGG 20 10011 SCNN1A-10071 −UCCAGGAAAGGUGGAGGAGGG 21 13920 SCNN1A-10072 − CUCCAGGAAAGGUGGAGGAGGG 2213921 SCNN1A-10073 − GCUCCAGGAAAGGUGGAGGAGGG 23 13922 SCNN1A-10074 −GGCUCCAGGAAAGGUGGAGGAGGG 24 13923 SCNN1A-10075 − UCCCACUUAGUGAGCGGG 1813924 SCNN1A-10076 − CUCCCACUUAGUGAGCGGG 19 13925 SCNN1A-10077 −GCUCCCACUUAGUGAGCGGG 20 13926 SCNN1A-10078 − UGCUCCCACUUAGUGAGCGGG 2113927 SCNN1A-10079 − CUGCUCCCACUUAGUGAGCGGG 22 13928 SCNN1A-10080 −GCUGCUCCCACUUAGUGAGCGGG 23 13929 SCNN1A-10081 − CGCUGCUCCCACUUAGUGAGCGGG24 13930 SCNN1A-10082 − AGGGGGCAAGGCAAGGGG 18 13931 SCNN1A-10083 −GAGGGGGCAAGGCAAGGGG 19 13932 SCNN1A-6163 − AGAGGGGGCAAGGCAAGGGG 20 10012SCNN1A-10084 − GAGAGGGGGCAAGGCAAGGGG 21 13933 SCNN1A-10085 −UGAGAGGGGGCAAGGCAAGGGG 22 13934 SCNN1A-10086 − GUGAGAGGGGGCAAGGCAAGGGG23 13935 SCNN1A-10087 − AGUGAGAGGGGGCAAGGCAAGGGG 24 13936 SCNN1A-10088 −CACCUGUCAGGUGAGGGG 18 13937 SCNN1A-10089 − GCACCUGUCAGGUGAGGGG 19 13938SCNN1A-10090 − UGCACCUGUCAGGUGAGGGG 20 13939 SCNN1A-10091 −CUGCACCUGUCAGGUGAGGGG 21 13940 SCNN1A-10092 − GCUGCACCUGUCAGGUGAGGGG 2213941 SCNN1A-10093 − CGCUGCACCUGUCAGGUGAGGGG 23 13942 SCNN1A-10094 −CCGCUGCACCUGUCAGGUGAGGGG 24 13943 SCNN1A-10095 − CCCACUUAGUGAGCGGGG 1813944 SCNN1A-10096 − UCCCACUUAGUGAGCGGGG 19 13945 SCNN1A-5689 −CUCCCACUUAGUGAGCGGGG 20 9538 SCNN1A-10097 − GCUCCCACUUAGUGAGCGGGG 2113946 SCNN1A-10098 − UGCUCCCACUUAGUGAGCGGGG 22 13947 SCNN1A-10099 −CUGCUCCCACUUAGUGAGCGGGG 23 13948 SCNN1A-10100 − GCUGCUCCCACUUAGUGAGCGGGG24 13949 SCNN1A-10101 − AAGACCAAAGGAAGGGGG 18 13950 SCNN1A-10102 −GAAGACCAAAGGAAGGGGG 19 13951 SCNN1A-10103 − AGAAGACCAAAGGAAGGGGG 2013952 SCNN1A-10104 − AAGAAGACCAAAGGAAGGGGG 21 13953 SCNN1A-10105 −GAAGAAGACCAAAGGAAGGGGG 22 13954 SCNN1A-10106 − GGAAGAAGACCAAAGGAAGGGGG23 13955 SCNN1A-10107 − AGGAAGAAGACCAAAGGAAGGGGG 24 13956 SCNN1A-10108 −ACCUGUCAGGUGAGGGGG 18 13957 SCNN1A-10109 − CACCUGUCAGGUGAGGGGG 19 13958SCNN1A-5914 − GCACCUGUCAGGUGAGGGGG 20 9763 SCNN1A-10110 −UGCACCUGUCAGGUGAGGGGG 21 13959 SCNN1A-10111 − CUGCACCUGUCAGGUGAGGGGG 2213960 SCNN1A-10112 − GCUGCACCUGUCAGGUGAGGGGG 23 13961 SCNN1A-10113 −CGCUGCACCUGUCAGGUGAGGGGG 24 13962 SCNN1A-10114 − GGGGCAAGGCAAGGGGGG 1813963 SCNN1A-10115 − GGGGGCAAGGCAAGGGGGG 19 13964 SCNN1A-10116 −AGGGGGCAAGGCAAGGGGGG 20 13965 SCNN1A-10117 − GAGGGGGCAAGGCAAGGGGGG 2113966 SCNN1A-10118 − AGAGGGGGCAAGGCAAGGGGGG 22 13967 SCNN1A-10119 −GAGAGGGGGCAAGGCAAGGGGGG 23 13968 SCNN1A-10120 − UGAGAGGGGGCAAGGCAAGGGGGG24 13969 SCNN1A-10121 − AGCCCUGCAGUCCUGGGG 18 13970 SCNN1A-10122 −GAGCCCUGCAGUCCUGGGG 19 13971 SCNN1A-10123 − GGAGCCCUGCAGUCCUGGGG 2013972 SCNN1A-10124 − UGGAGCCCUGCAGUCCUGGGG 21 13973 SCNN1A-10125 −CUGGAGCCCUGCAGUCCUGGGG 22 13974 SCNN1A-10126 − CCUGGAGCCCUGCAGUCCUGGGG23 13975 SCNN1A-10127 − UCCUGGAGCCCUGCAGUCCUGGGG 24 13976 SCNN1A-2080 −CCAUACCAGGUCUCAUGG 18 5929 SCNN1A-2081 − CCCAUACCAGGUCUCAUGG 19 5930SCNN1A-2 − GCCCAUACCAGGUCUCAUGG 20 497 SCNN1A-2082 −AGCCCAUACCAGGUCUCAUGG 21 5931 SCNN1A-2083 − CAGCCCAUACCAGGUCUCAUGG 225932 SCNN1A-2084 − GCAGCCCAUACCAGGUCUCAUGG 23 5933 SCNN1A-2085 −UGCAGCCCAUACCAGGUCUCAUGG 24 5934 SCNN1A-2086 − GGGUUCCAGGGGUGAUGG 185935 SCNN1A-2087 − CGGGUUCCAGGGGUGAUGG 19 5936 SCNN1A-2088 −UCGGGUUCCAGGGGUGAUGG 20 5937 SCNN1A-2089 − CUCGGGUUCCAGGGGUGAUGG 21 5938SCNN1A-2090 − ACUCGGGUUCCAGGGGUGAUGG 22 5939 SCNN1A-2091 −CACUCGGGUUCCAGGGGUGAUGG 23 5940 SCNN1A-2092 − UCACUCGGGUUCCAGGGGUGAUGG24 5941 SCNN1A-10128 − CUGAGACACAGAUCCUGG 18 13977 SCNN1A-10129 −GCUGAGACACAGAUCCUGG 19 13978 SCNN1A-5693 − AGCUGAGACACAGAUCCUGG 20 9542SCNN1A-10130 − GAGCUGAGACACAGAUCCUGG 21 13979 SCNN1A-10131 −GGAGCUGAGACACAGAUCCUGG 22 13980 SCNN1A-10132 − AGGAGCUGAGACACAGAUCCUGG23 13981 SCNN1A-10133 − CAGGAGCUGAGACACAGAUCCUGG 24 13982 SCNN1A-2093 −UGAAGGGGAACAAGCUGG 18 5942 SCNN1A-2094 − AUGAAGGGGAACAAGCUGG 19 5943SCNN1A-455 − CAUGAAGGGGAACAAGCUGG 20 4304 SCNN1A-2095 −UCAUGAAGGGGAACAAGCUGG 21 5944 SCNN1A-2096 − CUCAUGAAGGGGAACAAGCUGG 225945 SCNN1A-2097 − GCUCAUGAAGGGGAACAAGCUGG 23 5946 SCNN1A-2098 −GGCUCAUGAAGGGGAACAAGCUGG 24 5947 SCNN1A-2099 − UGGAGGGGAACAAGCUGG 185948 SCNN1A-2100 − AUGGAGGGGAACAAGCUGG 19 5949 SCNN1A-6 −CAUGGAGGGGAACAAGCUGG 20 558 SCNN1A-2101 − UCAUGGAGGGGAACAAGCUGG 21 5950SCNN1A-2102 − CUCAUGGAGGGGAACAAGCUGG 22 5951 SCNN1A-2103 −UCUCAUGGAGGGGAACAAGCUGG 23 5952 SCNN1A-2104 − GUCUCAUGGAGGGGAACAAGCUGG24 5953 SCNN1A-10134 − UGGCUCCAGGAAAGGUGG 18 13983 SCNN1A-10135 −CUGGCUCCAGGAAAGGUGG 19 13984 SCNN1A-5266 − GCUGGCUCCAGGAAAGGUGG 20 9115SCNN1A-10136 − UGCUGGCUCCAGGAAAGGUGG 21 13985 SCNN1A-10137 −CUGCUGGCUCCAGGAAAGGUGG 22 13986 SCNN1A-10138 − UCUGCUGGCUCCAGGAAAGGUGG23 13987 SCNN1A-10139 − GUCUGCUGGCUCCAGGAAAGGUGG 24 13988 SCNN1A-10140 −UUGUCUGCUGGCUUGUGG 18 13989 SCNN1A-10141 − UUUGUCUGCUGGCUUGUGG 19 13990SCNN1A-5695 − CUUUGUCUGCUGGCUUGUGG 20 9544 SCNN1A-10142 −CCUUUGUCUGCUGGCUUGUGG 21 13991 SCNN1A-10143 − GCCUUUGUCUGCUGGCUUGUGG 2213992 SCNN1A-10144 − GGCCUUUGUCUGCUGGCUUGUGG 23 13993 SCNN1A-10145 −GGGCCUUUGUCUGCUGGCUUGUGG 24 13994 SCNN1A-10146 − GGGUCUGGACAAGGUUGG 1813995 SCNN1A-10147 − CGGGUCUGGACAAGGUUGG 19 13996 SCNN1A-5697 −CCGGGUCUGGACAAGGUUGG 20 9546 SCNN1A-10148 − CCCGGGUCUGGACAAGGUUGG 2113997 SCNN1A-10149 − UCCCGGGUCUGGACAAGGUUGG 22 13998 SCNN1A-10150 −CUCCCGGGUCUGGACAAGGUUGG 23 13999 SCNN1A-10151 − CCUCCCGGGUCUGGACAAGGUUGG24 14000 SCNN1A-10152 − UUCUUCAUUAGGACAAUG 18 14001 SCNN1A-10153 −UUUCUUCAUUAGGACAAUG 19 14002 SCNN1A-10154 − GUUUCUUCAUUAGGACAAUG 2014003 SCNN1A-10155 − AGUUUCUUCAUUAGGACAAUG 21 14004 SCNN1A-10156 −CAGUUUCUUCAUUAGGACAAUG 22 14005 SCNN1A-10157 − UCAGUUUCUUCAUUAGGACAAUG23 14006 SCNN1A-10158 − GUCAGUUUCUUCAUUAGGACAAUG 24 14007 SCNN1A-2111 −UCCACUCCGGGGCUCAUG 18 5960 SCNN1A-2112 − AUCCACUCCGGGGCUCAUG 19 5961SCNN1A-2113 − AAUCCACUCCGGGGCUCAUG 20 5962 SCNN1A-2114 −CAAUCCACUCCGGGGCUCAUG 21 5963 SCNN1A-2115 − CCAAUCCACUCCGGGGCUCAUG 225964 SCNN1A-2116 − CCCAAUCCACUCCGGGGCUCAUG 23 5965 SCNN1A-2117 −CCCCAAUCCACUCCGGGGCUCAUG 24 5966 SCNN1A-2118 − CCCAUACCAGGUCUCAUG 185967 SCNN1A-2119 − GCCCAUACCAGGUCUCAUG 19 5968 SCNN1A-161 −AGCCCAUACCAGGUCUCAUG 20 804 SCNN1A-2120 − CAGCCCAUACCAGGUCUCAUG 21 5969SCNN1A-2121 − GCAGCCCAUACCAGGUCUCAUG 22 5970 SCNN1A-2122 −UGCAGCCCAUACCAGGUCUCAUG 23 5971 SCNN1A-2123 − CUGCAGCCCAUACCAGGUCUCAUG24 5972 SCNN1A-10159 − AGGGGUCUCUGGGAUAUG 18 14008 SCNN1A-10160 −UAGGGGUCUCUGGGAUAUG 19 14009 SCNN1A-5700 − CUAGGGGUCUCUGGGAUAUG 20 9549SCNN1A-10161 − UCUAGGGGUCUCUGGGAUAUG 21 14010 SCNN1A-10162 −UUCUAGGGGUCUCUGGGAUAUG 22 14011 SCNN1A-10163 − UUUCUAGGGGUCUCUGGGAUAUG23 14012 SCNN1A-10164 − GUUUCUAGGGGUCUCUGGGAUAUG 24 14013 SCNN1A-10165 −GAGCGGGGAGGAGACCUG 18 14014 SCNN1A-10166 − UGAGCGGGGAGGAGACCUG 19 14015SCNN1A-10167 − GUGAGCGGGGAGGAGACCUG 20 14016 SCNN1A-10168 −AGUGAGCGGGGAGGAGACCUG 21 14017 SCNN1A-10169 − UAGUGAGCGGGGAGGAGACCUG 2214018 SCNN1A-10170 − UUAGUGAGCGGGGAGGAGACCUG 23 14019 SCNN1A-10171 −CUUAGUGAGCGGGGAGGAGACCUG 24 14020 SCNN1A-10172 − GCUGAGACACAGAUCCUG 1814021 SCNN1A-10173 − AGCUGAGACACAGAUCCUG 19 14022 SCNN1A-10174 −GAGCUGAGACACAGAUCCUG 20 14023 SCNN1A-10175 − GGAGCUGAGACACAGAUCCUG 2114024 SCNN1A-10176 − AGGAGCUGAGACACAGAUCCUG 22 14025 SCNN1A-10177 −CAGGAGCUGAGACACAGAUCCUG 23 14026 SCNN1A-10178 − GCAGGAGCUGAGACACAGAUCCUG24 14027 SCNN1A-10179 − ACUCUGGGCUGCCUCCUG 18 14028 SCNN1A-10180 −CACUCUGGGCUGCCUCCUG 19 14029 SCNN1A-5269 − GCACUCUGGGCUGCCUCCUG 20 9118SCNN1A-10181 − UGCACUCUGGGCUGCCUCCUG 21 14030 SCNN1A-10182 −CUGCACUCUGGGCUGCCUCCUG 22 14031 SCNN1A-10183 − CCUGCACUCUGGGCUGCCUCCUG23 14032 SCNN1A-10184 − UCCUGCACUCUGGGCUGCCUCCUG 24 14033 SCNN1A-2124 −AUGAAGGGGAACAAGCUG 18 5973 SCNN1A-2125 − CAUGAAGGGGAACAAGCUG 19 5974SCNN1A-2126 − UCAUGAAGGGGAACAAGCUG 20 5975 SCNN1A-2127 −CUCAUGAAGGGGAACAAGCUG 21 5976 SCNN1A-2128 − GCUCAUGAAGGGGAACAAGCUG 225977 SCNN1A-2129 − GGCUCAUGAAGGGGAACAAGCUG 23 5978 SCNN1A-2130 −GGGCUCAUGAAGGGGAACAAGCUG 24 5979 SCNN1A-2131 − AUGGAGGGGAACAAGCUG 185980 SCNN1A-2132 − CAUGGAGGGGAACAAGCUG 19 5981 SCNN1A-167 −UCAUGGAGGGGAACAAGCUG 20 806 SCNN1A-2133 − CUCAUGGAGGGGAACAAGCUG 21 5982SCNN1A-2134 − UCUCAUGGAGGGGAACAAGCUG 22 5983 SCNN1A-2135 −GUCUCAUGGAGGGGAACAAGCUG 23 5984 SCNN1A-2136 − GGUCUCAUGGAGGGGAACAAGCUG24 5985 SCNN1A-10185 − CCUCUUCUCUCUUCUCUG 18 14034 SCNN1A-10186 −ACCUCUUCUCUCUUCUCUG 19 14035 SCNN1A-10187 − GACCUCUUCUCUCUUCUCUG 2014036 SCNN1A-10188 − AGACCUCUUCUCUCUUCUCUG 21 14037 SCNN1A-10189 −GAGACCUCUUCUCUCUUCUCUG 22 14038 SCNN1A-10190 − AGAGACCUCUUCUCUCUUCUCUG23 14039 SCNN1A-10191 − CAGAGACCUCUUCUCUCUUCUCUG 24 14040 SCNN1A-10192 −GGGGCAGUGGGGACAGUG 18 14041 SCNN1A-10193 − UGGGGCAGUGGGGACAGUG 19 14042SCNN1A-10194 − GUGGGGCAGUGGGGACAGUG 20 14043 SCNN1A-10195 −UGUGGGGCAGUGGGGACAGUG 21 14044 SCNN1A-10196 − AUGUGGGGCAGUGGGGACAGUG 2214045 SCNN1A-10197 − UAUGUGGGGCAGUGGGGACAGUG 23 14046 SCNN1A-10198 −AUAUGUGGGGCAGUGGGGACAGUG 24 14047 SCNN1A-10199 − GGGCUCUGUGUGGGAGUG 1814048 SCNN1A-10200 − CGGGCUCUGUGUGGGAGUG 19 14049 SCNN1A-5711 −ACGGGCUCUGUGUGGGAGUG 20 9560 SCNN1A-10201 − CACGGGCUCUGUGUGGGAGUG 2114050 SCNN1A-10202 − CCACGGGCUCUGUGUGGGAGUG 22 14051 SCNN1A-10203 −UCCACGGGCUCUGUGUGGGAGUG 23 14052 SCNN1A-10204 − AUCCACGGGCUCUGUGUGGGAGUG24 14053 SCNN1A-10205 − CCUCCUGUGGGGCCCGUG 18 14054 SCNN1A-10206 −GCCUCCUGUGGGGCCCGUG 19 14055 SCNN1A-5712 − UGCCUCCUGUGGGGCCCGUG 20 9561SCNN1A-10207 − CUGCCUCCUGUGGGGCCCGUG 21 14056 SCNN1A-10208 −GCUGCCUCCUGUGGGGCCCGUG 22 14057 SCNN1A-10209 − GGCUGCCUCCUGUGGGGCCCGUG23 14058 SCNN1A-10210 − GGGCUGCCUCCUGUGGGGCCCGUG 24 14059 SCNN1A-10211 −AGCCUUCCCUGCCGCGUG 18 14060 SCNN1A-10212 − CAGCCUUCCCUGCCGCGUG 19 14061SCNN1A-10213 − GCAGCCUUCCCUGCCGCGUG 20 14062 SCNN1A-10214 −GGCAGCCUUCCCUGCCGCGUG 21 14063 SCNN1A-10215 − CGGCAGCCUUCCCUGCCGCGUG 2214064 SCNN1A-10216 − GCGGCAGCCUUCCCUGCCGCGUG 23 14065 SCNN1A-10217 −AGCGGCAGCCUUCCCUGCCGCGUG 24 14066 SCNN1A-10218 − CUGGCUCCAGGAAAGGUG 1814067 SCNN1A-10219 − GCUGGCUCCAGGAAAGGUG 19 14068 SCNN1A-10220 −UGCUGGCUCCAGGAAAGGUG 20 14069 SCNN1A-10221 − CUGCUGGCUCCAGGAAAGGUG 2114070 SCNN1A-10222 − UCUGCUGGCUCCAGGAAAGGUG 22 14071 SCNN1A-10223 −GUCUGCUGGCUCCAGGAAAGGUG 23 14072 SCNN1A-10224 − GGUCUGCUGGCUCCAGGAAAGGUG24 14073 SCNN1A-10225 − CGCUGCACCUGUCAGGUG 18 14074 SCNN1A-10226 −CCGCUGCACCUGUCAGGUG 19 14075 SCNN1A-5270 − GCCGCUGCACCUGUCAGGUG 20 9119SCNN1A-10227 − GGCCGCUGCACCUGUCAGGUG 21 14076 SCNN1A-10228 −AGGCCGCUGCACCUGUCAGGUG 22 14077 SCNN1A-10229 − CAGGCCGCUGCACCUGUCAGGUG23 14078 SCNN1A-10230 − CCAGGCCGCUGCACCUGUCAGGUG 24 14079 SCNN1A-10231 −GAUCAAACAGCCAGGGUG 18 14080 SCNN1A-10232 − AGAUCAAACAGCCAGGGUG 19 14081SCNN1A-10233 − GAGAUCAAACAGCCAGGGUG 20 14082 SCNN1A-10234 −UGAGAUCAAACAGCCAGGGUG 21 14083 SCNN1A-10235 − UUGAGAUCAAACAGCCAGGGUG 2214084 SCNN1A-10236 − UUUGAGAUCAAACAGCCAGGGUG 23 14085 SCNN1A-10237 −CUUUGAGAUCAAACAGCCAGGGUG 24 14086 SCNN1A-2143 − ACUCGGGUUCCAGGGGUG 185992 SCNN1A-2144 − CACUCGGGUUCCAGGGGUG 19 5993 SCNN1A-2145 −UCACUCGGGUUCCAGGGGUG 20 5994 SCNN1A-2146 − CUCACUCGGGUUCCAGGGGUG 21 5995SCNN1A-2147 − CCUCACUCGGGUUCCAGGGGUG 22 5996 SCNN1A-2148 −GCCUCACUCGGGUUCCAGGGGUG 23 5997 SCNN1A-2149 − AGCCUCACUCGGGUUCCAGGGGUG24 5998 SCNN1A-10238 − ACAAGGUUGGAGGGGGUG 18 14087 SCNN1A-10239 −GACAAGGUUGGAGGGGGUG 19 14088 SCNN1A-10240 − GGACAAGGUUGGAGGGGGUG 2014089 SCNN1A-10241 − UGGACAAGGUUGGAGGGGGUG 21 14090 SCNN1A-10242 −CUGGACAAGGUUGGAGGGGGUG 22 14091 SCNN1A-10243 − UCUGGACAAGGUUGGAGGGGGUG23 14092 SCNN1A-10244 − GUCUGGACAAGGUUGGAGGGGGUG 24 14093 SCNN1A-10245 −GAAUCCACGGGCUCUGUG 18 14094 SCNN1A-10246 − CGAAUCCACGGGCUCUGUG 19 14095SCNN1A-5717 − ACGAAUCCACGGGCUCUGUG 20 9566 SCNN1A-10247 −GACGAAUCCACGGGCUCUGUG 21 14096 SCNN1A-10248 − AGACGAAUCCACGGGCUCUGUG 2214097 SCNN1A-10249 − CAGACGAAUCCACGGGCUCUGUG 23 14098 SCNN1A-10250 −GCAGACGAAUCCACGGGCUCUGUG 24 14099 SCNN1A-10251 − UUUGUCUGCUGGCUUGUG 1814100 SCNN1A-10252 − CUUUGUCUGCUGGCUUGUG 19 14101 SCNN1A-10253 −CCUUUGUCUGCUGGCUUGUG 20 14102 SCNN1A-10254 − GCCUUUGUCUGCUGGCUUGUG 2114103 SCNN1A-10255 − GGCCUUUGUCUGCUGGCUUGUG 22 14104 SCNN1A-10256 −GGGCCUUUGUCUGCUGGCUUGUG 23 14105 SCNN1A-10257 − UGGGCCUUUGUCUGCUGGCUUGUG24 14106 SCNN1A-10258 − GUGCUGAGCACCUUAUUG 18 14107 SCNN1A-10259 −GGUGCUGAGCACCUUAUUG 19 14108 SCNN1A-10260 − GGGUGCUGAGCACCUUAUUG 2014109 SCNN1A-10261 − AGGGUGCUGAGCACCUUAUUG 21 14110 SCNN1A-10262 −CAGGGUGCUGAGCACCUUAUUG 22 14111 SCNN1A-10263 − CCAGGGUGCUGAGCACCUUAUUG23 14112 SCNN1A-10264 − GCCAGGGUGCUGAGCACCUUAUUG 24 14113 SCNN1A-10265 −UGGAGGGCUGCCCACUUG 18 14114 SCNN1A-10266 − UUGGAGGGCUGCCCACUUG 19 14115SCNN1A-10267 − CUUGGAGGGCUGCCCACUUG 20 14116 SCNN1A-10268 −CCUUGGAGGGCUGCCCACUUG 21 14117 SCNN1A-10269 − CCCUUGGAGGGCUGCCCACUUG 2214118 SCNN1A-10270 − GCCCUUGGAGGGCUGCCCACUUG 23 14119 SCNN1A-10271 −UGCCCUUGGAGGGCUGCCCACUUG 24 14120 SCNN1A-10272 − GACCUGUGGGUGCCCUUG 1814121 SCNN1A-10273 − UGACCUGUGGGUGCCCUUG 19 14122 SCNN1A-10274 −CUGACCUGUGGGUGCCCUUG 20 14123 SCNN1A-10275 − GCUGACCUGUGGGUGCCCUUG 2114124 SCNN1A-10276 − GGCUGACCUGUGGGUGCCCUUG 22 14125 SCNN1A-10277 −AGGCUGACCUGUGGGUGCCCUUG 23 14126 SCNN1A-10278 − GAGGCUGACCUGUGGGUGCCCUUG24 14127 SCNN1A-10279 − CCUUUGUCUGCUGGCUUG 18 14128 SCNN1A-10280 −GCCUUUGUCUGCUGGCUUG 19 14129 SCNN1A-5271 − GGCCUUUGUCUGCUGGCUUG 20 9120SCNN1A-10281 − GGGCCUUUGUCUGCUGGCUUG 21 14130 SCNN1A-10282 −UGGGCCUUUGUCUGCUGGCUUG 22 14131 SCNN1A-10283 − CUGGGCCUUUGUCUGCUGGCUUG23 14132 SCNN1A-10284 − GCUGGGCCUUUGUCUGCUGGCUUG 24 14133 SCNN1A-10285 −CGGGUCUGGACAAGGUUG 18 14134 SCNN1A-10286 − CCGGGUCUGGACAAGGUUG 19 14135SCNN1A-10287 − CCCGGGUCUGGACAAGGUUG 20 14136 SCNN1A-10288 −UCCCGGGUCUGGACAAGGUUG 21 14137 SCNN1A-10289 − CUCCCGGGUCUGGACAAGGUUG 2214138 SCNN1A-10290 − CCUCCCGGGUCUGGACAAGGUUG 23 14139 SCNN1A-10291 −CCCUCCCGGGUCUGGACAAGGUUG 24 14140 SCNN1A-10292 − GUUUGGAAAGAGAUUUUG 1814141 SCNN1A-10293 − AGUUUGGAAAGAGAUUUUG 19 14142 SCNN1A-10294 −AAGUUUGGAAAGAGAUUUUG 20 14143 SCNN1A-10295 − UAAGUUUGGAAAGAGAUUUUG 2114144 SCNN1A-10296 − UUAAGUUUGGAAAGAGAUUUUG 22 14145 SCNN1A-10297 −AUUAAGUUUGGAAAGAGAUUUUG 23 14146 SCNN1A-10298 − CAUUAAGUUUGGAAAGAGAUUUUG24 14147 SCNN1A-10299 − GUCUUAUCUCUGAGAAAU 18 14148 SCNN1A-10300 −UGUCUUAUCUCUGAGAAAU 19 14149 SCNN1A-10301 − AUGUCUUAUCUCUGAGAAAU 2014150 SCNN1A-10302 − UAUGUCUUAUCUCUGAGAAAU 21 14151 SCNN1A-10303 −UUAUGUCUUAUCUCUGAGAAAU 22 14152 SCNN1A-10304 − CUUAUGUCUUAUCUCUGAGAAAU23 14153 SCNN1A-10305 − UCUUAUGUCUUAUCUCUGAGAAAU 24 14154 SCNN1A-10306 −CUGGGGCAGAGACAGAAU 18 14155 SCNN1A-10307 − CCUGGGGCAGAGACAGAAU 19 14156SCNN1A-10308 − UCCUGGGGCAGAGACAGAAU 20 14157 SCNN1A-10309 −GUCCUGGGGCAGAGACAGAAU 21 14158 SCNN1A-10310 − AGUCCUGGGGCAGAGACAGAAU 2214159 SCNN1A-10311 − CAGUCCUGGGGCAGAGACAGAAU 23 14160 SCNN1A-10312 −GCAGUCCUGGGGCAGAGACAGAAU 24 14161 SCNN1A-10313 − AGGGAGGAGUGGGAGAAU 1814162 SCNN1A-10314 − GAGGGAGGAGUGGGAGAAU 19 14163 SCNN1A-10315 −GGAGGGAGGAGUGGGAGAAU 20 14164 SCNN1A-10316 − GGGAGGGAGGAGUGGGAGAAU 2114165 SCNN1A-10317 − AGGGAGGGAGGAGUGGGAGAAU 22 14166 SCNN1A-10318 −GAGGGAGGGAGGAGUGGGAGAAU 23 14167 SCNN1A-10319 − GGAGGGAGGGAGGAGUGGGAGAAU24 14168 SCNN1A-10320 − AAGGGUCAGUUUCUUCAU 18 14169 SCNN1A-10321 −GAAGGGUCAGUUUCUUCAU 19 14170 SCNN1A-10322 − GGAAGGGUCAGUUUCUUCAU 2014171 SCNN1A-10323 − GGGAAGGGUCAGUUUCUUCAU 21 14172 SCNN1A-10324 −UGGGAAGGGUCAGUUUCUUCAU 22 14173 SCNN1A-10325 − UUGGGAAGGGUCAGUUUCUUCAU23 14174 SCNN1A-10326 − CUUGGGAAGGGUCAGUUUCUUCAU 24 14175 SCNN1A-10327 −GAGGAAGAGAGGCAGGAU 18 14176 SCNN1A-10328 − AGAGGAAGAGAGGCAGGAU 19 14177SCNN1A-10329 − GAGAGGAAGAGAGGCAGGAU 20 14178 SCNN1A-10330 −GGAGAGGAAGAGAGGCAGGAU 21 14179 SCNN1A-10331 − GGGAGAGGAAGAGAGGCAGGAU 2214180 SCNN1A-10332 − GGGGAGAGGAAGAGAGGCAGGAU 23 14181 SCNN1A-10333 −GGGGGAGAGGAAGAGAGGCAGGAU 24 14182 SCNN1A-2150 − UCGGGUUCCAGGGGUGAU 185999 SCNN1A-2151 − CUCGGGUUCCAGGGGUGAU 19 6000 SCNN1A-421 −ACUCGGGUUCCAGGGGUGAU 20 4270 SCNN1A-2152 − CACUCGGGUUCCAGGGGUGAU 21 6001SCNN1A-2153 − UCACUCGGGUUCCAGGGGUGAU 22 6002 SCNN1A-2154 −CUCACUCGGGUUCCAGGGGUGAU 23 6003 SCNN1A-2155 − CCUCACUCGGGUUCCAGGGGUGAU24 6004 SCNN1A-10334 − UCUCACAGAGCCCUUGAU 18 14183 SCNN1A-10335 −UUCUCACAGAGCCCUUGAU 19 14184 SCNN1A-10336 − CUUCUCACAGAGCCCUUGAU 2014185 SCNN1A-10337 − UCUUCUCACAGAGCCCUUGAU 21 14186 SCNN1A-10338 −UUCUUCUCACAGAGCCCUUGAU 22 14187 SCNN1A-10339 − AUUCUUCUCACAGAGCCCUUGAU23 14188 SCNN1A-10340 − AAUUCUUCUCACAGAGCCCUUGAU 24 14189 SCNN1A-10341 −UAGGGGUCUCUGGGAUAU 18 14190 SCNN1A-10342 − CUAGGGGUCUCUGGGAUAU 19 14191SCNN1A-10343 − UCUAGGGGUCUCUGGGAUAU 20 14192 SCNN1A-10344 −UUCUAGGGGUCUCUGGGAUAU 21 14193 SCNN1A-10345 − UUUCUAGGGGUCUCUGGGAUAU 2214194 SCNN1A-10346 − GUUUCUAGGGGUCUCUGGGAUAU 23 14195 SCNN1A-10347 −AGUUUCUAGGGGUCUCUGGGAUAU 24 14196 SCNN1A-10348 − CUCGAAAGGUGGCCCUAU 1814197 SCNN1A-10349 − ACUCGAAAGGUGGCCCUAU 19 14198 SCNN1A-10350 −AACUCGAAAGGUGGCCCUAU 20 14199 SCNN1A-10351 − AAACUCGAAAGGUGGCCCUAU 2114200 SCNN1A-10352 − AAAACUCGAAAGGUGGCCCUAU 22 14201 SCNN1A-10353 −CAAAACUCGAAAGGUGGCCCUAU 23 14202 SCNN1A-10354 − ACAAAACUCGAAAGGUGGCCCUAU24 14203 SCNN1A-10355 − AGCUCCUGGAAGCACACU 18 14204 SCNN1A-10356 −UAGCUCCUGGAAGCACACU 19 14205 SCNN1A-5727 − CUAGCUCCUGGAAGCACACU 20 9576SCNN1A-10357 − UCUAGCUCCUGGAAGCACACU 21 14206 SCNN1A-10358 −CUCUAGCUCCUGGAAGCACACU 22 14207 SCNN1A-10359 − CCUCUAGCUCCUGGAAGCACACU23 14208 SCNN1A-10360 − GCCUCUAGCUCCUGGAAGCACACU 24 14209 SCNN1A-2156 −UGCUCUCCCCAAUCCACU 18 6005 SCNN1A-2157 − UUGCUCUCCCCAAUCCACU 19 6006SCNN1A-2158 − CUUGCUCUCCCCAAUCCACU 20 6007 SCNN1A-2159 −CCUUGCUCUCCCCAAUCCACU 21 6008 SCNN1A-2160 − CCCUUGCUCUCCCCAAUCCACU 226009 SCNN1A-2161 − ACCCUUGCUCUCCCCAAUCCACU 23 6010 SCNN1A-2162 −GACCCUUGCUCUCCCCAAUCCACU 24 6011 SCNN1A-2163 − GUGAUGGGAGAGGGCACU 186012 SCNN1A-2164 − GGUGAUGGGAGAGGGCACU 19 6013 SCNN1A-2165 −GGGUGAUGGGAGAGGGCACU 20 6014 SCNN1A-2166 − GGGGUGAUGGGAGAGGGCACU 21 6015SCNN1A-2167 − AGGGGUGAUGGGAGAGGGCACU 22 6016 SCNN1A-2168 −CAGGGGUGAUGGGAGAGGGCACU 23 6017 SCNN1A-2169 − CCAGGGGUGAUGGGAGAGGGCACU24 6018 SCNN1A-10361 − UGACCACAUUCCUGCACU 18 14210 SCNN1A-10362 −GUGACCACAUUCCUGCACU 19 14211 SCNN1A-10363 − AGUGACCACAUUCCUGCACU 2014212 SCNN1A-10364 − CAGUGACCACAUUCCUGCACU 21 14213 SCNN1A-10365 −CCAGUGACCACAUUCCUGCACU 22 14214 SCNN1A-10366 − GCCAGUGACCACAUUCCUGCACU23 14215 SCNN1A-10367 − AGCCAGUGACCACAUUCCUGCACU 24 14216 SCNN1A-10368 −AGGUGCUUUUCAGAACCU 18 14217 SCNN1A-10369 − GAGGUGCUUUUCAGAACCU 19 14218SCNN1A-10370 − GGAGGUGCUUUUCAGAACCU 20 14219 SCNN1A-10371 −GGGAGGUGCUUUUCAGAACCU 21 14220 SCNN1A-10372 − AGGGAGGUGCUUUUCAGAACCU 2214221 SCNN1A-10373 − CAGGGAGGUGCUUUUCAGAACCU 23 14222 SCNN1A-10374 −GCAGGGAGGUGCUUUUCAGAACCU 24 14223 SCNN1A-10375 − UAUUUUGUUUUCUAACCU 1814224 SCNN1A-10376 − CUAUUUUGUUUUCUAACCU 19 14225 SCNN1A-10377 −CCUAUUUUGUUUUCUAACCU 20 14226 SCNN1A-10378 − UCCUAUUUUGUUUUCUAACCU 2114227 SCNN1A-10379 − CUCCUAUUUUGUUUUCUAACCU 22 14228 SCNN1A-10380 −GCUCCUAUUUUGUUUUCUAACCU 23 14229 SCNN1A-10381 − UGCUCCUAUUUUGUUUUCUAACCU24 14230 SCNN1A-10382 − UCCCAGUUCACCUGCCCU 18 14231 SCNN1A-10383 −CUCCCAGUUCACCUGCCCU 19 14232 SCNN1A-5736 − ACUCCCAGUUCACCUGCCCU 20 9585SCNN1A-10384 − UACUCCCAGUUCACCUGCCCU 21 14233 SCNN1A-10385 −GUACUCCCAGUUCACCUGCCCU 22 14234 SCNN1A-10386 − AGUACUCCCAGUUCACCUGCCCU23 14235 SCNN1A-10387 − CAGUACUCCCAGUUCACCUGCCCU 24 14236 SCNN1A-10388 −CUGACCUGUGGGUGCCCU 18 14237 SCNN1A-10389 − GCUGACCUGUGGGUGCCCU 19 14238SCNN1A-5274 − GGCUGACCUGUGGGUGCCCU 20 9123 SCNN1A-10390 −AGGCUGACCUGUGGGUGCCCU 21 14239 SCNN1A-10391 − GAGGCUGACCUGUGGGUGCCCU 2214240 SCNN1A-10392 − UGAGGCUGACCUGUGGGUGCCCU 23 14241 SCNN1A-10393 −GUGAGGCUGACCUGUGGGUGCCCU 24 14242 SCNN1A-10394 − AGAAAACUGAUUUAUCCU 1814243 SCNN1A-10395 − CAGAAAACUGAUUUAUCCU 19 14244 SCNN1A-6181 −UCAGAAAACUGAUUUAUCCU 20 10030 SCNN1A-10396 − CUCAGAAAACUGAUUUAUCCU 2114245 SCNN1A-10397 − CCUCAGAAAACUGAUUUAUCCU 22 14246 SCNN1A-10398 −ACCUCAGAAAACUGAUUUAUCCU 23 14247 SCNN1A-10399 − AACCUCAGAAAACUGAUUUAUCCU24 14248 SCNN1A-10400 − CACUCUGGGCUGCCUCCU 18 14249 SCNN1A-10401 −GCACUCUGGGCUGCCUCCU 19 14250 SCNN1A-10402 − UGCACUCUGGGCUGCCUCCU 2014251 SCNN1A-10403 − CUGCACUCUGGGCUGCCUCCU 21 14252 SCNN1A-10404 −CCUGCACUCUGGGCUGCCUCCU 22 14253 SCNN1A-10405 − UCCUGCACUCUGGGCUGCCUCCU23 14254 SCNN1A-10406 − UUCCUGCACUCUGGGCUGCCUCCU 24 14255 SCNN1A-10407 −UCGGGAGCCCUCCUUCCU 18 14256 SCNN1A-10408 − CUCGGGAGCCCUCCUUCCU 19 14257SCNN1A-10409 − CCUCGGGAGCCCUCCUUCCU 20 14258 SCNN1A-10410 −CCCUCGGGAGCCCUCCUUCCU 21 14259 SCNN1A-10411 − GCCCUCGGGAGCCCUCCUUCCU 2214260 SCNN1A-10412 − UGCCCUCGGGAGCCCUCCUUCCU 23 14261 SCNN1A-10413 −CUGCCCUCGGGAGCCCUCCUUCCU 24 14262 SCNN1A-10414 − GGGCCAGAGGCUGGAGCU 1814263 SCNN1A-10415 − AGGGCCAGAGGCUGGAGCU 19 14264 SCNN1A-10416 −CAGGGCCAGAGGCUGGAGCU 20 14265 SCNN1A-10417 − UCAGGGCCAGAGGCUGGAGCU 2114266 SCNN1A-10418 − GUCAGGGCCAGAGGCUGGAGCU 22 14267 SCNN1A-10419 −GGUCAGGGCCAGAGGCUGGAGCU 23 14268 SCNN1A-10420 − AGGUCAGGGCCAGAGGCUGGAGCU24 14269 SCNN1A-10421 − UGUGUUGCCCUCCUAGCU 18 14270 SCNN1A-10422 −UUGUGUUGCCCUCCUAGCU 19 14271 SCNN1A-10423 − CUUGUGUUGCCCUCCUAGCU 2014272 SCNN1A-10424 − CCUUGUGUUGCCCUCCUAGCU 21 14273 SCNN1A-10425 −UCCUUGUGUUGCCCUCCUAGCU 22 14274 SCNN1A-10426 − CUCCUUGUGUUGCCCUCCUAGCU23 14275 SCNN1A-10427 − UCUCCUUGUGUUGCCCUCCUAGCU 24 14276 SCNN1A-10428 −GGCUCUUAUGUCUUAUCU 18 14277 SCNN1A-10429 − UGGCUCUUAUGUCUUAUCU 19 14278SCNN1A-10430 − UUGGCUCUUAUGUCUUAUCU 20 14279 SCNN1A-10431 −CUUGGCUCUUAUGUCUUAUCU 21 14280 SCNN1A-10432 − CCUUGGCUCUUAUGUCUUAUCU 2214281 SCNN1A-10433 − CCCUUGGCUCUUAUGUCUUAUCU 23 14282 SCNN1A-10434 −GCCCUUGGCUCUUAUGUCUUAUCU 24 14283 SCNN1A-10435 − CUCUUAUGUCUUAUCUCU 1814284 SCNN1A-10436 − GCUCUUAUGUCUUAUCUCU 19 14285 SCNN1A-10437 −GGCUCUUAUGUCUUAUCUCU 20 14286 SCNN1A-10438 − UGGCUCUUAUGUCUUAUCUCU 2114287 SCNN1A-10439 − UUGGCUCUUAUGUCUUAUCUCU 22 14288 SCNN1A-10440 −CUUGGCUCUUAUGUCUUAUCUCU 23 14289 SCNN1A-10441 − CCUUGGCUCUUAUGUCUUAUCUCU24 14290 SCNN1A-10442 − AGAGAUGACACCUUCUCU 18 14291 SCNN1A-10443 −CAGAGAUGACACCUUCUCU 19 14292 SCNN1A-5926 − GCAGAGAUGACACCUUCUCU 20 9775SCNN1A-10444 − AGCAGAGAUGACACCUUCUCU 21 14293 SCNN1A-10445 −CAGCAGAGAUGACACCUUCUCU 22 14294 SCNN1A-10446 − UCAGCAGAGAUGACACCUUCUCU23 14295 SCNN1A-10447 − UUCAGCAGAGAUGACACCUUCUCU 24 14296 SCNN1A-10448 −UGGAGUUUCUAGGGGUCU 18 14297 SCNN1A-10449 − CUGGAGUUUCUAGGGGUCU 19 14298SCNN1A-10450 − ACUGGAGUUUCUAGGGGUCU 20 14299 SCNN1A-10451 −GACUGGAGUUUCUAGGGGUCU 21 14300 SCNN1A-10452 − AGACUGGAGUUUCUAGGGGUCU 2214301 SCNN1A-10453 − GAGACUGGAGUUUCUAGGGGUCU 23 14302 SCNN1A-10454 −GGAGACUGGAGUUUCUAGGGGUCU 24 14303 SCNN1A-10455 − UCCCCCAUGAGUCUGUCU 1814304 SCNN1A-10456 − AUCCCCCAUGAGUCUGUCU 19 14305 SCNN1A-10457 −GAUCCCCCAUGAGUCUGUCU 20 14306 SCNN1A-10458 − CGAUCCCCCAUGAGUCUGUCU 2114307 SCNN1A-10459 − CCGAUCCCCCAUGAGUCUGUCU 22 14308 SCNN1A-10460 −CCCGAUCCCCCAUGAGUCUGUCU 23 14309 SCNN1A-10461 − CCCCGAUCCCCCAUGAGUCUGUCU24 14310 SCNN1A-10462 − GCAGAGAUGACACCUUCU 18 14311 SCNN1A-10463 −AGCAGAGAUGACACCUUCU 19 14312 SCNN1A-10464 − CAGCAGAGAUGACACCUUCU 2014313 SCNN1A-10465 − UCAGCAGAGAUGACACCUUCU 21 14314 SCNN1A-10466 −UUCAGCAGAGAUGACACCUUCU 22 14315 SCNN1A-10467 − AUUCAGCAGAGAUGACACCUUCU23 14316 SCNN1A-10468 − GAUUCAGCAGAGAUGACACCUUCU 24 14317 SCNN1A-10469 −CAGAGGAGAGGCCGUUCU 18 14318 SCNN1A-10470 − GCAGAGGAGAGGCCGUUCU 19 14319SCNN1A-5750 − AGCAGAGGAGAGGCCGUUCU 20 9599 SCNN1A-10471 −AAGCAGAGGAGAGGCCGUUCU 21 14320 SCNN1A-10472 − GAAGCAGAGGAGAGGCCGUUCU 2214321 SCNN1A-10473 − GGAAGCAGAGGAGAGGCCGUUCU 23 14322 SCNN1A-10474 −GGGAAGCAGAGGAGAGGCCGUUCU 24 14323 SCNN1A-10475 − CCUUUUGCUGCAUUAAGU 1814324 SCNN1A-10476 − UCCUUUUGCUGCAUUAAGU 19 14325 SCNN1A-10477 −AUCCUUUUGCUGCAUUAAGU 20 14326 SCNN1A-10478 − UAUCCUUUUGCUGCAUUAAGU 2114327 SCNN1A-10479 − UUAUCCUUUUGCUGCAUUAAGU 22 14328 SCNN1A-10480 −CUUAUCCUUUUGCUGCAUUAAGU 23 14329 SCNN1A-10481 − CCUUAUCCUUUUGCUGCAUUAAGU24 14330 SCNN1A-10482 − UGGGAUAUGUGGGGCAGU 18 14331 SCNN1A-10483 −CUGGGAUAUGUGGGGCAGU 19 14332 SCNN1A-5753 − UCUGGGAUAUGUGGGGCAGU 20 9602SCNN1A-10484 − CUCUGGGAUAUGUGGGGCAGU 21 14333 SCNN1A-10485 −UCUCUGGGAUAUGUGGGGCAGU 22 14334 SCNN1A-10486 − GUCUCUGGGAUAUGUGGGGCAGU23 14335 SCNN1A-10487 − GGUCUCUGGGAUAUGUGGGGCAGU 24 14336 SCNN1A-10488 −GAGCUGAGGGCCUAGAGU 18 14337 SCNN1A-10489 − GGAGCUGAGGGCCUAGAGU 19 14338SCNN1A-10490 − UGGAGCUGAGGGCCUAGAGU 20 14339 SCNN1A-10491 −CUGGAGCUGAGGGCCUAGAGU 21 14340 SCNN1A-10492 − GCUGGAGCUGAGGGCCUAGAGU 2214341 SCNN1A-10493 − GGCUGGAGCUGAGGGCCUAGAGU 23 14342 SCNN1A-10494 −AGGCUGGAGCUGAGGGCCUAGAGU 24 14343 SCNN1A-10495 − GAGGAGGGAGGGAGGAGU 1814344 SCNN1A-10496 − GGAGGAGGGAGGGAGGAGU 19 14345 SCNN1A-6187 −UGGAGGAGGGAGGGAGGAGU 20 10036 SCNN1A-10497 − GUGGAGGAGGGAGGGAGGAGU 2114346 SCNN1A-10498 − GGUGGAGGAGGGAGGGAGGAGU 22 14347 SCNN1A-10499 −AGGUGGAGGAGGGAGGGAGGAGU 23 14348 SCNN1A-10500 − AAGGUGGAGGAGGGAGGGAGGAGU24 14349 SCNN1A-10501 − GGCAGAUAGAGAGGGAGU 18 14350 SCNN1A-10502 −AGGCAGAUAGAGAGGGAGU 19 14351 SCNN1A-10503 − AAGGCAGAUAGAGAGGGAGU 2014352 SCNN1A-10504 − GAAGGCAGAUAGAGAGGGAGU 21 14353 SCNN1A-10505 −AGAAGGCAGAUAGAGAGGGAGU 22 14354 SCNN1A-10506 − CAGAAGGCAGAUAGAGAGGGAGU23 14355 SCNN1A-10507 − ACAGAAGGCAGAUAGAGAGGGAGU 24 14356 SCNN1A-10508 −CAGCCGCAACCUGGGAGU 18 14357 SCNN1A-10509 − CCAGCCGCAACCUGGGAGU 19 14358SCNN1A-5754 − UCCAGCCGCAACCUGGGAGU 20 9603 SCNN1A-10510 −GUCCAGCCGCAACCUGGGAGU 21 14359 SCNN1A-10511 − AGUCCAGCCGCAACCUGGGAGU 2214360 SCNN1A-10512 − CAGUCCAGCCGCAACCUGGGAGU 23 14361 SCNN1A-10513 −CCAGUCCAGCCGCAACCUGGGAGU 24 14362 SCNN1A-10514 − CGGGCUCUGUGUGGGAGU 1814363 SCNN1A-10515 − ACGGGCUCUGUGUGGGAGU 19 14364 SCNN1A-10516 −CACGGGCUCUGUGUGGGAGU 20 14365 SCNN1A-10517 − CCACGGGCUCUGUGUGGGAGU 2114366 SCNN1A-10518 − UCCACGGGCUCUGUGUGGGAGU 22 14367 SCNN1A-10519 −AUCCACGGGCUCUGUGUGGGAGU 23 14368 SCNN1A-10520 − AAUCCACGGGCUCUGUGUGGGAGU24 14369 SCNN1A-10521 − GCCUCCUGUGGGGCCCGU 18 14370 SCNN1A-10522 −UGCCUCCUGUGGGGCCCGU 19 14371 SCNN1A-10523 − CUGCCUCCUGUGGGGCCCGU 2014372 SCNN1A-10524 − GCUGCCUCCUGUGGGGCCCGU 21 14373 SCNN1A-10525 −GGCUGCCUCCUGUGGGGCCCGU 22 14374 SCNN1A-10526 − GGGCUGCCUCCUGUGGGGCCCGU23 14375 SCNN1A-10527 − UGGGCUGCCUCCUGUGGGGCCCGU 24 14376 SCNN1A-10528 −CCCGGGUCUGGACAAGGU 18 14377 SCNN1A-10529 − UCCCGGGUCUGGACAAGGU 19 14378SCNN1A-5755 − CUCCCGGGUCUGGACAAGGU 20 9604 SCNN1A-10530 −CCUCCCGGGUCUGGACAAGGU 21 14379 SCNN1A-10531 − CCCUCCCGGGUCUGGACAAGGU 2214380 SCNN1A-10532 − CCCCUCCCGGGUCUGGACAAGGU 23 14381 SCNN1A-10533 −GCCCCUCCCGGGUCUGGACAAGGU 24 14382 SCNN1A-10534 − CCGCUGCACCUGUCAGGU 1814383 SCNN1A-10535 − GCCGCUGCACCUGUCAGGU 19 14384 SCNN1A-10536 −GGCCGCUGCACCUGUCAGGU 20 14385 SCNN1A-10537 − AGGCCGCUGCACCUGUCAGGU 2114386 SCNN1A-10538 − CAGGCCGCUGCACCUGUCAGGU 22 14387 SCNN1A-10539 −CCAGGCCGCUGCACCUGUCAGGU 23 14388 SCNN1A-10540 − GCCAGGCCGCUGCACCUGUCAGGU24 14389 SCNN1A-10541 − CAGGACACAGCUCGAGGU 18 14390 SCNN1A-10542 −UCAGGACACAGCUCGAGGU 19 14391 SCNN1A-10543 − AUCAGGACACAGCUCGAGGU 2014392 SCNN1A-10544 − AAUCAGGACACAGCUCGAGGU 21 14393 SCNN1A-10545 −GAAUCAGGACACAGCUCGAGGU 22 14394 SCNN1A-10546 − AGAAUCAGGACACAGCUCGAGGU23 14395 SCNN1A-10547 − CAGAAUCAGGACACAGCUCGAGGU 24 14396 SCNN1A-10548 −CCUGGGCCCCUCCCGGGU 18 14397 SCNN1A-10549 − ACCUGGGCCCCUCCCGGGU 19 14398SCNN1A-10550 − CACCUGGGCCCCUCCCGGGU 20 14399 SCNN1A-10551 −UCACCUGGGCCCCUCCCGGGU 21 14400 SCNN1A-10552 − UUCACCUGGGCCCCUCCCGGGU 2214401 SCNN1A-10553 − CUUCACCUGGGCCCCUCCCGGGU 23 14402 SCNN1A-10554 −GCUUCACCUGGGCCCCUCCCGGGU 24 14403 SCNN1A-2176 − UAAGCAAGGGAACCUGGU 186025 SCNN1A-2177 − GUAAGCAAGGGAACCUGGU 19 6026 SCNN1A-2178 −GGUAAGCAAGGGAACCUGGU 20 6027 SCNN1A-2179 − AGGUAAGCAAGGGAACCUGGU 21 6028SCNN1A-2180 − AAGGUAAGCAAGGGAACCUGGU 22 6029 SCNN1A-2181 −CAAGGUAAGCAAGGGAACCUGGU 23 6030 SCNN1A-2182 − UCAAGGUAAGCAAGGGAACCUGGU24 6031 SCNN1A-10555 − GAGGACCAUGCCCAAUGU 18 14404 SCNN1A-10556 −GGAGGACCAUGCCCAAUGU 19 14405 SCNN1A-10557 − GGGAGGACCAUGCCCAAUGU 2014406 SCNN1A-10558 − AGGGAGGACCAUGCCCAAUGU 21 14407 SCNN1A-10559 −CAGGGAGGACCAUGCCCAAUGU 22 14408 SCNN1A-10560 − GCAGGGAGGACCAUGCCCAAUGU23 14409 SCNN1A-10561 − UGCAGGGAGGACCAUGCCCAAUGU 24 14410 SCNN1A-10562 −CGAAUCCACGGGCUCUGU 18 14411 SCNN1A-10563 − ACGAAUCCACGGGCUCUGU 19 14412SCNN1A-10564 − GACGAAUCCACGGGCUCUGU 20 14413 SCNN1A-10565 −AGACGAAUCCACGGGCUCUGU 21 14414 SCNN1A-10566 − CAGACGAAUCCACGGGCUCUGU 2214415 SCNN1A-10567 − GCAGACGAAUCCACGGGCUCUGU 23 14416 SCNN1A-10568 −AGCAGACGAAUCCACGGGCUCUGU 24 14417 SCNN1A-10569 − UGAGAUCUGCACUUUUGU 1814418 SCNN1A-10570 − CUGAGAUCUGCACUUUUGU 19 14419 SCNN1A-10571 −UCUGAGAUCUGCACUUUUGU 20 14420 SCNN1A-10572 − AUCUGAGAUCUGCACUUUUGU 2114421 SCNN1A-10573 − AAUCUGAGAUCUGCACUUUUGU 22 14422 SCNN1A-10574 −AAAUCUGAGAUCUGCACUUUUGU 23 14423 SCNN1A-10575 − GAAAUCUGAGAUCUGCACUUUUGU24 14424 SCNN1A-10576 − UAAGUUUGGAAAGAGAUU 18 14425 SCNN1A-10577 −UUAAGUUUGGAAAGAGAUU 19 14426 SCNN1A-10578 − AUUAAGUUUGGAAAGAGAUU 2014427 SCNN1A-10579 − CAUUAAGUUUGGAAAGAGAUU 21 14428 SCNN1A-10580 −GCAUUAAGUUUGGAAAGAGAUU 22 14429 SCNN1A-10581 − UGCAUUAAGUUUGGAAAGAGAUU23 14430 SCNN1A-10582 − CUGCAUUAAGUUUGGAAAGAGAUU 24 14431 SCNN1A-10583 −GAAAACUGAUUUAUCCUU 18 14432 SCNN1A-10584 − AGAAAACUGAUUUAUCCUU 19 14433SCNN1A-6189 − CAGAAAACUGAUUUAUCCUU 20 10038 SCNN1A-10585 −UCAGAAAACUGAUUUAUCCUU 21 14434 SCNN1A-10586 − CUCAGAAAACUGAUUUAUCCUU 2214435 SCNN1A-10587 − CCUCAGAAAACUGAUUUAUCCUU 23 14436 SCNN1A-10588 −ACCUCAGAAAACUGAUUUAUCCUU 24 14437 SCNN1A-10589 − CGGGAGCCCUCCUUCCUU 1814438 SCNN1A-10590 − UCGGGAGCCCUCCUUCCUU 19 14439 SCNN1A-5770 −CUCGGGAGCCCUCCUUCCUU 20 9619 SCNN1A-10591 − CCUCGGGAGCCCUCCUUCCUU 2114440 SCNN1A-10592 − CCCUCGGGAGCCCUCCUUCCUU 22 14441 SCNN1A-10593 −GCCCUCGGGAGCCCUCCUUCCUU 23 14442 SCNN1A-10594 − UGCCCUCGGGAGCCCUCCUUCCUU24 14443 SCNN1A-10595 − GCCUUUGUCUGCUGGCUU 18 14444 SCNN1A-10596 −GGCCUUUGUCUGCUGGCUU 19 14445 SCNN1A-10597 − GGGCCUUUGUCUGCUGGCUU 2014446 SCNN1A-10598 − UGGGCCUUUGUCUGCUGGCUU 21 14447 SCNN1A-10599 −CUGGGCCUUUGUCUGCUGGCUU 22 14448 SCNN1A-10600 − GCUGGGCCUUUGUCUGCUGGCUU23 14449 SCNN1A-10601 − GGCUGGGCCUUUGUCUGCUGGCUU 24 14450 SCNN1A-10602 −CUUUUGCUGCAUUAAGUU 18 14451 SCNN1A-10603 − CCUUUUGCUGCAUUAAGUU 19 14452SCNN1A-5771 − UCCUUUUGCUGCAUUAAGUU 20 9620 SCNN1A-10604 −AUCCUUUUGCUGCAUUAAGUU 21 14453 SCNN1A-10605 − UAUCCUUUUGCUGCAUUAAGUU 2214454 SCNN1A-10606 − UUAUCCUUUUGCUGCAUUAAGUU 23 14455 SCNN1A-10607 −CUUAUCCUUUUGCUGCAUUAAGUU 24 14456 SCNN1A-10608 − AAGUUUGGAAAGAGAUUU 1814457 SCNN1A-10609 − UAAGUUUGGAAAGAGAUUU 19 14458 SCNN1A-5773 −UUAAGUUUGGAAAGAGAUUU 20 9622 SCNN1A-10610 − AUUAAGUUUGGAAAGAGAUUU 2114459 SCNN1A-10611 − CAUUAAGUUUGGAAAGAGAUUU 22 14460 SCNN1A-10612 −GCAUUAAGUUUGGAAAGAGAUUU 23 14461 SCNN1A-10613 − UGCAUUAAGUUUGGAAAGAGAUUU24 14462 SCNN1A-10614 − GACACCGGCUUUCACUUU 18 14463 SCNN1A-10615 −UGACACCGGCUUUCACUUU 19 14464 SCNN1A-10616 − UUGACACCGGCUUUCACUUU 2014465 SCNN1A-10617 − GUUGACACCGGCUUUCACUUU 21 14466 SCNN1A-10618 −GGUUGACACCGGCUUUCACUUU 22 14467 SCNN1A-10619 − UGGUUGACACCGGCUUUCACUUU23 14468 SCNN1A-10620 − CUGGUUGACACCGGCUUUCACUUU 24 14469 SCNN1A-10621 −AGGCAGGGAGGUGCUUUU 18 14470 SCNN1A-10622 − AAGGCAGGGAGGUGCUUUU 19 14471SCNN1A-10623 − AAAGGCAGGGAGGUGCUUUU 20 14472 SCNN1A-10624 −AAAAGGCAGGGAGGUGCUUUU 21 14473 SCNN1A-10625 − GAAAAGGCAGGGAGGUGCUUUU 2214474 SCNN1A-10626 − AGAAAAGGCAGGGAGGUGCUUUU 23 14475 SCNN1A-10627 −UAGAAAAGGCAGGGAGGUGCUUUU 24 14476

Table 47E provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the fifth tier parameters. Thetargeting domains bind within the additional 500 bp (e.g., upstream ordownstream) of a transcription start site (TSS), e.g., extending to 1 kbupstream and downstream of a TSS, starts with a 5′G and PAM is NNGRRT.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through co Any of the targeting domainsin the table can be used with a S. aureus eiCas9 molecule or eiCas9fusion protein (e.g., an eiCas9 fused to a transcription repressordomain) to alter the SCNN1A gene (e.g., reduce or eliminate SCNN1A geneexpression, SCNN1A protein function, or the level of SCNN1A protein).One or more gRNA may be used to target an eiCas9 to the promoter regionof the SCNN1A gene mplementary base pairing. Any of the targetingdomains in the Table can be used with a S. aureus Cas9 molecule thatgenerates a double stranded break (Cas9 nuclease) or a single-strandedbreak (Cas9 nickase).

TABLE 47E 5th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-10628 + GCCUGGUCUGGGCUGAGCCA 20 14477 SCNN1A-1302 +GGUUGAUGUUGAGGCUGA 18 5151 SCNN1A-42 + GAGGUUGAUGUUGAGGCUGA 20 519SCNN1A-1303 + GUUGAGGUUGAUGUUGAGGCUGA 23 5152 SCNN1A-10629 +GUGAGCUCUACCUGGGAC 18 14478 SCNN1A-10630 + GCAGUGAGCUCUACCUGGGAC 2114479 SCNN1A-1417 + GUUCCCCUUCAUGAGCCC 18 5266 SCNN1A-1420 +GCUUGUUCCCCUUCAUGAGCCC 22 5269 SCNN1A-1427 + GCACACCAGGCGGAUGGCGCC 215276 SCNN1A-1429 + GAGCACACCAGGCGGAUGGCGCC 23 5278 SCNN1A-1430 +GGAGCACACCAGGCGGAUGGCGCC 24 5279 SCNN1A-10631 + GAUCAUGCACUAUCCUCUAGGC22 14480 SCNN1A-10632 + GGAUCAUGCACUAUCCUCUAGGC 23 14481 SCNN1A-1316 +GUGCUGGGAGCACACCAG 18 5165 SCNN1A-1317 + GUUGUGCUGGGAGCACACCAG 21 5166SCNN1A-1318 + GGUUGUGCUGGGAGCACACCAG 22 5167 SCNN1A-1319 +GCGGUUGUGCUGGGAGCACACCAG 24 5168 SCNN1A-1320 + GUACUCUCCGAAAAGCAGG 195169 SCNN1A-1321 + GAAGUACUCUCCGAAAAGCAGG 22 5170 SCNN1A-10633 +GUGACCCUGCCACGUCCUG 19 14482 SCNN1A-10634 + GGUGACCCUGCCACGUCCUG 2014483 SCNN1A-10635 + GUGGUGACCCUGCCACGUCCUG 22 14484 SCNN1A-10636 +GGUGGUGACCCUGCCACGUCCUG 23 14485 SCNN1A-10637 + GGGUGGUGACCCUGCCACGUCCUG24 14486 SCNN1A-10638 + GCCACGUCCUGCCGGGUAU 19 14487 SCNN1A-1326 +GAGGGACUAACCGACCUGU 19 5175 SCNN1A-1327 + GCAGAGGGACUAACCGACCUGU 22 5176SCNN1A-1328 + GGCAGAGGGACUAACCGACCUGU 23 5177 SCNN1A-1329 +GGGCAGAGGGACUAACCGACCUGU 24 5178 SCNN1A-1330 + GCGGGGAAGACGAGCUUGU 195179 SCNN1A-1331 + GACUAACCGACCUGUAGGGAUU 22 5180 SCNN1A-1332 +GGACUAACCGACCUGUAGGGAUU 23 5181 SCNN1A-1333 + GGGACUAACCGACCUGUAGGGAUU24 5182 SCNN1A-1334 − GCGGAGGAGGAGGCCCUGA 19 5183 SCNN1A-189 −GGCGGAGGAGGAGGCCCUGA 20 819 SCNN1A-10639 − GCUGCUGUACUCCAGCCUA 19 14488SCNN1A-10640 − GUUCUAGCCCGCUCCAGGUC 20 14489 SCNN1A-10641 −GCCUGUUCUAGCCCGCUCCAGGUC 24 14490 SCNN1A-10642 − GCGCCUGGAAGGGUGGUC 1814491 SCNN1A-10643 − GCCUGCGCCUGGAAGGGUGGUC 22 14492 SCNN1A-10644 −GUGCCUGCGCCUGGAAGGGUGGUC 24 14493 SCNN1A-197 − GCAAUUCGGCCUGCUUUUCG 20826 SCNN1A-1337 − GGCAAUUCGGCCUGCUUUUCG 21 5186 SCNN1A-10645 −GCAGGCAGAGCCUCAGACCU 20 14494 SCNN1A-10646 − GGCAGGCAGAGCCUCAGACCU 2114495 SCNN1A-10647 − GGGCAGGCAGAGCCUCAGACCU 22 14496 SCNN1A-1338 −GCUCCUACCGAGAGCUCU 18 5187

Table 47F provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the six tier parameters. The targetingdomains bind within the additional 500 bp (e.g., upstream or downstream)of a transcription start site (TSS), e.g., extending to 1 kb upstreamand downstream of a TSS and PAM is NNGRRT. It is contemplated hereinthat in an embodiment the targeting domain hybridizes to the targetdomain through complementary base pairing. Any of the targeting domainsin the table can be used with a S. aureus eiCas9 molecule or eiCas9fusion protein (e.g., an eiCas9 fused to a transcription repressordomain) to alter the SCNN1A gene (e.g., reduce or eliminate SCNN1A geneexpression, SCNN1A protein function, or the level of SCNN1A protein).One or more gRNA may be used to target an eiCas9 to the promoter regionof the SCNN1A gene.

TABLE 47F 6th Tier Target DNA Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-10648 + CUGGUCUGGGCUGAGCCA 18 14497 SCNN1A-10649 +CCUGGUCUGGGCUGAGCCA 19 14498 SCNN1A-10650 + UGCCUGGUCUGGGCUGAGCCA 2114499 SCNN1A-10651 + AUGCCUGGUCUGGGCUGAGCCA 22 14500 SCNN1A-10652 +AAUGCCUGGUCUGGGCUGAGCCA 23 14501 SCNN1A-10653 + CAAUGCCUGGUCUGGGCUGAGCCA24 14502 SCNN1A-10654 + UCUUAUUUAUCUUAGAGA 18 14503 SCNN1A-10655 +UUCUUAUUUAUCUUAGAGA 19 14504 SCNN1A-10656 + UUUCUUAUUUAUCUUAGAGA 2014505 SCNN1A-10657 + UUUUCUUAUUUAUCUUAGAGA 21 14506 SCNN1A-10658 +AUUUUCUUAUUUAUCUUAGAGA 22 14507 SCNN1A-10659 + UAUUUUCUUAUUUAUCUUAGAGA23 14508 SCNN1A-10660 + UUAUUUUCUUAUUUAUCUUAGAGA 24 14509 SCNN1A-1340 +AGGUUGAUGUUGAGGCUGA 19 5189 SCNN1A-1341 + UGAGGUUGAUGUUGAGGCUGA 21 5190SCNN1A-1342 + UUGAGGUUGAUGUUGAGGCUGA 22 5191 SCNN1A-1343 +AGUUGAGGUUGAUGUUGAGGCUGA 24 5192 SCNN1A-10661 + AGUGAGCUCUACCUGGGAC 1914510 SCNN1A-6306 + CAGUGAGCUCUACCUGGGAC 20 10155 SCNN1A-10662 +AGCAGUGAGCUCUACCUGGGAC 22 14511 SCNN1A-10663 + CAGCAGUGAGCUCUACCUGGGAC23 14512 SCNN1A-10664 + CCAGCAGUGAGCUCUACCUGGGAC 24 14513 SCNN1A-1418 +UGUUCCCCUUCAUGAGCCC 19 5267 SCNN1A-72 + UUGUUCCCCUUCAUGAGCCC 20 599SCNN1A-1419 + CUUGUUCCCCUUCAUGAGCCC 21 5268 SCNN1A-1423 +CGCUUGUUCCCCUUCAUGAGCCC 23 5272 SCNN1A-1424 + ACGCUUGUUCCCCUUCAUGAGCCC24 5273 SCNN1A-1425 + CACCAGGCGGAUGGCGCC 18 5274 SCNN1A-1426 +ACACCAGGCGGAUGGCGCC 19 5275 SCNN1A-223 + CACACCAGGCGGAUGGCGCC 20 846SCNN1A-1428 + AGCACACCAGGCGGAUGGCGCC 22 5277 SCNN1A-10665 +AUGCACUAUCCUCUAGGC 18 14514 SCNN1A-10666 + CAUGCACUAUCCUCUAGGC 19 14515SCNN1A-6323 + UCAUGCACUAUCCUCUAGGC 20 10172 SCNN1A-10667 +AUCAUGCACUAUCCUCUAGGC 21 14516 SCNN1A-10668 + AGGAUCAUGCACUAUCCUCUAGGC24 14517 SCNN1A-1371 + UGUGCUGGGAGCACACCAG 19 5220 SCNN1A-224 +UUGUGCUGGGAGCACACCAG 20 847 SCNN1A-1372 + CGGUUGUGCUGGGAGCACACCAG 235221 SCNN1A-1373 + UACUCUCCGAAAAGCAGG 18 5222 SCNN1A-230 +AGUACUCUCCGAAAAGCAGG 20 851 SCNN1A-1374 + AAGUACUCUCCGAAAAGCAGG 21 5223SCNN1A-1375 + UGAAGUACUCUCCGAAAAGCAGG 23 5224 SCNN1A-1376 +CUGAAGUACUCUCCGAAAAGCAGG 24 5225 SCNN1A-10669 + UGACCCUGCCACGUCCUG 1814518 SCNN1A-10670 + UGGUGACCCUGCCACGUCCUG 21 14519 SCNN1A-10671 +CCACGUCCUGCCGGGUAU 18 14520 SCNN1A-6350 + UGCCACGUCCUGCCGGGUAU 20 10199SCNN1A-10672 + CUGCCACGUCCUGCCGGGUAU 21 14521 SCNN1A-10673 +CCUGCCACGUCCUGCCGGGUAU 22 14522 SCNN1A-10674 + CCCUGCCACGUCCUGCCGGGUAU23 14523 SCNN1A-10675 + ACCCUGCCACGUCCUGCCGGGUAU 24 14524 SCNN1A-1380 +AGGGACUAACCGACCUGU 18 5229 SCNN1A-424 + AGAGGGACUAACCGACCUGU 20 4273SCNN1A-1381 + CAGAGGGACUAACCGACCUGU 21 5230 SCNN1A-1382 +CGGGGAAGACGAGCUUGU 18 5231 SCNN1A-237 + UGCGGGGAAGACGAGCUUGU 20 857SCNN1A-1383 + CUGCGGGGAAGACGAGCUUGU 21 5232 SCNN1A-1384 +ACUGCGGGGAAGACGAGCUUGU 22 5233 SCNN1A-1385 + CACUGCGGGGAAGACGAGCUUGU 235234 SCNN1A-1386 + UCACUGCGGGGAAGACGAGCUUGU 24 5235 SCNN1A-1387 +AACCGACCUGUAGGGAUU 18 5236 SCNN1A-1388 + UAACCGACCUGUAGGGAUU 19 5237SCNN1A-1389 + CUAACCGACCUGUAGGGAUU 20 5238 SCNN1A-1390 +ACUAACCGACCUGUAGGGAUU 21 5239 SCNN1A-1391 − CGGAGGAGGAGGCCCUGA 18 5240SCNN1A-1433 − CGGCGGAGGAGGAGGCCCUGA 21 5282 SCNN1A-1434 −ACGGCGGAGGAGGAGGCCCUGA 22 5283 SCNN1A-1435 − CACGGCGGAGGAGGAGGCCCUGA 235284 SCNN1A-1436 − CCACGGCGGAGGAGGAGGCCCUGA 24 5285 SCNN1A-10676 −CUGCUGUACUCCAGCCUA 18 14525 SCNN1A-10677 − UGCUGCUGUACUCCAGCCUA 20 14526SCNN1A-10678 − AUGCUGCUGUACUCCAGCCUA 21 14527 SCNN1A-10679 −CAUGCUGCUGUACUCCAGCCUA 22 14528 SCNN1A-10680 − UCAUGCUGCUGUACUCCAGCCUA23 14529 SCNN1A-10681 − AUCAUGCUGCUGUACUCCAGCCUA 24 14530 SCNN1A-10682 −UCUAGCCCGCUCCAGGUC 18 14531 SCNN1A-10683 − UUCUAGCCCGCUCCAGGUC 19 14532SCNN1A-10684 − UGUUCUAGCCCGCUCCAGGUC 21 14533 SCNN1A-10685 −CUGUUCUAGCCCGCUCCAGGUC 22 14534 SCNN1A-10686 − CCUGUUCUAGCCCGCUCCAGGUC23 14535 SCNN1A-10687 − UGCGCCUGGAAGGGUGGUC 19 14536 SCNN1A-10688 −CUGCGCCUGGAAGGGUGGUC 20 14537 SCNN1A-10689 − CCUGCGCCUGGAAGGGUGGUC 2114538 SCNN1A-10690 − UGCCUGCGCCUGGAAGGGUGGUC 23 14539 SCNN1A-1395 −AAUUCGGCCUGCUUUUCG 18 5244 SCNN1A-1396 − CAAUUCGGCCUGCUUUUCG 19 5245SCNN1A-1397 − UGGCAAUUCGGCCUGCUUUUCG 22 5246 SCNN1A-1398 −CUGGCAAUUCGGCCUGCUUUUCG 23 5247 SCNN1A-1399 − ACUGGCAAUUCGGCCUGCUUUUCG24 5248 SCNN1A-10691 − CCUGGUGCCUGCGCCUGG 18 14540 SCNN1A-10692 −CCCUGGUGCCUGCGCCUGG 19 14541 SCNN1A-10693 − UCCCUGGUGCCUGCGCCUGG 2014542 SCNN1A-10694 − UUCCCUGGUGCCUGCGCCUGG 21 14543 SCNN1A-10695 −CUUCCCUGGUGCCUGCGCCUGG 22 14544 SCNN1A-10696 − CCUUCCCUGGUGCCUGCGCCUGG23 14545 SCNN1A-10697 − CCCUUCCCUGGUGCCUGCGCCUGG 24 14546 SCNN1A-10698 −AUACCCGGCAGGACGUGG 18 14547 SCNN1A-10699 − CAUACCCGGCAGGACGUGG 19 14548SCNN1A-10700 − CCAUACCCGGCAGGACGUGG 20 14549 SCNN1A-10701 −CCCAUACCCGGCAGGACGUGG 21 14550 SCNN1A-10702 − UCCCAUACCCGGCAGGACGUGG 2214551 SCNN1A-10703 − CUCCCAUACCCGGCAGGACGUGG 23 14552 SCNN1A-10704 −ACUCCCAUACCCGGCAGGACGUGG 24 14553 SCNN1A-10705 − AGGCAGAGCCUCAGACCU 1814554 SCNN1A-10706 − CAGGCAGAGCCUCAGACCU 19 14555 SCNN1A-10707 −UGGGCAGGCAGAGCCUCAGACCU 23 14556 SCNN1A-10708 − CUGGGCAGGCAGAGCCUCAGACCU24 14557 SCNN1A-1400 − CGCUCCUACCGAGAGCUCU 19 5249 SCNN1A-192 −CCGCUCCUACCGAGAGCUCU 20 822 SCNN1A-1401 − ACCGCUCCUACCGAGAGCUCU 21 5250SCNN1A-1402 − CACCGCUCCUACCGAGAGCUCU 22 5251 SCNN1A-1403 −CCACCGCUCCUACCGAGAGCUCU 23 5252 SCNN1A-1404 − UCCACCGCUCCUACCGAGAGCUCU24 5253

Table 47G provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the seven tier parameters. Thetargeting domains bind within the additional 500 bp (e.g., upstream ordownstream) of a transcription start site (TSS), e.g., extending to 1 kbupstream and downstream of a TSS and PAM is NNGRRV. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a S. aureus eiCas9 molecule oreiCas9 fusion protein (e.g., an eiCas9 fused to a transcriptionrepressor domain) to alter the SCNN1A gene (e.g., reduce or eliminateSCNN1A gene expression, SCNN1A protein function, or the level of SCNN1Aprotein). One or more gRNA may be used to target an eiCas9 to thepromoter region of the SCNN1A gene.

TABLE 47G 7th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-10709 + UUGGUGUUGUGAGGAAAA 18 14558 SCNN1A-10710 +CUUGGUGUUGUGAGGAAAA 19 14559 SCNN1A-10711 + GCUUGGUGUUGUGAGGAAAA 2014560 SCNN1A-10712 + GGCUUGGUGUUGUGAGGAAAA 21 14561 SCNN1A-10713 +AGGCUUGGUGUUGUGAGGAAAA 22 14562 SCNN1A-10714 + CAGGCUUGGUGUUGUGAGGAAAA23 14563 SCNN1A-10715 + ACAGGCUUGGUGUUGUGAGGAAAA 24 14564 SCNN1A-10716 +UUCCUUUCCCUCCCCAAA 18 14565 SCNN1A-10717 + CUUCCUUUCCCUCCCCAAA 19 14566SCNN1A-6279 + CCUUCCUUUCCCUCCCCAAA 20 10128 SCNN1A-10718 +CCCUUCCUUUCCCUCCCCAAA 21 14567 SCNN1A-10719 + CCCCUUCCUUUCCCUCCCCAAA 2214568 SCNN1A-10720 + UCCCCUUCCUUUCCCUCCCCAAA 23 14569 SCNN1A-10721 +GUCCCCUUCCUUUCCCUCCCCAAA 24 14570 SCNN1A-10722 + CUUCCUUUCCCUCCCCAA 1814571 SCNN1A-10723 + CCUUCCUUUCCCUCCCCAA 19 14572 SCNN1A-6281 +CCCUUCCUUUCCCUCCCCAA 20 10130 SCNN1A-10724 + CCCCUUCCUUUCCCUCCCCAA 2114573 SCNN1A-10725 + UCCCCUUCCUUUCCCUCCCCAA 22 14574 SCNN1A-10726 +GUCCCCUUCCUUUCCCUCCCCAA 23 14575 SCNN1A-10727 + AGUCCCCUUCCUUUCCCUCCCCAA24 14576 SCNN1A-10728 + UUCCAGGCGCAGGCACCA 18 14577 SCNN1A-10729 +CUUCCAGGCGCAGGCACCA 19 14578 SCNN1A-6290 + CCUUCCAGGCGCAGGCACCA 20 10139SCNN1A-10730 + CCCUUCCAGGCGCAGGCACCA 21 14579 SCNN1A-10731 +ACCCUUCCAGGCGCAGGCACCA 22 14580 SCNN1A-10732 + CACCCUUCCAGGCGCAGGCACCA23 14581 SCNN1A-10733 + CCACCCUUCCAGGCGCAGGCACCA 24 14582 SCNN1A-10734 +CCUUCCUUUCCCUCCCCA 18 14583 SCNN1A-10735 + CCCUUCCUUUCCCUCCCCA 19 14584SCNN1A-10736 + CCCCUUCCUUUCCCUCCCCA 20 14585 SCNN1A-10737 +UCCCCUUCCUUUCCCUCCCCA 21 14586 SCNN1A-10738 + GUCCCCUUCCUUUCCCUCCCCA 2214587 SCNN1A-10739 + AGUCCCCUUCCUUUCCCUCCCCA 23 14588 SCNN1A-10740 +UAGUCCCCUUCCUUUCCCUCCCCA 24 14589 SCNN1A-10741 + UGAGGCUCUGCCUGCCCA 1814590 SCNN1A-10742 + CUGAGGCUCUGCCUGCCCA 19 14591 SCNN1A-10743 +UCUGAGGCUCUGCCUGCCCA 20 14592 SCNN1A-10744 + GUCUGAGGCUCUGCCUGCCCA 2114593 SCNN1A-10745 + GGUCUGAGGCUCUGCCUGCCCA 22 14594 SCNN1A-10746 +AGGUCUGAGGCUCUGCCUGCCCA 23 14595 SCNN1A-10747 + CAGGUCUGAGGCUCUGCCUGCCCA24 14596 SCNN1A-10748 + GGCACCAGGGAAGGGGCA 18 14597 SCNN1A-10749 +AGGCACCAGGGAAGGGGCA 19 14598 SCNN1A-10750 + CAGGCACCAGGGAAGGGGCA 2014599 SCNN1A-10751 + GCAGGCACCAGGGAAGGGGCA 21 14600 SCNN1A-10752 +CGCAGGCACCAGGGAAGGGGCA 22 14601 SCNN1A-10753 + GCGCAGGCACCAGGGAAGGGGCA23 14602 SCNN1A-10754 + GGCGCAGGCACCAGGGAAGGGGCA 24 14603 SCNN1A-10755 +AGGCGCAGGCACCAGGGA 18 14604 SCNN1A-10756 + CAGGCGCAGGCACCAGGGA 19 14605SCNN1A-6296 + CCAGGCGCAGGCACCAGGGA 20 10145 SCNN1A-10757 +UCCAGGCGCAGGCACCAGGGA 21 14606 SCNN1A-10758 + UUCCAGGCGCAGGCACCAGGGA 2214607 SCNN1A-10759 + CUUCCAGGCGCAGGCACCAGGGA 23 14608 SCNN1A-10760 +CCUUCCAGGCGCAGGCACCAGGGA 24 14609 SCNN1A-1452 + CUAACCGACCUGUAGGGA 185301 SCNN1A-1453 + ACUAACCGACCUGUAGGGA 19 5302 SCNN1A-1454 +GACUAACCGACCUGUAGGGA 20 5303 SCNN1A-1455 + GGACUAACCGACCUGUAGGGA 21 5304SCNN1A-1456 + GGGACUAACCGACCUGUAGGGA 22 5305 SCNN1A-1457 +AGGGACUAACCGACCUGUAGGGA 23 5306 SCNN1A-1458 + GAGGGACUAACCGACCUGUAGGGA24 5307 SCNN1A-10761 + AGUGAGCUCUACCUGGGA 18 14610 SCNN1A-10762 +CAGUGAGCUCUACCUGGGA 19 14611 SCNN1A-10763 + GCAGUGAGCUCUACCUGGGA 2014612 SCNN1A-10764 + AGCAGUGAGCUCUACCUGGGA 21 14613 SCNN1A-10765 +CAGCAGUGAGCUCUACCUGGGA 22 14614 SCNN1A-10766 + CCAGCAGUGAGCUCUACCUGGGA23 14615 SCNN1A-10767 + GCCAGCAGUGAGCUCUACCUGGGA 24 14616 SCNN1A-10768 +CAGCAUUCUAGACCUGGA 18 14617 SCNN1A-10769 + GCAGCAUUCUAGACCUGGA 19 14618SCNN1A-10770 + UGCAGCAUUCUAGACCUGGA 20 14619 SCNN1A-10771 +CUGCAGCAUUCUAGACCUGGA 21 14620 SCNN1A-10772 + GCUGCAGCAUUCUAGACCUGGA 2214621 SCNN1A-10773 + UGCUGCAGCAUUCUAGACCUGGA 23 14622 SCNN1A-10774 +GUGCUGCAGCAUUCUAGACCUGGA 24 14623 SCNN1A-1459 + CCCUUCAUGAGCCCUGGA 185308 SCNN1A-1460 + CCCCUUCAUGAGCCCUGGA 19 5309 SCNN1A-205 +UCCCCUUCAUGAGCCCUGGA 20 833 SCNN1A-1461 + UUCCCCUUCAUGAGCCCUGGA 21 5310SCNN1A-1462 + GUUCCCCUUCAUGAGCCCUGGA 22 5311 SCNN1A-1463 +UGUUCCCCUUCAUGAGCCCUGGA 23 5312 SCNN1A-1464 + UUGUUCCCCUUCAUGAGCCCUGGA24 5313 SCNN1A-10775 + UAUAGUUCUUUUUUAUGA 18 14624 SCNN1A-10776 +AUAUAGUUCUUUUUUAUGA 19 14625 SCNN1A-10777 + UAUAUAGUUCUUUUUUAUGA 2014626 SCNN1A-10778 + AUAUAUAGUUCUUUUUUAUGA 21 14627 SCNN1A-10779 +AAUAUAUAGUUCUUUUUUAUGA 22 14628 SCNN1A-10780 + AAAUAUAUAGUUCUUUUUUAUGA23 14629 SCNN1A-10781 + AAAAUAUAUAGUUCUUUUUUAUGA 24 14630 SCNN1A-10782 +UACAAUUUUUCAGCAAUA 18 14631 SCNN1A-10783 + GUACAAUUUUUCAGCAAUA 19 14632SCNN1A-10784 + AGUACAAUUUUUCAGCAAUA 20 14633 SCNN1A-10785 +CAGUACAAUUUUUCAGCAAUA 21 14634 SCNN1A-10786 + ACAGUACAAUUUUUCAGCAAUA 2214635 SCNN1A-10787 + CACAGUACAAUUUUUCAGCAAUA 23 14636 SCNN1A-10788 +UCACAGUACAAUUUUUCAGCAAUA 24 14637 SCNN1A-10789 + CAGCAAUACAGAAGUAUA 1814638 SCNN1A-10790 + UCAGCAAUACAGAAGUAUA 19 14639 SCNN1A-10791 +UUCAGCAAUACAGAAGUAUA 20 14640 SCNN1A-10792 + UUUCAGCAAUACAGAAGUAUA 2114641 SCNN1A-10793 + UUUUCAGCAAUACAGAAGUAUA 22 14642 SCNN1A-10794 +UUUUUCAGCAAUACAGAAGUAUA 23 14643 SCNN1A-10795 + AUUUUUCAGCAAUACAGAAGUAUA24 14644 SCNN1A-10796 + GCCACGUCCUGCCGGGUA 18 14645 SCNN1A-10797 +UGCCACGUCCUGCCGGGUA 19 14646 SCNN1A-6301 + CUGCCACGUCCUGCCGGGUA 20 10150SCNN1A-10798 + CCUGCCACGUCCUGCCGGGUA 21 14647 SCNN1A-10799 +CCCUGCCACGUCCUGCCGGGUA 22 14648 SCNN1A-10800 + ACCCUGCCACGUCCUGCCGGGUA23 14649 SCNN1A-10801 + GACCCUGCCACGUCCUGCCGGGUA 24 14650 SCNN1A-1478 +GUGUUGUUGCAGAAGAAC 18 5327 SCNN1A-1479 + GGUGUUGUUGCAGAAGAAC 19 5328SCNN1A-220 + UGGUGUUGUUGCAGAAGAAC 20 843 SCNN1A-1480 +GUGGUGUUGUUGCAGAAGAAC 21 5329 SCNN1A-1481 + GGUGGUGUUGUUGCAGAAGAAC 225330 SCNN1A-1482 + UGGUGGUGUUGUUGCAGAAGAAC 23 5331 SCNN1A-1483 +AUGGUGGUGUUGUUGCAGAAGAAC 24 5332 SCNN1A-10802 + CCUUCCAGGCGCAGGCAC 1814651 SCNN1A-10803 + CCCUUCCAGGCGCAGGCAC 19 14652 SCNN1A-10804 +ACCCUUCCAGGCGCAGGCAC 20 14653 SCNN1A-10805 + CACCCUUCCAGGCGCAGGCAC 2114654 SCNN1A-10806 + CCACCCUUCCAGGCGCAGGCAC 22 14655 SCNN1A-10807 +ACCACCCUUCCAGGCGCAGGCAC 23 14656 SCNN1A-10808 + GACCACCCUUCCAGGCGCAGGCAC24 14657 SCNN1A-10809 + AAAAUAGAAAUCUGAGAC 18 14658 SCNN1A-10810 +GAAAAUAGAAAUCUGAGAC 19 14659 SCNN1A-10811 + GGAAAAUAGAAAUCUGAGAC 2014660 SCNN1A-10812 + AGGAAAAUAGAAAUCUGAGAC 21 14661 SCNN1A-10813 +GAGGAAAAUAGAAAUCUGAGAC 22 14662 SCNN1A-10814 + UGAGGAAAAUAGAAAUCUGAGAC23 14663 SCNN1A-10815 + GUGAGGAAAAUAGAAAUCUGAGAC 24 14664 SCNN1A-10816 +UGCUGCAGCAUUCUAGAC 18 14665 SCNN1A-10817 + GUGCUGCAGCAUUCUAGAC 19 14666SCNN1A-10818 + AGUGCUGCAGCAUUCUAGAC 20 14667 SCNN1A-10819 +UAGUGCUGCAGCAUUCUAGAC 21 14668 SCNN1A-10820 + CUAGUGCUGCAGCAUUCUAGAC 2214669 SCNN1A-10821 + CCUAGUGCUGCAGCAUUCUAGAC 23 14670 SCNN1A-10822 +GCCUAGUGCUGCAGCAUUCUAGAC 24 14671 SCNN1A-10823 + AGUGAGCACCUCAGCACC 1814672 SCNN1A-10824 + CAGUGAGCACCUCAGCACC 19 14673 SCNN1A-10825 +CCAGUGAGCACCUCAGCACC 20 14674 SCNN1A-10826 + CCCAGUGAGCACCUCAGCACC 2114675 SCNN1A-10827 + GCCCAGUGAGCACCUCAGCACC 22 14676 SCNN1A-10828 +UGCCCAGUGAGCACCUCAGCACC 23 14677 SCNN1A-10829 + CUGCCCAGUGAGCACCUCAGCACC24 14678 SCNN1A-10830 + CUUCCAGGCGCAGGCACC 18 14679 SCNN1A-10831 +CCUUCCAGGCGCAGGCACC 19 14680 SCNN1A-6307 + CCCUUCCAGGCGCAGGCACC 20 10156SCNN1A-10832 + ACCCUUCCAGGCGCAGGCACC 21 14681 SCNN1A-10833 +CACCCUUCCAGGCGCAGGCACC 22 14682 SCNN1A-10834 + CCACCCUUCCAGGCGCAGGCACC23 14683 SCNN1A-10835 + ACCACCCUUCCAGGCGCAGGCACC 24 14684 SCNN1A-10836 +GCUGCAGCAUUCUAGACC 18 14685 SCNN1A-10837 + UGCUGCAGCAUUCUAGACC 19 14686SCNN1A-6310 + GUGCUGCAGCAUUCUAGACC 20 10159 SCNN1A-10838 +AGUGCUGCAGCAUUCUAGACC 21 14687 SCNN1A-10839 + UAGUGCUGCAGCAUUCUAGACC 2214688 SCNN1A-10840 + CUAGUGCUGCAGCAUUCUAGACC 23 14689 SCNN1A-10841 +CCUAGUGCUGCAGCAUUCUAGACC 24 14690 SCNN1A-10842 + CCAGCAGUGAGCUCUACC 1814691 SCNN1A-10843 + GCCAGCAGUGAGCUCUACC 19 14692 SCNN1A-6312 +UGCCAGCAGUGAGCUCUACC 20 10161 SCNN1A-1504 + UGUUCCCCUUCAUGAGCC 18 5353SCNN1A-1505 + UUGUUCCCCUUCAUGAGCC 19 5354 SCNN1A-207 +CUUGUUCCCCUUCAUGAGCC 20 834 SCNN1A-1506 + GCUUGUUCCCCUUCAUGAGCC 21 5355SCNN1A-1510 + CGCUUGUUCCCCUUCAUGAGCC 22 5359 SCNN1A-1511 +ACGCUUGUUCCCCUUCAUGAGCC 23 5360 SCNN1A-1512 + CACGCUUGUUCCCCUUCAUGAGCC24 5361 SCNN1A-1513 + AGGGCCUCCUCCUCCGCC 18 5362 SCNN1A-1514 +CAGGGCCUCCUCCUCCGCC 19 5363 SCNN1A-213 + UCAGGGCCUCCUCCUCCGCC 20 838SCNN1A-1515 + AUCAGGGCCUCCUCCUCCGCC 21 5364 SCNN1A-1516 +GAUCAGGGCCUCCUCCUCCGCC 22 5365 SCNN1A-1517 + CGAUCAGGGCCUCCUCCUCCGCC 235366 SCNN1A-1518 + UCGAUCAGGGCCUCCUCCUCCGCC 24 5367 SCNN1A-1519 +CAGAGCCACAGCACUGCC 18 5368 SCNN1A-1520 + GCAGAGCCACAGCACUGCC 19 5369SCNN1A-228 + UGCAGAGCCACAGCACUGCC 20 849 SCNN1A-1521 +GUGCAGAGCCACAGCACUGCC 21 5370 SCNN1A-1522 + GGUGCAGAGCCACAGCACUGCC 225371 SCNN1A-1523 + AGGUGCAGAGCCACAGCACUGCC 23 5372 SCNN1A-1524 +AAGGUGCAGAGCCACAGCACUGCC 24 5373 SCNN1A-1431 + GAGUGGACUGUGGAGGGC 185280 SCNN1A-1432 + GGAGUGGACUGUGGAGGGC 19 5281 SCNN1A-201 +UGGAGUGGACUGUGGAGGGC 20 830 SCNN1A-1358 + CUGGAGUGGACUGUGGAGGGC 21 5207SCNN1A-1359 + CCUGGAGUGGACUGUGGAGGGC 22 5208 SCNN1A-1360 +CCCUGGAGUGGACUGUGGAGGGC 23 5209 SCNN1A-1311 + GCCCUGGAGUGGACUGUGGAGGGC24 5160 SCNN1A-10844 + UCUAGACCUGGAGCGGGC 18 14693 SCNN1A-10845 +UUCUAGACCUGGAGCGGGC 19 14694 SCNN1A-10846 + AUUCUAGACCUGGAGCGGGC 2014695 SCNN1A-10847 + CAUUCUAGACCUGGAGCGGGC 21 14696 SCNN1A-10848 +GCAUUCUAGACCUGGAGCGGGC 22 14697 SCNN1A-10849 + AGCAUUCUAGACCUGGAGCGGGC23 14698 SCNN1A-10850 + CAGCAUUCUAGACCUGGAGCGGGC 24 14699 SCNN1A-1531 +GGUGCAGAUGGUCACUGC 18 5380 SCNN1A-1532 + GGGUGCAGAUGGUCACUGC 19 5381SCNN1A-38 + AGGGUGCAGAUGGUCACUGC 20 575 SCNN1A-1533 +GAGGGUGCAGAUGGUCACUGC 21 5382 SCNN1A-1534 + UGAGGGUGCAGAUGGUCACUGC 225383 SCNN1A-1535 + UUGAGGGUGCAGAUGGUCACUGC 23 5384 SCNN1A-1536 +AUUGAGGGUGCAGAUGGUCACUGC 24 5385 SCNN1A-1537 + UCCUCCGCCGUGGGCUGC 185386 SCNN1A-1538 + CUCCUCCGCCGUGGGCUGC 19 5387 SCNN1A-65 +CCUCCUCCGCCGUGGGCUGC 20 594 SCNN1A-1539 + UCCUCCUCCGCCGUGGGCUGC 21 5388SCNN1A-1540 + CUCCUCCUCCGCCGUGGGCUGC 22 5389 SCNN1A-1541 +CCUCCUCCUCCGCCGUGGGCUGC 23 5390 SCNN1A-1542 + GCCUCCUCCUCCGCCGUGGGCUGC24 5391 SCNN1A-1543 + GUCUUCAUGCGGUUGUGC 18 5392 SCNN1A-1544 +CGUCUUCAUGCGGUUGUGC 19 5393 SCNN1A-49 + CCGUCUUCAUGCGGUUGUGC 20 582SCNN1A-1545 + GCCGUCUUCAUGCGGUUGUGC 21 5394 SCNN1A-1546 +GGCCGUCUUCAUGCGGUUGUGC 22 5395 SCNN1A-1547 + AGGCCGUCUUCAUGCGGUUGUGC 235396 SCNN1A-1548 + AAGGCCGUCUUCAUGCGGUUGUGC 24 5397 SCNN1A-1556 +UCACGCUUGUUCCCCUUC 18 5405 SCNN1A-1557 + CUCACGCUUGUUCCCCUUC 19 5406SCNN1A-208 + CCUCACGCUUGUUCCCCUUC 20 835 SCNN1A-1558 +UCCUCACGCUUGUUCCCCUUC 21 5407 SCNN1A-1559 + CUCCUCACGCUUGUUCCCCUUC 225408 SCNN1A-1560 + GCUCCUCACGCUUGUUCCCCUUC 23 5409 SCNN1A-1561 +UGCUCCUCACGCUUGUUCCCCUUC 24 5410 SCNN1A-10851 + UCCUUUCCCUCCCCAAAG 1814700 SCNN1A-10852 + UUCCUUUCCCUCCCCAAAG 19 14701 SCNN1A-6330 +CUUCCUUUCCCUCCCCAAAG 20 10179 SCNN1A-10853 + CCUUCCUUUCCCUCCCCAAAG 2114702 SCNN1A-10854 + CCCUUCCUUUCCCUCCCCAAAG 22 14703 SCNN1A-10855 +CCCCUUCCUUUCCCUCCCCAAAG 23 14704 SCNN1A-10856 + UCCCCUUCCUUUCCCUCCCCAAAG24 14705 SCNN1A-1562 + AUGGUCACUGCGGGGAAG 18 5411 SCNN1A-1563 +GAUGGUCACUGCGGGGAAG 19 5412 SCNN1A-238 + AGAUGGUCACUGCGGGGAAG 20 858SCNN1A-1564 + CAGAUGGUCACUGCGGGGAAG 21 5413 SCNN1A-1565 +GCAGAUGGUCACUGCGGGGAAG 22 5414 SCNN1A-1566 + UGCAGAUGGUCACUGCGGGGAAG 235415 SCNN1A-1567 + GUGCAGAUGGUCACUGCGGGGAAG 24 5416 SCNN1A-10857 +GCACCAGGGAAGGGGCAG 18 14706 SCNN1A-10858 + GGCACCAGGGAAGGGGCAG 19 14707SCNN1A-6334 + AGGCACCAGGGAAGGGGCAG 20 10183 SCNN1A-10859 +CAGGCACCAGGGAAGGGGCAG 21 14708 SCNN1A-10860 + GCAGGCACCAGGGAAGGGGCAG 2214709 SCNN1A-10861 + CGCAGGCACCAGGGAAGGGGCAG 23 14710 SCNN1A-10862 +GCGCAGGCACCAGGGAAGGGGCAG 24 14711 SCNN1A-1568 + AUGGUGGUGUUGUUGCAG 185417 SCNN1A-1569 + GAUGGUGGUGUUGUUGCAG 19 5418 SCNN1A-221 +GGAUGGUGGUGUUGUUGCAG 20 844 SCNN1A-1570 + UGGAUGGUGGUGUUGUUGCAG 21 5419SCNN1A-1571 + GUGGAUGGUGGUGUUGUUGCAG 22 5420 SCNN1A-1572 +CGUGGAUGGUGGUGUUGUUGCAG 23 5421 SCNN1A-1573 + CCGUGGAUGGUGGUGUUGUUGCAG24 5422 SCNN1A-1574 + AAGACGAGCUUGUCCGAG 18 5423 SCNN1A-1575 +GAAGACGAGCUUGUCCGAG 19 5424 SCNN1A-236 + GGAAGACGAGCUUGUCCGAG 20 856SCNN1A-1576 + GGGAAGACGAGCUUGUCCGAG 21 5425 SCNN1A-1577 +GGGGAAGACGAGCUUGUCCGAG 22 5426 SCNN1A-1578 + CGGGGAAGACGAGCUUGUCCGAG 235427 SCNN1A-1579 + GCGGGGAAGACGAGCUUGUCCGAG 24 5428 SCNN1A-1580 +UUGAGGCUGACGGGGUAG 18 5429 SCNN1A-1581 + GUUGAGGCUGACGGGGUAG 19 5430SCNN1A-232 + UGUUGAGGCUGACGGGGUAG 20 853 SCNN1A-1582 +AUGUUGAGGCUGACGGGGUAG 21 5431 SCNN1A-1583 + GAUGUUGAGGCUGACGGGGUAG 225432 SCNN1A-1584 + UGAUGUUGAGGCUGACGGGGUAG 23 5433 SCNN1A-1585 +UUGAUGUUGAGGCUGACGGGGUAG 24 5434 SCNN1A-1586 + GAGCUCUCGGUAGGAGCG 185435 SCNN1A-1587 + AGAGCUCUCGGUAGGAGCG 19 5436 SCNN1A-216 +AAGAGCUCUCGGUAGGAGCG 20 840 SCNN1A-1588 + GAAGAGCUCUCGGUAGGAGCG 21 5437SCNN1A-1589 + CGAAGAGCUCUCGGUAGGAGCG 22 5438 SCNN1A-1590 +UCGAAGAGCUCUCGGUAGGAGCG 23 5439 SCNN1A-1591 + CUCGAAGAGCUCUCGGUAGGAGCG24 5440 SCNN1A-1592 + GUGCAGAUGGUCACUGCG 18 5441 SCNN1A-1593 +GGUGCAGAUGGUCACUGCG 19 5442 SCNN1A-39 + GGGUGCAGAUGGUCACUGCG 20 518SCNN1A-1594 + AGGGUGCAGAUGGUCACUGCG 21 5443 SCNN1A-1595 +GAGGGUGCAGAUGGUCACUGCG 22 5444 SCNN1A-1596 + UGAGGGUGCAGAUGGUCACUGCG 235445 SCNN1A-1597 + UUGAGGGUGCAGAUGGUCACUGCG 24 5446 SCNN1A-1598 +UUGUUGCAGAAGAACUCG 18 5447 SCNN1A-1599 + GUUGUUGCAGAAGAACUCG 19 5448SCNN1A-219 + UGUUGUUGCAGAAGAACUCG 20 842 SCNN1A-1600 +GUGUUGUUGCAGAAGAACUCG 21 5449 SCNN1A-1601 + GGUGUUGUUGCAGAAGAACUCG 225450 SCNN1A-1602 + UGGUGUUGUUGCAGAAGAACUCG 23 5451 SCNN1A-1603 +GUGGUGUUGUUGCAGAAGAACUCG 24 5452 SCNN1A-10863 + CAUGCACUAUCCUCUAGG 1814712 SCNN1A-10864 + UCAUGCACUAUCCUCUAGG 19 14713 SCNN1A-10865 +AUCAUGCACUAUCCUCUAGG 20 14714 SCNN1A-10866 + GAUCAUGCACUAUCCUCUAGG 2114715 SCNN1A-10867 + GGAUCAUGCACUAUCCUCUAGG 22 14716 SCNN1A-10868 +AGGAUCAUGCACUAUCCUCUAGG 23 14717 SCNN1A-10869 + CAGGAUCAUGCACUAUCCUCUAGG24 14718 SCNN1A-1611 + AGCUCUCGGUAGGAGCGG 18 5460 SCNN1A-1612 +GAGCUCUCGGUAGGAGCGG 19 5461 SCNN1A-60 + AGAGCUCUCGGUAGGAGCGG 20 590SCNN1A-1613 + AAGAGCUCUCGGUAGGAGCGG 21 5462 SCNN1A-1614 +GAAGAGCUCUCGGUAGGAGCGG 22 5463 SCNN1A-1615 + CGAAGAGCUCUCGGUAGGAGCGG 235464 SCNN1A-1616 + UCGAAGAGCUCUCGGUAGGAGCGG 24 5465 SCNN1A-1617 +AACUCGAAGAGCUCUCGG 18 5466 SCNN1A-1618 + GAACUCGAAGAGCUCUCGG 19 5467SCNN1A-218 + AGAACUCGAAGAGCUCUCGG 20 841 SCNN1A-1619 +AAGAACUCGAAGAGCUCUCGG 21 5468 SCNN1A-1620 + GAAGAACUCGAAGAGCUCUCGG 225469 SCNN1A-1621 + AGAAGAACUCGAAGAGCUCUCGG 23 5470 SCNN1A-1622 +CAGAAGAACUCGAAGAGCUCUCGG 24 5471 SCNN1A-10870 + CAGGCGCAGGCACCAGGG 1814719 SCNN1A-10871 + CCAGGCGCAGGCACCAGGG 19 14720 SCNN1A-10872 +UCCAGGCGCAGGCACCAGGG 20 14721 SCNN1A-10873 + UUCCAGGCGCAGGCACCAGGG 2114722 SCNN1A-10874 + CUUCCAGGCGCAGGCACCAGGG 22 14723 SCNN1A-10875 +CCUUCCAGGCGCAGGCACCAGGG 23 14724 SCNN1A-10876 + CCCUUCCAGGCGCAGGCACCAGGG24 14725 SCNN1A-10877 + CAGGCACCAGGGAAGGGG 18 14726 SCNN1A-10878 +GCAGGCACCAGGGAAGGGG 19 14727 SCNN1A-10879 + CGCAGGCACCAGGGAAGGGG 2014728 SCNN1A-10880 + GCGCAGGCACCAGGGAAGGGG 21 14729 SCNN1A-10881 +GGCGCAGGCACCAGGGAAGGGG 22 14730 SCNN1A-10882 + AGGCGCAGGCACCAGGGAAGGGG23 14731 SCNN1A-10883 + CAGGCGCAGGCACCAGGGAAGGGG 24 14732 SCNN1A-10884 +UGCAAUGCCUGGUCUGGG 18 14733 SCNN1A-10885 + UUGCAAUGCCUGGUCUGGG 19 14734SCNN1A-10886 + AUUGCAAUGCCUGGUCUGGG 20 14735 SCNN1A-10887 +AAUUGCAAUGCCUGGUCUGGG 21 14736 SCNN1A-10888 + GAAUUGCAAUGCCUGGUCUGGG 2214737 SCNN1A-10889 + AGAAUUGCAAUGCCUGGUCUGGG 23 14738 SCNN1A-10890 +AAGAAUUGCAAUGCCUGGUCUGGG 24 14739 SCNN1A-1637 + UCCGAGUUGAGGUUGAUG 185486 SCNN1A-1638 + GUCCGAGUUGAGGUUGAUG 19 5487 SCNN1A-235 +UGUCCGAGUUGAGGUUGAUG 20 855 SCNN1A-1639 + UUGUCCGAGUUGAGGUUGAUG 21 5488SCNN1A-1640 + CUUGUCCGAGUUGAGGUUGAUG 22 5489 SCNN1A-1641 +GCUUGUCCGAGUUGAGGUUGAUG 23 5490 SCNN1A-1642 + AGCUUGUCCGAGUUGAGGUUGAUG24 5491 SCNN1A-1643 + GGGUGCAGAUGGUCACUG 18 5492 SCNN1A-1644 +AGGGUGCAGAUGGUCACUG 19 5493 SCNN1A-37 + GAGGGUGCAGAUGGUCACUG 20 517SCNN1A-1645 + UGAGGGUGCAGAUGGUCACUG 21 5494 SCNN1A-1646 +UUGAGGGUGCAGAUGGUCACUG 22 5495 SCNN1A-1647 + AUUGAGGGUGCAGAUGGUCACUG 235496 SCNN1A-1648 + GAUUGAGGGUGCAGAUGGUCACUG 24 5497 SCNN1A-1649 +GAGCCCUGGAGUGGACUG 18 5498 SCNN1A-1650 + UGAGCCCUGGAGUGGACUG 19 5499SCNN1A-74 + AUGAGCCCUGGAGUGGACUG 20 601 SCNN1A-1651 +CAUGAGCCCUGGAGUGGACUG 21 5500 SCNN1A-1652 + UCAUGAGCCCUGGAGUGGACUG 225501 SCNN1A-1653 + UUCAUGAGCCCUGGAGUGGACUG 23 5502 SCNN1A-1654 +CUUCAUGAGCCCUGGAGUGGACUG 24 5503 SCNN1A-1655 + GAGGGACUAACCGACCUG 185504 SCNN1A-1656 + AGAGGGACUAACCGACCUG 19 5505 SCNN1A-1657 +CAGAGGGACUAACCGACCUG 20 5506 SCNN1A-1658 + GCAGAGGGACUAACCGACCUG 21 5507SCNN1A-1659 + GGCAGAGGGACUAACCGACCUG 22 5508 SCNN1A-1660 +GGGCAGAGGGACUAACCGACCUG 23 5509 SCNN1A-1661 + GGGGCAGAGGGACUAACCGACCUG24 5510 SCNN1A-1662 + AGGUUGAUGUUGAGGCUG 18 5511 SCNN1A-1663 +GAGGUUGAUGUUGAGGCUG 19 5512 SCNN1A-234 + UGAGGUUGAUGUUGAGGCUG 20 854SCNN1A-1664 + UUGAGGUUGAUGUUGAGGCUG 21 5513 SCNN1A-1665 +GUUGAGGUUGAUGUUGAGGCUG 22 5514 SCNN1A-1666 + AGUUGAGGUUGAUGUUGAGGCUG 235515 SCNN1A-1667 + GAGUUGAGGUUGAUGUUGAGGCUG 24 5516 SCNN1A-1675 +CUCCUCCGCCGUGGGCUG 18 5524 SCNN1A-1676 + CCUCCUCCGCCGUGGGCUG 19 5525SCNN1A-212 + UCCUCCUCCGCCGUGGGCUG 20 837 SCNN1A-1677 +CUCCUCCUCCGCCGUGGGCUG 21 5526 SCNN1A-1678 + CCUCCUCCUCCGCCGUGGGCUG 225527 SCNN1A-1679 + GCCUCCUCCUCCGCCGUGGGCUG 23 5528 SCNN1A-1680 +GGCCUCCUCCUCCGCCGUGGGCUG 24 5529 SCNN1A-1681 + UACAUCAUGCCAAAGGUG 185530 SCNN1A-1682 + GUACAUCAUGCCAAAGGUG 19 5531 SCNN1A-229 +AGUACAUCAUGCCAAAGGUG 20 850 SCNN1A-1683 + CAGUACAUCAUGCCAAAGGUG 21 5532SCNN1A-1684 + CCAGUACAUCAUGCCAAAGGUG 22 5533 SCNN1A-1685 +GCCAGUACAUCAUGCCAAAGGUG 23 5534 SCNN1A-1686 + UGCCAGUACAUCAUGCCAAAGGUG24 5535 SCNN1A-1687 + GCCCUGGAGUGGACUGUG 18 5536 SCNN1A-1688 +AGCCCUGGAGUGGACUGUG 19 5537 SCNN1A-202 + GAGCCCUGGAGUGGACUGUG 20 831SCNN1A-1689 + UGAGCCCUGGAGUGGACUGUG 21 5538 SCNN1A-1690 +AUGAGCCCUGGAGUGGACUGUG 22 5539 SCNN1A-1691 + CAUGAGCCCUGGAGUGGACUGUG 235540 SCNN1A-1692 + UCAUGAGCCCUGGAGUGGACUGUG 24 5541 SCNN1A-1693 +CGUCUUCAUGCGGUUGUG 18 5542 SCNN1A-1694 + CCGUCUUCAUGCGGUUGUG 19 5543SCNN1A-227 + GCCGUCUUCAUGCGGUUGUG 20 848 SCNN1A-1695 +GGCCGUCUUCAUGCGGUUGUG 21 5544 SCNN1A-1696 + AGGCCGUCUUCAUGCGGUUGUG 225545 SCNN1A-1697 + AAGGCCGUCUUCAUGCGGUUGUG 23 5546 SCNN1A-1698 +GAAGGCCGUCUUCAUGCGGUUGUG 24 5547 SCNN1A-10891 + AACAGGCUUGGUGUUGUG 1814740 SCNN1A-10892 + GAACAGGCUUGGUGUUGUG 19 14741 SCNN1A-6347 +AGAACAGGCUUGGUGUUGUG 20 10196 SCNN1A-10893 + UAGAACAGGCUUGGUGUUGUG 2114742 SCNN1A-10894 + CUAGAACAGGCUUGGUGUUGUG 22 14743 SCNN1A-10895 +GCUAGAACAGGCUUGGUGUUGUG 23 14744 SCNN1A-10896 + GGCUAGAACAGGCUUGGUGUUGUG24 14745 SCNN1A-1705 + UGGAUGGUGGUGUUGUUG 18 5554 SCNN1A-1706 +GUGGAUGGUGGUGUUGUUG 19 5555 SCNN1A-222 + CGUGGAUGGUGGUGUUGUUG 20 845SCNN1A-1707 + CCGUGGAUGGUGGUGUUGUUG 21 5556 SCNN1A-1708 +GCCGUGGAUGGUGGUGUUGUUG 22 5557 SCNN1A-1709 + CGCCGUGGAUGGUGGUGUUGUUG 235558 SCNN1A-1710 + GCGCCGUGGAUGGUGGUGUUGUUG 24 5559 SCNN1A-10897 +UGUGAGGAAAAUAGAAAU 18 14746 SCNN1A-10898 + UUGUGAGGAAAAUAGAAAU 19 14747SCNN1A-10899 + GUUGUGAGGAAAAUAGAAAU 20 14748 SCNN1A-10900 +UGUUGUGAGGAAAAUAGAAAU 21 14749 SCNN1A-10901 + GUGUUGUGAGGAAAAUAGAAAU 2214750 SCNN1A-10902 + GGUGUUGUGAGGAAAAUAGAAAU 23 14751 SCNN1A-10903 +UGGUGUUGUGAGGAAAAUAGAAAU 24 14752 SCNN1A-10904 + GGGUAUGGGAGUGGCAAU 1814753 SCNN1A-10905 + CGGGUAUGGGAGUGGCAAU 19 14754 SCNN1A-10906 +CCGGGUAUGGGAGUGGCAAU 20 14755 SCNN1A-10907 + GCCGGGUAUGGGAGUGGCAAU 2114756 SCNN1A-10908 + UGCCGGGUAUGGGAGUGGCAAU 22 14757 SCNN1A-10909 +CUGCCGGGUAUGGGAGUGGCAAU 23 14758 SCNN1A-10910 + CCUGCCGGGUAUGGGAGUGGCAAU24 14759 SCNN1A-1711 + GGAGCGGUGGAACUCGAU 18 5560 SCNN1A-1712 +AGGAGCGGUGGAACUCGAU 19 5561 SCNN1A-214 + UAGGAGCGGUGGAACUCGAU 20 839SCNN1A-1713 + GUAGGAGCGGUGGAACUCGAU 21 5562 SCNN1A-1714 +GGUAGGAGCGGUGGAACUCGAU 22 5563 SCNN1A-1715 + CGGUAGGAGCGGUGGAACUCGAU 235564 SCNN1A-1716 + UCGGUAGGAGCGGUGGAACUCGAU 24 5565 SCNN1A-1723 +AGGGUGCAGAUGGUCACU 18 5572 SCNN1A-1724 + GAGGGUGCAGAUGGUCACU 19 5573SCNN1A-242 + UGAGGGUGCAGAUGGUCACU 20 859 SCNN1A-1725 +UUGAGGGUGCAGAUGGUCACU 21 5574 SCNN1A-1726 + AUUGAGGGUGCAGAUGGUCACU 225575 SCNN1A-1727 + GAUUGAGGGUGCAGAUGGUCACU 23 5576 SCNN1A-1728 +GGAUUGAGGGUGCAGAUGGUCACU 24 5577 SCNN1A-1729 + UGAGCCCUGGAGUGGACU 185578 SCNN1A-1730 + AUGAGCCCUGGAGUGGACU 19 5579 SCNN1A-204 +CAUGAGCCCUGGAGUGGACU 20 832 SCNN1A-1731 + UCAUGAGCCCUGGAGUGGACU 21 5580SCNN1A-1732 + UUCAUGAGCCCUGGAGUGGACU 22 5581 SCNN1A-1733 +CUUCAUGAGCCCUGGAGUGGACU 23 5582 SCNN1A-1734 + CCUUCAUGAGCCCUGGAGUGGACU24 5583 SCNN1A-1748 + UCUUCAUGCGGUUGUGCU 18 5597 SCNN1A-1749 +GUCUUCAUGCGGUUGUGCU 19 5598 SCNN1A-50 + CGUCUUCAUGCGGUUGUGCU 20 583SCNN1A-1750 + CCGUCUUCAUGCGGUUGUGCU 21 5599 SCNN1A-1751 +GCCGUCUUCAUGCGGUUGUGCU 22 5600 SCNN1A-1752 + GGCCGUCUUCAUGCGGUUGUGCU 235601 SCNN1A-1753 + AGGCCGUCUUCAUGCGGUUGUGCU 24 5602 SCNN1A-10911 +UUAUUUUCUUAUUUAUCU 18 14760 SCNN1A-10912 + UUUAUUUUCUUAUUUAUCU 19 14761SCNN1A-10913 + UUUUAUUUUCUUAUUUAUCU 20 14762 SCNN1A-10914 +CUUUUAUUUUCUUAUUUAUCU 21 14763 SCNN1A-10915 + GCUUUUAUUUUCUUAUUUAUCU 2214764 SCNN1A-10916 + UGCUUUUAUUUUCUUAUUUAUCU 23 14765 SCNN1A-10917 +UUGCUUUUAUUUUCUUAUUUAUCU 24 14766 SCNN1A-1754 + GGGUAGCUGAAGUACUCU 185603 SCNN1A-1755 + GGGGUAGCUGAAGUACUCU 19 5604 SCNN1A-231 +CGGGGUAGCUGAAGUACUCU 20 852 SCNN1A-1756 + ACGGGGUAGCUGAAGUACUCU 21 5605SCNN1A-1757 + GACGGGGUAGCUGAAGUACUCU 22 5606 SCNN1A-1758 +UGACGGGGUAGCUGAAGUACUCU 23 5607 SCNN1A-1759 + CUGACGGGGUAGCUGAAGUACUCU24 5608 SCNN1A-1760 + UGCUGGGGCGCCGCAGGU 18 5609 SCNN1A-1761 +CUGCUGGGGCGCCGCAGGU 19 5610 SCNN1A-210 + GCUGCUGGGGCGCCGCAGGU 20 836SCNN1A-1762 + GGCUGCUGGGGCGCCGCAGGU 21 5611 SCNN1A-1763 +GGGCUGCUGGGGCGCCGCAGGU 22 5612 SCNN1A-1764 + UGGGCUGCUGGGGCGCCGCAGGU 235613 SCNN1A-1765 + GUGGGCUGCUGGGGCGCCGCAGGU 24 5614 SCNN1A-10918 +CAGUUCCCACCCUCAGGU 18 14767 SCNN1A-10919 + UCAGUUCCCACCCUCAGGU 19 14768SCNN1A-10920 + GUCAGUUCCCACCCUCAGGU 20 14769 SCNN1A-10921 +UGUCAGUUCCCACCCUCAGGU 21 14770 SCNN1A-10922 + GUGUCAGUUCCCACCCUCAGGU 2214771 SCNN1A-10923 + GGUGUCAGUUCCCACCCUCAGGU 23 14772 SCNN1A-10924 +GGGUGUCAGUUCCCACCCUCAGGU 24 14773 SCNN1A-1766 + ACUCGAAGAGCUCUCGGU 185615 SCNN1A-1767 + AACUCGAAGAGCUCUCGGU 19 5616 SCNN1A-58 +GAACUCGAAGAGCUCUCGGU 20 524 SCNN1A-1768 + AGAACUCGAAGAGCUCUCGGU 21 5617SCNN1A-1769 + AAGAACUCGAAGAGCUCUCGGU 22 5618 SCNN1A-1770 +GAAGAACUCGAAGAGCUCUCGGU 23 5619 SCNN1A-1771 + AGAAGAACUCGAAGAGCUCUCGGU24 5620 SCNN1A-10925 + UGCCACGUCCUGCCGGGU 18 14774 SCNN1A-10926 +CUGCCACGUCCUGCCGGGU 19 14775 SCNN1A-10927 + CCUGCCACGUCCUGCCGGGU 2014776 SCNN1A-10928 + CCCUGCCACGUCCUGCCGGGU 21 14777 SCNN1A-10929 +ACCCUGCCACGUCCUGCCGGGU 22 14778 SCNN1A-10930 + GACCCUGCCACGUCCUGCCGGGU23 14779 SCNN1A-10931 + UGACCCUGCCACGUCCUGCCGGGU 24 14780 SCNN1A-10932 +AGAAUUGCAAUGCCUGGU 18 14781 SCNN1A-10933 + AAGAAUUGCAAUGCCUGGU 19 14782SCNN1A-10934 + GAAGAAUUGCAAUGCCUGGU 20 14783 SCNN1A-10935 +AGAAGAAUUGCAAUGCCUGGU 21 14784 SCNN1A-10936 + GAGAAGAAUUGCAAUGCCUGGU 2214785 SCNN1A-10937 + UGAGAAGAAUUGCAAUGCCUGGU 23 14786 SCNN1A-10938 +GUGAGAAGAAUUGCAAUGCCUGGU 24 14787 SCNN1A-10939 + UGAGACCUGGACUUUGGU 1814788 SCNN1A-10940 + CUGAGACCUGGACUUUGGU 19 14789 SCNN1A-10941 +UCUGAGACCUGGACUUUGGU 20 14790 SCNN1A-10942 + AUCUGAGACCUGGACUUUGGU 2114791 SCNN1A-10943 + AAUCUGAGACCUGGACUUUGGU 22 14792 SCNN1A-10944 +AAAUCUGAGACCUGGACUUUGGU 23 14793 SCNN1A-10945 + GAAAUCUGAGACCUGGACUUUGGU24 14794 SCNN1A-10946 + GAACAGGCUUGGUGUUGU 18 14795 SCNN1A-10947 +AGAACAGGCUUGGUGUUGU 19 14796 SCNN1A-10948 + UAGAACAGGCUUGGUGUUGU 2014797 SCNN1A-10949 + CUAGAACAGGCUUGGUGUUGU 21 14798 SCNN1A-10950 +GCUAGAACAGGCUUGGUGUUGU 22 14799 SCNN1A-10951 + GGCUAGAACAGGCUUGGUGUUGU23 14800 SCNN1A-10952 + GGGCUAGAACAGGCUUGGUGUUGU 24 14801 SCNN1A-1784 +GCUGGGGCGCCGCAGGUU 18 5633 SCNN1A-1785 + UGCUGGGGCGCCGCAGGUU 19 5634SCNN1A-69 + CUGCUGGGGCGCCGCAGGUU 20 597 SCNN1A-1786 +GCUGCUGGGGCGCCGCAGGUU 21 5635 SCNN1A-1787 + GGCUGCUGGGGCGCCGCAGGUU 225636 SCNN1A-1788 + GGGCUGCUGGGGCGCCGCAGGUU 23 5637 SCNN1A-1789 +UGGGCUGCUGGGGCGCCGCAGGUU 24 5638 SCNN1A-10953 + UAGAACAGGCUUGGUGUU 1814802 SCNN1A-10954 + CUAGAACAGGCUUGGUGUU 19 14803 SCNN1A-10955 +GCUAGAACAGGCUUGGUGUU 20 14804 SCNN1A-10956 + GGCUAGAACAGGCUUGGUGUU 2114805 SCNN1A-10957 + GGGCUAGAACAGGCUUGGUGUU 22 14806 SCNN1A-10958 +CGGGCUAGAACAGGCUUGGUGUU 23 14807 SCNN1A-10959 + GCGGGCUAGAACAGGCUUGGUGUU24 14808 SCNN1A-10960 − AGAAAAUAAAAGCAAAAA 18 14809 SCNN1A-10961 −AAGAAAAUAAAAGCAAAAA 19 14810 SCNN1A-6277 − UAAGAAAAUAAAAGCAAAAA 20 10126SCNN1A-10962 − AUAAGAAAAUAAAAGCAAAAA 21 14811 SCNN1A-10963 −AAUAAGAAAAUAAAAGCAAAAA 22 14812 SCNN1A-10964 − AAAUAAGAAAAUAAAAGCAAAAA23 14813 SCNN1A-10965 − UAAAUAAGAAAAUAAAAGCAAAAA 24 14814 SCNN1A-10966 −AAGAAAAUAAAAGCAAAA 18 14815 SCNN1A-10967 − UAAGAAAAUAAAAGCAAAA 19 14816SCNN1A-10968 − AUAAGAAAAUAAAAGCAAAA 20 14817 SCNN1A-10969 −AAUAAGAAAAUAAAAGCAAAA 21 14818 SCNN1A-10970 − AAAUAAGAAAAUAAAAGCAAAA 2214819 SCNN1A-10971 − UAAAUAAGAAAAUAAAAGCAAAA 23 14820 SCNN1A-10972 −AUAAAUAAGAAAAUAAAAGCAAAA 24 14821 SCNN1A-10973 − AUGGUCUCUGUCAUAAAA 1814822 SCNN1A-10974 − CAUGGUCUCUGUCAUAAAA 19 14823 SCNN1A-10975 −GCAUGGUCUCUGUCAUAAAA 20 14824 SCNN1A-10976 − AGCAUGGUCUCUGUCAUAAAA 2114825 SCNN1A-10977 − UAGCAUGGUCUCUGUCAUAAAA 22 14826 SCNN1A-10978 −AUAGCAUGGUCUCUGUCAUAAAA 23 14827 SCNN1A-10979 − UAUAGCAUGGUCUCUGUCAUAAAA24 14828 SCNN1A-10980 − UAAAAGAUCAUCUUUAAA 18 14829 SCNN1A-10981 −UUAAAAGAUCAUCUUUAAA 19 14830 SCNN1A-10982 − UUUAAAAGAUCAUCUUUAAA 2014831 SCNN1A-10983 − CUUUAAAAGAUCAUCUUUAAA 21 14832 SCNN1A-10984 −ACUUUAAAAGAUCAUCUUUAAA 22 14833 SCNN1A-10985 − CACUUUAAAAGAUCAUCUUUAAA23 14834 SCNN1A-10986 − ACACUUUAAAAGAUCAUCUUUAAA 24 14835 SCNN1A-10987 −UUUGGGGAGGGAAAGGAA 18 14836 SCNN1A-10988 − CUUUGGGGAGGGAAAGGAA 19 14837SCNN1A-6283 − CCUUUGGGGAGGGAAAGGAA 20 10132 SCNN1A-10989 −CCCUUUGGGGAGGGAAAGGAA 21 14838 SCNN1A-10990 − CCCCUUUGGGGAGGGAAAGGAA 2214839 SCNN1A-10991 − UCCCCUUUGGGGAGGGAAAGGAA 23 14840 SCNN1A-10992 −CUCCCCUUUGGGGAGGGAAAGGAA 24 14841 SCNN1A-10993 − UCCCCUUUGGGGAGGGAA 1814842 SCNN1A-10994 − CUCCCCUUUGGGGAGGGAA 19 14843 SCNN1A-6285 −GCUCCCCUUUGGGGAGGGAA 20 10134 SCNN1A-10995 − GGCUCCCCUUUGGGGAGGGAA 2114844 SCNN1A-10996 − UGGCUCCCCUUUGGGGAGGGAA 22 14845 SCNN1A-10997 −GUGGCUCCCCUUUGGGGAGGGAA 23 14846 SCNN1A-10998 − GGUGGCUCCCCUUUGGGGAGGGAA24 14847 SCNN1A-1796 − CACUCCAGGGCUCAUGAA 18 5645 SCNN1A-1797 −CCACUCCAGGGCUCAUGAA 19 5646 SCNN1A-11 − UCCACUCCAGGGCUCAUGAA 20 560SCNN1A-1798 − GUCCACUCCAGGGCUCAUGAA 21 5647 SCNN1A-1799 −AGUCCACUCCAGGGCUCAUGAA 22 5648 SCNN1A-1800 − CAGUCCACUCCAGGGCUCAUGAA 235649 SCNN1A-1801 − ACAGUCCACUCCAGGGCUCAUGAA 24 5650 SCNN1A-10999 −GGAAAGGAAGGGGACUAA 18 14848 SCNN1A-11000 − GGGAAAGGAAGGGGACUAA 19 14849SCNN1A-6288 − AGGGAAAGGAAGGGGACUAA 20 10137 SCNN1A-11001 −GAGGGAAAGGAAGGGGACUAA 21 14850 SCNN1A-11002 − GGAGGGAAAGGAAGGGGACUAA 2214851 SCNN1A-11003 − GGGAGGGAAAGGAAGGGGACUAA 23 14852 SCNN1A-11004 −GGGGAGGGAAAGGAAGGGGACUAA 24 14853 SCNN1A-11005 − AGGGUGCUGAGGUGCUCA 1814854 SCNN1A-11006 − CAGGGUGCUGAGGUGCUCA 19 14855 SCNN1A-11007 −CCAGGGUGCUGAGGUGCUCA 20 14856 SCNN1A-11008 − UCCAGGGUGCUGAGGUGCUCA 2114857 SCNN1A-11009 − GUCCAGGGUGCUGAGGUGCUCA 22 14858 SCNN1A-11010 −GGUCCAGGGUGCUGAGGUGCUCA 23 14859 SCNN1A-11011 − UGGUCCAGGGUGCUGAGGUGCUCA24 14860 SCNN1A-11012 − CUUUGGGGAGGGAAAGGA 18 14861 SCNN1A-11013 −CCUUUGGGGAGGGAAAGGA 19 14862 SCNN1A-6295 − CCCUUUGGGGAGGGAAAGGA 20 10144SCNN1A-11014 − CCCCUUUGGGGAGGGAAAGGA 21 14863 SCNN1A-11015 −UCCCCUUUGGGGAGGGAAAGGA 22 14864 SCNN1A-11016 − CUCCCCUUUGGGGAGGGAAAGGA23 14865 SCNN1A-11017 − GCUCCCCUUUGGGGAGGGAAAGGA 24 14866 SCNN1A-11018 −CUCCCCUUUGGGGAGGGA 18 14867 SCNN1A-11019 − GCUCCCCUUUGGGGAGGGA 19 14868SCNN1A-11020 − GGCUCCCCUUUGGGGAGGGA 20 14869 SCNN1A-11021 −UGGCUCCCCUUUGGGGAGGGA 21 14870 SCNN1A-11022 − GUGGCUCCCCUUUGGGGAGGGA 2214871 SCNN1A-11023 − GGUGGCUCCCCUUUGGGGAGGGA 23 14872 SCNN1A-11024 −UGGUGGCUCCCCUUUGGGGAGGGA 24 14873 SCNN1A-11025 − GUGGCUCCCCUUUGGGGA 1814874 SCNN1A-11026 − GGUGGCUCCCCUUUGGGGA 19 14875 SCNN1A-6297 −UGGUGGCUCCCCUUUGGGGA 20 10146 SCNN1A-11027 − AUGGUGGCUCCCCUUUGGGGA 2114876 SCNN1A-11028 − UAUGGUGGCUCCCCUUUGGGGA 22 14877 SCNN1A-11029 −UUAUGGUGGCUCCCCUUUGGGGA 23 14878 SCNN1A-11030 − AUUAUGGUGGCUCCCCUUUGGGGA24 14879 SCNN1A-1833 − CCACUCCAGGGCUCAUGA 18 5682 SCNN1A-1834 −UCCACUCCAGGGCUCAUGA 19 5683 SCNN1A-10 − GUCCACUCCAGGGCUCAUGA 20 505SCNN1A-1835 − AGUCCACUCCAGGGCUCAUGA 21 5684 SCNN1A-1836 −CAGUCCACUCCAGGGCUCAUGA 22 5685 SCNN1A-1837 − ACAGUCCACUCCAGGGCUCAUGA 235686 SCNN1A-1838 − CACAGUCCACUCCAGGGCUCAUGA 24 5687 SCNN1A-11031 −GGGAAAGGAAGGGGACUA 18 14880 SCNN1A-11032 − AGGGAAAGGAAGGGGACUA 19 14881SCNN1A-6300 − GAGGGAAAGGAAGGGGACUA 20 10149 SCNN1A-11033 −GGAGGGAAAGGAAGGGGACUA 21 14882 SCNN1A-11034 − GGGAGGGAAAGGAAGGGGACUA 2214883 SCNN1A-11035 − GGGGAGGGAAAGGAAGGGGACUA 23 14884 SCNN1A-11036 −UGGGGAGGGAAAGGAAGGGGACUA 24 14885 SCNN1A-1851 − CGAGUUCCACCGCUCCUA 185700 SCNN1A-1852 − UCGAGUUCCACCGCUCCUA 19 5701 SCNN1A-190 −AUCGAGUUCCACCGCUCCUA 20 820 SCNN1A-1853 − GAUCGAGUUCCACCGCUCCUA 21 5702SCNN1A-1854 − UGAUCGAGUUCCACCGCUCCUA 22 5703 SCNN1A-1855 −CUGAUCGAGUUCCACCGCUCCUA 23 5704 SCNN1A-1856 − CCUGAUCGAGUUCCACCGCUCCUA24 5705 SCNN1A-1857 − CUCAACAUCAACCUCAAC 18 5706 SCNN1A-1858 −CCUCAACAUCAACCUCAAC 19 5707 SCNN1A-198 − GCCUCAACAUCAACCUCAAC 20 827SCNN1A-1859 − AGCCUCAACAUCAACCUCAAC 21 5708 SCNN1A-1860 −CAGCCUCAACAUCAACCUCAAC 22 5709 SCNN1A-1861 − UCAGCCUCAACAUCAACCUCAAC 235710 SCNN1A-1862 − GUCAGCCUCAACAUCAACCUCAAC 24 5711 SCNN1A-11037 −GCAGGCAGAGCCUCAGAC 18 14886 SCNN1A-11038 − GGCAGGCAGAGCCUCAGAC 19 14887SCNN1A-11039 − GGGCAGGCAGAGCCUCAGAC 20 14888 SCNN1A-11040 −UGGGCAGGCAGAGCCUCAGAC 21 14889 SCNN1A-11041 − CUGGGCAGGCAGAGCCUCAGAC 2214890 SCNN1A-11042 − ACUGGGCAGGCAGAGCCUCAGAC 23 14891 SCNN1A-11043 −CACUGGGCAGGCAGAGCCUCAGAC 24 14892 SCNN1A-1870 − AGUUCCACCGCUCCUACC 185719 SCNN1A-1871 − GAGUUCCACCGCUCCUACC 19 5720 SCNN1A-191 −CGAGUUCCACCGCUCCUACC 20 821 SCNN1A-1872 − UCGAGUUCCACCGCUCCUACC 21 5721SCNN1A-1873 − AUCGAGUUCCACCGCUCCUACC 22 5722 SCNN1A-1874 −GAUCGAGUUCCACCGCUCCUACC 23 5723 SCNN1A-1875 − UGAUCGAGUUCCACCGCUCCUACC24 5724 SCNN1A-11044 − UGCUGCUGUACUCCAGCC 18 14893 SCNN1A-11045 −AUGCUGCUGUACUCCAGCC 19 14894 SCNN1A-11046 − CAUGCUGCUGUACUCCAGCC 2014895 SCNN1A-11047 − UCAUGCUGCUGUACUCCAGCC 21 14896 SCNN1A-11048 −AUCAUGCUGCUGUACUCCAGCC 22 14897 SCNN1A-11049 − GAUCAUGCUGCUGUACUCCAGCC23 14898 SCNN1A-11050 − UGAUCAUGCUGCUGUACUCCAGCC 24 14899 SCNN1A-11051 −UUCCCUGGUGCCUGCGCC 18 14900 SCNN1A-11052 − CUUCCCUGGUGCCUGCGCC 19 14901SCNN1A-6315 − CCUUCCCUGGUGCCUGCGCC 20 10164 SCNN1A-11053 −CCCUUCCCUGGUGCCUGCGCC 21 14902 SCNN1A-11054 − CCCCUUCCCUGGUGCCUGCGCC 2214903 SCNN1A-11055 − GCCCCUUCCCUGGUGCCUGCGCC 23 14904 SCNN1A-11056 −UGCCCCUUCCCUGGUGCCUGCGCC 24 14905 SCNN1A-1883 − AGGAGCAGGGGCUGGGCC 185732 SCNN1A-1884 − GAGGAGCAGGGGCUGGGCC 19 5733 SCNN1A-182 −UGAGGAGCAGGGGCUGGGCC 20 815 SCNN1A-1885 − GUGAGGAGCAGGGGCUGGGCC 21 5734SCNN1A-1886 − CGUGAGGAGCAGGGGCUGGGCC 22 5735 SCNN1A-1887 −GCGUGAGGAGCAGGGGCUGGGCC 23 5736 SCNN1A-1888 − AGCGUGAGGAGCAGGGGCUGGGCC24 5737 SCNN1A-1895 − UCAUGAAGGGGAACAAGC 18 5744 SCNN1A-1896 −CUCAUGAAGGGGAACAAGC 19 5745 SCNN1A-176 − GCUCAUGAAGGGGAACAAGC 20 811SCNN1A-1897 − GGCUCAUGAAGGGGAACAAGC 21 5746 SCNN1A-1898 −GGGCUCAUGAAGGGGAACAAGC 22 5747 SCNN1A-1899 − AGGGCUCAUGAAGGGGAACAAGC 235748 SCNN1A-1900 − CAGGGCUCAUGAAGGGGAACAAGC 24 5749 SCNN1A-1916 −GGAACAAGCGUGAGGAGC 18 5765 SCNN1A-1917 − GGGAACAAGCGUGAGGAGC 19 5766SCNN1A-14 − GGGGAACAAGCGUGAGGAGC 20 506 SCNN1A-1918 −AGGGGAACAAGCGUGAGGAGC 21 5767 SCNN1A-1919 − AAGGGGAACAAGCGUGAGGAGC 225768 SCNN1A-1920 − GAAGGGGAACAAGCGUGAGGAGC 23 5769 SCNN1A-1921 −UGAAGGGGAACAAGCGUGAGGAGC 24 5770 SCNN1A-1922 − UGCUCCCAGCACAACCGC 185771 SCNN1A-1923 − GUGCUCCCAGCACAACCGC 19 5772 SCNN1A-193 −UGUGCUCCCAGCACAACCGC 20 823 SCNN1A-1924 − GUGUGCUCCCAGCACAACCGC 21 5773SCNN1A-1925 − GGUGUGCUCCCAGCACAACCGC 22 5774 SCNN1A-1926 −UGGUGUGCUCCCAGCACAACCGC 23 5775 SCNN1A-1927 − CUGGUGUGCUCCCAGCACAACCGC24 5776 SCNN1A-11057 − CUUCCCUGGUGCCUGCGC 18 14906 SCNN1A-11058 −CCUUCCCUGGUGCCUGCGC 19 14907 SCNN1A-11059 − CCCUUCCCUGGUGCCUGCGC 2014908 SCNN1A-11060 − CCCCUUCCCUGGUGCCUGCGC 21 14909 SCNN1A-11061 −GCCCCUUCCCUGGUGCCUGCGC 22 14910 SCNN1A-11062 − UGCCCCUUCCCUGGUGCCUGCGC23 14911 SCNN1A-11063 − CUGCCCCUUCCCUGGUGCCUGCGC 24 14912 SCNN1A-1948 −GCCCUCCACAGUCCACUC 18 5797 SCNN1A-1949 − AGCCCUCCACAGUCCACUC 19 5798SCNN1A-170 − UAGCCCUCCACAGUCCACUC 20 808 SCNN1A-1954 −CAGUCCACUCCAGGGCUC 18 5803 SCNN1A-1955 − ACAGUCCACUCCAGGGCUC 19 5804SCNN1A-171 − CACAGUCCACUCCAGGGCUC 20 809 SCNN1A-1956 −CCACAGUCCACUCCAGGGCUC 21 5805 SCNN1A-1957 − UCCACAGUCCACUCCAGGGCUC 225806 SCNN1A-1958 − CUCCACAGUCCACUCCAGGGCUC 23 5807 SCNN1A-1959 −CCUCCACAGUCCACUCCAGGGCUC 24 5808 SCNN1A-1995 − ACUCCAGGGCUCAUGAAG 185844 SCNN1A-1996 − CACUCCAGGGCUCAUGAAG 19 5845 SCNN1A-12 −CCACUCCAGGGCUCAUGAAG 20 561 SCNN1A-1997 − UCCACUCCAGGGCUCAUGAAG 21 5846SCNN1A-1998 − GUCCACUCCAGGGCUCAUGAAG 22 5847 SCNN1A-1999 −AGUCCACUCCAGGGCUCAUGAAG 23 5848 SCNN1A-2000 − CAGUCCACUCCAGGGCUCAUGAAG24 5849 SCNN1A-2017 − GGGAACAAGCGUGAGGAG 18 5866 SCNN1A-2018 −GGGGAACAAGCGUGAGGAG 19 5867 SCNN1A-179 − AGGGGAACAAGCGUGAGGAG 20 813SCNN1A-2019 − AAGGGGAACAAGCGUGAGGAG 21 5868 SCNN1A-2020 −GAAGGGGAACAAGCGUGAGGAG 22 5869 SCNN1A-2021 − UGAAGGGGAACAAGCGUGAGGAG 235870 SCNN1A-2022 − AUGAAGGGGAACAAGCGUGAGGAG 24 5871 SCNN1A-2023 −CAGCAGCCCACGGCGGAG 18 5872 SCNN1A-2024 − CCAGCAGCCCACGGCGGAG 19 5873SCNN1A-187 − CCCAGCAGCCCACGGCGGAG 20 818 SCNN1A-2025 −CCCCAGCAGCCCACGGCGGAG 21 5874 SCNN1A-2026 − GCCCCAGCAGCCCACGGCGGAG 225875 SCNN1A-2027 − CGCCCCAGCAGCCCACGGCGGAG 23 5876 SCNN1A-2028 −GCGCCCCAGCAGCCCACGGCGGAG 24 5877 SCNN1A-2035 − GCGCCCCAGCAGCCCACG 185884 SCNN1A-2036 − GGCGCCCCAGCAGCCCACG 19 5885 SCNN1A-183 −CGGCGCCCCAGCAGCCCACG 20 816 SCNN1A-2037 − GCGGCGCCCCAGCAGCCCACG 21 5886SCNN1A-2038 − UGCGGCGCCCCAGCAGCCCACG 22 5887 SCNN1A-2039 −CUGCGGCGCCCCAGCAGCCCACG 23 5888 SCNN1A-2040 − CCUGCGGCGCCCCAGCAGCCCACG24 5889 SCNN1A-2041 − CCCCAGCAGCCCACGGCG 18 5890 SCNN1A-2042 −GCCCCAGCAGCCCACGGCG 19 5891 SCNN1A-185 − CGCCCCAGCAGCCCACGGCG 20 817SCNN1A-2043 − GCGCCCCAGCAGCCCACGGCG 21 5892 SCNN1A-2044 −GGCGCCCCAGCAGCCCACGGCG 22 5893 SCNN1A-2045 − CGGCGCCCCAGCAGCCCACGGCG 235894 SCNN1A-2046 − GCGGCGCCCCAGCAGCCCACGGCG 24 5895 SCNN1A-11064 −CCUUUGGGGAGGGAAAGG 18 14913 SCNN1A-11065 − CCCUUUGGGGAGGGAAAGG 19 14914SCNN1A-11066 − CCCCUUUGGGGAGGGAAAGG 20 14915 SCNN1A-11067 −UCCCCUUUGGGGAGGGAAAGG 21 14916 SCNN1A-11068 − CUCCCCUUUGGGGAGGGAAAGG 2214917 SCNN1A-11069 − GCUCCCCUUUGGGGAGGGAAAGG 23 14918 SCNN1A-11070 −GGCUCCCCUUUGGGGAGGGAAAGG 24 14919 SCNN1A-11071 − UGACACCCCUGUCCCAGG 1814920 SCNN1A-11072 − CUGACACCCCUGUCCCAGG 19 14921 SCNN1A-11073 −ACUGACACCCCUGUCCCAGG 20 14922 SCNN1A-11074 − AACUGACACCCCUGUCCCAGG 2114923 SCNN1A-11075 − GAACUGACACCCCUGUCCCAGG 22 14924 SCNN1A-11076 −GGAACUGACACCCCUGUCCCAGG 23 14925 SCNN1A-11077 − GGGAACUGACACCCCUGUCCCAGG24 14926 SCNN1A-11078 − AGGUGCUCACUGGGCAGG 18 14927 SCNN1A-11079 −GAGGUGCUCACUGGGCAGG 19 14928 SCNN1A-11080 − UGAGGUGCUCACUGGGCAGG 2014929 SCNN1A-11081 − CUGAGGUGCUCACUGGGCAGG 21 14930 SCNN1A-11082 −GCUGAGGUGCUCACUGGGCAGG 22 14931 SCNN1A-11083 − UGCUGAGGUGCUCACUGGGCAGG23 14932 SCNN1A-11084 − GUGCUGAGGUGCUCACUGGGCAGG 24 14933 SCNN1A-2050 −AGCAGCCCACGGCGGAGG 18 5899 SCNN1A-2051 − CAGCAGCCCACGGCGGAGG 19 5900SCNN1A-23 − CCAGCAGCCCACGGCGGAGG 20 566 SCNN1A-2052 −CCCAGCAGCCCACGGCGGAGG 21 5901 SCNN1A-2053 − CCCCAGCAGCCCACGGCGGAGG 225902 SCNN1A-2054 − GCCCCAGCAGCCCACGGCGGAGG 23 5903 SCNN1A-2055 −CGCCCCAGCAGCCCACGGCGGAGG 24 5904 SCNN1A-11085 − AGAGCCUCAGACCUGAGG 1814934 SCNN1A-11086 − CAGAGCCUCAGACCUGAGG 19 14935 SCNN1A-11087 −GCAGAGCCUCAGACCUGAGG 20 14936 SCNN1A-11088 − GGCAGAGCCUCAGACCUGAGG 2114937 SCNN1A-11089 − AGGCAGAGCCUCAGACCUGAGG 22 14938 SCNN1A-11090 −CAGGCAGAGCCUCAGACCUGAGG 23 14939 SCNN1A-11091 − GCAGGCAGAGCCUCAGACCUGAGG24 14940 SCNN1A-2056 − CGCCCCAGCAGCCCACGG 18 5905 SCNN1A-2057 −GCGCCCCAGCAGCCCACGG 19 5906 SCNN1A-21 − GGCGCCCCAGCAGCCCACGG 20 510SCNN1A-2058 − CGGCGCCCCAGCAGCCCACGG 21 5907 SCNN1A-2059 −GCGGCGCCCCAGCAGCCCACGG 22 5908 SCNN1A-2060 − UGCGGCGCCCCAGCAGCCCACGG 235909 SCNN1A-2061 − CUGCGGCGCCCCAGCAGCCCACGG 24 5910 SCNN1A-11092 −UGCCACUCCCAUACCCGG 18 14941 SCNN1A-11093 − UUGCCACUCCCAUACCCGG 19 14942SCNN1A-11094 − AUUGCCACUCCCAUACCCGG 20 14943 SCNN1A-11095 −CAUUGCCACUCCCAUACCCGG 21 14944 SCNN1A-11096 − GCAUUGCCACUCCCAUACCCGG 2214945 SCNN1A-11097 − CGCAUUGCCACUCCCAUACCCGG 23 14946 SCNN1A-11098 −UCGCAUUGCCACUCCCAUACCCGG 24 14947 SCNN1A-2062 − CCCAGCAGCCCACGGCGG 185911 SCNN1A-2063 − CCCCAGCAGCCCACGGCGG 19 5912 SCNN1A-22 −GCCCCAGCAGCCCACGGCGG 20 511 SCNN1A-2064 − CGCCCCAGCAGCCCACGGCGG 21 5913SCNN1A-2065 − GCGCCCCAGCAGCCCACGGCGG 22 5914 SCNN1A-2066 −GGCGCCCCAGCAGCCCACGGCGG 23 5915 SCNN1A-2067 − CGGCGCCCCAGCAGCCCACGGCGG24 5916 SCNN1A-11099 − GAGCCUCAGACCUGAGGG 18 14948 SCNN1A-11100 −AGAGCCUCAGACCUGAGGG 19 14949 SCNN1A-6341 − CAGAGCCUCAGACCUGAGGG 20 10190SCNN1A-11101 − GCAGAGCCUCAGACCUGAGGG 21 14950 SCNN1A-11102 −GGCAGAGCCUCAGACCUGAGGG 22 14951 SCNN1A-11103 − AGGCAGAGCCUCAGACCUGAGGG23 14952 SCNN1A-11104 − CAGGCAGAGCCUCAGACCUGAGGG 24 14953 SCNN1A-2074 −AAGCGUGAGGAGCAGGGG 18 5923 SCNN1A-2075 − CAAGCGUGAGGAGCAGGGG 19 5924SCNN1A-181 − ACAAGCGUGAGGAGCAGGGG 20 814 SCNN1A-2076 −AACAAGCGUGAGGAGCAGGGG 21 5925 SCNN1A-2077 − GAACAAGCGUGAGGAGCAGGGG 225926 SCNN1A-2078 − GGAACAAGCGUGAGGAGCAGGGG 23 5927 SCNN1A-2079 −GGGAACAAGCGUGAGGAGCAGGGG 24 5928 SCNN1A-11105 − GGUGGCUCCCCUUUGGGG 1814954 SCNN1A-11106 − UGGUGGCUCCCCUUUGGGG 19 14955 SCNN1A-6342 −AUGGUGGCUCCCCUUUGGGG 20 10191 SCNN1A-11107 − UAUGGUGGCUCCCCUUUGGGG 2114956 SCNN1A-11108 − UUAUGGUGGCUCCCCUUUGGGG 22 14957 SCNN1A-11109 −AUUAUGGUGGCUCCCCUUUGGGG 23 14958 SCNN1A-11110 − AAUUAUGGUGGCUCCCCUUUGGGG24 14959 SCNN1A-11111 − UGGUGGCUCCCCUUUGGG 18 14960 SCNN1A-11112 −AUGGUGGCUCCCCUUUGGG 19 14961 SCNN1A-11113 − UAUGGUGGCUCCCCUUUGGG 2014962 SCNN1A-11114 − UUAUGGUGGCUCCCCUUUGGG 21 14963 SCNN1A-11115 −AUUAUGGUGGCUCCCCUUUGGG 22 14964 SCNN1A-11116 − AAUUAUGGUGGCUCCCCUUUGGG23 14965 SCNN1A-11117 − AAAUUAUGGUGGCUCCCCUUUGGG 24 14966 SCNN1A-2105 −UCCACUCCAGGGCUCAUG 18 5954 SCNN1A-2106 − GUCCACUCCAGGGCUCAUG 19 5955SCNN1A-172 − AGUCCACUCCAGGGCUCAUG 20 810 SCNN1A-2107 −CAGUCCACUCCAGGGCUCAUG 21 5956 SCNN1A-2108 − ACAGUCCACUCCAGGGCUCAUG 225957 SCNN1A-2109 − CACAGUCCACUCCAGGGCUCAUG 23 5958 SCNN1A-2110 −CCACAGUCCACUCCAGGGCUCAUG 24 5959 SCNN1A-2137 − UGAAGGGGAACAAGCGUG 185986 SCNN1A-2138 − AUGAAGGGGAACAAGCGUG 19 5987 SCNN1A-13 −CAUGAAGGGGAACAAGCGUG 20 562 SCNN1A-2139 − UCAUGAAGGGGAACAAGCGUG 21 5988SCNN1A-2140 − CUCAUGAAGGGGAACAAGCGUG 22 5989 SCNN1A-2141 −GCUCAUGAAGGGGAACAAGCGUG 23 5990 SCNN1A-2142 − GGCUCAUGAAGGGGAACAAGCGUG24 5991 SCNN1A-11118 − GAAGGGUGGUCCAGGGUG 18 14967 SCNN1A-11119 −GGAAGGGUGGUCCAGGGUG 19 14968 SCNN1A-11120 − UGGAAGGGUGGUCCAGGGUG 2014969 SCNN1A-11121 − CUGGAAGGGUGGUCCAGGGUG 21 14970 SCNN1A-11122 −CCUGGAAGGGUGGUCCAGGGUG 22 14971 SCNN1A-11123 − GCCUGGAAGGGUGGUCCAGGGUG23 14972 SCNN1A-11124 − CGCCUGGAAGGGUGGUCCAGGGUG 24 14973 SCNN1A-11125 −CUAUAUACUUCUGUAUUG 18 14974 SCNN1A-11126 − UCUAUAUACUUCUGUAUUG 19 14975SCNN1A-11127 − CUCUAUAUACUUCUGUAUUG 20 14976 SCNN1A-11128 −GCUCUAUAUACUUCUGUAUUG 21 14977 SCNN1A-11129 − AGCUCUAUAUACUUCUGUAUUG 2214978 SCNN1A-11130 − AAGCUCUAUAUACUUCUGUAUUG 23 14979 SCNN1A-11131 −GAAGCUCUAUAUACUUCUGUAUUG 24 14980 SCNN1A-11132 − AAGCAAAAAUGGAAGUUG 1814981 SCNN1A-11133 − AAAGCAAAAAUGGAAGUUG 19 14982 SCNN1A-11134 −AAAAGCAAAAAUGGAAGUUG 20 14983 SCNN1A-11135 − UAAAAGCAAAAAUGGAAGUUG 2114984 SCNN1A-11136 − AUAAAAGCAAAAAUGGAAGUUG 22 14985 SCNN1A-11137 −AAUAAAAGCAAAAAUGGAAGUUG 23 14986 SCNN1A-11138 − AAAUAAAAGCAAAAAUGGAAGUUG24 14987 SCNN1A-11139 − UAUGGUGGCUCCCCUUUG 18 14988 SCNN1A-11140 −UUAUGGUGGCUCCCCUUUG 19 14989 SCNN1A-6348 − AUUAUGGUGGCUCCCCUUUG 20 10197SCNN1A-11141 − AAUUAUGGUGGCUCCCCUUUG 21 14990 SCNN1A-11142 −AAAUUAUGGUGGCUCCCCUUUG 22 14991 SCNN1A-11143 − CAAAUUAUGGUGGCUCCCCUUUG23 14992 SCNN1A-11144 − ACAAAUUAUGGUGGCUCCCCUUUG 24 14993 SCNN1A-11145 −CCUGUCUCUAAGAUAAAU 18 14994 SCNN1A-11146 − UCCUGUCUCUAAGAUAAAU 19 14995SCNN1A-11147 − AUCCUGUCUCUAAGAUAAAU 20 14996 SCNN1A-11148 −GAUCCUGUCUCUAAGAUAAAU 21 14997 SCNN1A-11149 − UGAUCCUGUCUCUAAGAUAAAU 2214998 SCNN1A-11150 − AUGAUCCUGUCUCUAAGAUAAAU 23 14999 SCNN1A-11151 −CAUGAUCCUGUCUCUAAGAUAAAU 24 15000 SCNN1A-11152 − AGGGAAAGGAAGGGGACU 1815001 SCNN1A-11153 − GAGGGAAAGGAAGGGGACU 19 15002 SCNN1A-11154 −GGAGGGAAAGGAAGGGGACU 20 15003 SCNN1A-11155 − GGGAGGGAAAGGAAGGGGACU 2115004 SCNN1A-11156 − GGGGAGGGAAAGGAAGGGGACU 22 15005 SCNN1A-11157 −UGGGGAGGGAAAGGAAGGGGACU 23 15006 SCNN1A-11158 − UUGGGGAGGGAAAGGAAGGGGACU24 15007 SCNN1A-11159 − AAUUAUGGUGGCUCCCCU 18 15008 SCNN1A-11160 −AAAUUAUGGUGGCUCCCCU 19 15009 SCNN1A-11161 − CAAAUUAUGGUGGCUCCCCU 2015010 SCNN1A-11162 − ACAAAUUAUGGUGGCUCCCCU 21 15011 SCNN1A-11163 −UACAAAUUAUGGUGGCUCCCCU 22 15012 SCNN1A-11164 − AUACAAAUUAUGGUGGCUCCCCU23 15013 SCNN1A-11165 − UAUACAAAUUAUGGUGGCUCCCCU 24 15014 SCNN1A-2170 −AUGAAGGGGAACAAGCGU 18 6019 SCNN1A-2171 − CAUGAAGGGGAACAAGCGU 19 6020SCNN1A-177 − UCAUGAAGGGGAACAAGCGU 20 812 SCNN1A-2172 −CUCAUGAAGGGGAACAAGCGU 21 6021 SCNN1A-2173 − GCUCAUGAAGGGGAACAAGCGU 226022 SCNN1A-2174 − GGCUCAUGAAGGGGAACAAGCGU 23 6023 SCNN1A-2175 −GGGCUCAUGAAGGGGAACAAGCGU 24 6024 SCNN1A-11166 − AGCCUCAGACCUGAGGGU 1815015 SCNN1A-11167 − GAGCCUCAGACCUGAGGGU 19 15016 SCNN1A-6357 −AGAGCCUCAGACCUGAGGGU 20 10206 SCNN1A-11168 − CAGAGCCUCAGACCUGAGGGU 2115017 SCNN1A-11169 − GCAGAGCCUCAGACCUGAGGGU 22 15018 SCNN1A-11170 −GGCAGAGCCUCAGACCUGAGGGU 23 15019 SCNN1A-11171 − AGGCAGAGCCUCAGACCUGAGGGU24 15020 SCNN1A-11172 − AUUAUGGUGGCUCCCCUU 18 15021 SCNN1A-11173 −AAUUAUGGUGGCUCCCCUU 19 15022 SCNN1A-6360 − AAAUUAUGGUGGCUCCCCUU 20 10209SCNN1A-11174 − CAAAUUAUGGUGGCUCCCCUU 21 15023 SCNN1A-11175 −ACAAAUUAUGGUGGCUCCCCUU 22 15024 SCNN1A-11176 − UACAAAUUAUGGUGGCUCCCCUU23 15025 SCNN1A-11177 − AUACAAAUUAUGGUGGCUCCCCUU 24 15026 SCNN1A-2183 −CCGCAUGAAGACGGCCUU 18 6032 SCNN1A-2184 − ACCGCAUGAAGACGGCCUU 19 6033SCNN1A-194 − AACCGCAUGAAGACGGCCUU 20 824 SCNN1A-2185 −CAACCGCAUGAAGACGGCCUU 21 6034 SCNN1A-2186 − ACAACCGCAUGAAGACGGCCUU 226035 SCNN1A-2187 − CACAACCGCAUGAAGACGGCCUU 23 6036 SCNN1A-2188 −GCACAACCGCAUGAAGACGGCCUU 24 6037 SCNN1A-11178 − UUAUGGUGGCUCCCCUUU 1815027 SCNN1A-11179 − AUUAUGGUGGCUCCCCUUU 19 15028 SCNN1A-6361 −AAUUAUGGUGGCUCCCCUUU 20 10210 SCNN1A-11180 − AAAUUAUGGUGGCUCCCCUUU 2115029 SCNN1A-11181 − CAAAUUAUGGUGGCUCCCCUUU 22 15030 SCNN1A-11182 −ACAAAUUAUGGUGGCUCCCCUUU 23 15031 SCNN1A-11183 − UACAAAUUAUGGUGGCUCCCCUUU24 15032 SCNN1A-2189 − GGCAAUUCGGCCUGCUUU 18 6038 SCNN1A-2190 −UGGCAAUUCGGCCUGCUUU 19 6039 SCNN1A-195 − CUGGCAAUUCGGCCUGCUUU 20 825SCNN1A-2191 − ACUGGCAAUUCGGCCUGCUUU 21 6040 SCNN1A-2192 −UACUGGCAAUUCGGCCUGCUUU 22 6041 SCNN1A-2193 − GUACUGGCAAUUCGGCCUGCUUU 236042 SCNN1A-2194 − UGUACUGGCAAUUCGGCCUGCUUU 24 6043 SCNN1A-2195 −GCAAUUCGGCCUGCUUUU 18 6044 SCNN1A-2196 − GGCAAUUCGGCCUGCUUUU 19 6045SCNN1A-34 − UGGCAAUUCGGCCUGCUUUU 20 573 SCNN1A-2197 −CUGGCAAUUCGGCCUGCUUUU 21 6046 SCNN1A-2198 − ACUGGCAAUUCGGCCUGCUUUU 226047 SCNN1A-2199 − UACUGGCAAUUCGGCCUGCUUUU 23 6048 SCNN1A-2200 −GUACUGGCAAUUCGGCCUGCUUUU 24 6049

Table 48A provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the first tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS), have a high level of orthogonality andstart with a 5′G. It is contemplated herein that in an embodiment thetargeting domain hybridizes to the target domain through complementarybase pairing. Any of the targeting domains in the table can be used witha N. miningtidis eiCas9 molecule or eiCas9 fusion protein (e.g., aneiCas9 fused to a transcription repressor domain) to alter the SCNN1Agene (e.g., reduce or eliminate SCNN1A gene expression, SCNN1A proteinfunction, or the level of SCNN1A protein). One or more gRNA may be usedto target an eiCas9 to the promoter region of the SCNN1A gene.

Table 48A 1st Tier Target  gRNA DNA Site Name Strand Targeting DomainLength Seq ID SCNN1A- + GUGAAAGCCGGUGUCAA 17 15033 11184 SCNN1A- −GUUUUCUAACCUCAGAA 17 15034 11185 SCNN1A- − GCUGCAUUAAGUUUGGA 17 1503511186 SCNN1A-5020 + GGCUAGAGUCCUGCUCC 17  8869 SCNN1A-5021 +GUCUAGGGUCCUGCUCC 17  8870 SCNN1A- − GAUGCUAAUGAGAUUCC 17 15036 11187SCNN1A-5106 + GAAGGCGGACUCUGGGC 17  8955 SCNN1A-5022 + GAUUCCAAACCAGGUUC17  8871 SCNN1A- + GGCCAAAAGUGCCGGAG 17 15037 11188 SCNN1A- −GAUGACACCUUCUCUGG 17 15038 11189 SCNN1A- − GCUGCCUUAAGCUAGUG 17 1503911190 SCNN1A- − GCUAAACUCCUUGCUUG 17 15040 11191 SCNN1A- −GGAGUGAGGGAGGCCUU 17 15041 11192 SCNN1A- + GAGCAAGGGGGGAGUCCCAA 20 1504211193 SCNN1A- − GGUUUGGAAUCCUGGUUGAC 20 15043 11194 SCNN1A- +GCUCAGGGUCCAACCUGGUC 20 15044 11195 SCNN1A- + GGCCCUGACCUCGAGCUGUG 2015045 11196 SCNN1A- − GGGGGAGGAGAGGUUUGGCU 20 15046 11197 SCNN1A- −GUGGGAGUGAGGGAGGCCUU 20 15047 11198 SCNN1A- + GGUUUCUAUUUGUACACUUU 2015048 11199

Table 48B provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the second tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS) and have a high level of orthogonality.It is contemplated herein that in an embodiment the targeting domainhybridizes to the target domain through complementary base pairing. Anyof the targeting domains in the table can be used with a N. miningtidiseiCas9 molecule or eiCas9 fusion protein (e.g., an eiCas9 fused to atranscription repressor domain) to alter the SCNN1A gene (e.g., reduceor eliminate SCNN1A gene expression, SCNN1A protein function, or thelevel of SCNN1A protein). One or more gRNA may be used to target aneiCas9 to the promoter region of the SCNN1A gene.

TABLE 48B 2nd Tier Target  gRNA DNA Site Name Strand Targeting DomainLength Seq ID SCNN1A- + CAAGGGGGGAGUCCCAA 17 15049 11200 SCNN1A- +UCCCCUUGGAAGGGACA 17 15050 11201 SCNN1A- − CUUUAAUUGAGAUGCUA 17 1505111202 SCNN1A- − UUGGAAUCCUGGUUGAC 17 15052 11203 SCNN1A- +AUGCCUGAAAUCCAACC 17 15053 11204 SCNN1A- + CACUCCCACACAGAGCC 17 1505411205 SCNN1A- − UAGGGCCCCGCCUAGCC 17 15055 11206 SCNN1A- +AGGAGGUCUGGGCUGCC 17 15056 11207 SCNN1A- + UGGUCCCUCCUCUUUCC 17 1505711208 SCNN1A- + CACGCGGCAGGGAAGGC 17 15058 11209 SCNN1A- +CCCUAGAACGGCCUCUC 17 15059 11210 SCNN1A- + CAGGGUCCAACCUGGUC 17 1506011211 SCNN1A- + AGUGCAGGAAUGUGGUC 17 15061 11212 SCNN1A-5426 −CUCUGUGACCACAGCAG 17  9275 SCNN1A-5024 + CCCUUCAUGAGCCCCGG 17  8873SCNN1A-6029 − AAAUAGAAAAGGCAGGG 17  9878 SCNN1A- − CCUCCAGCCCUUUUUGG 1715062 11213 SCNN1A- + CCUGACCUCGAGCUGUG 17 15063 11214 SCNN1A- +CUAACAAAAGUGCAGAU 17 15064 11215 SCNN1A- − UCUUUGCCUGCUAAACU 17 1506511216 SCNN1A- + CUCUGGGGCUAUCUACU 17 15066 11217 SCNN1A- +UUCUAUUUGUACACUUU 17 15067 11218 SCNN1A- + AAAGUGAAAGCCGGUGUCAA 20 1506811219 SCNN1A- − UUUGUUUUCUAACCUCAGAA 20 15069 11220 SCNN1A- +ACCUCCCCUUGGAAGGGACA 20 15070 11221 SCNN1A-9203 − UUUGCUGCAUUAAGUUUGGA20 13052 SCNN1A-9243 − CACCUUUAAUUGAGAUGCUA 20 13092 SCNN1A- +CUCAUGCCUGAAAUCCAACC 20 15071 11222 SCNN1A- + CCUCACUCCCACACAGAGCC 2015072 11223 SCNN1A- − UCCUAGGGCCCCGCCUAGCC 20 15073 11224 SCNN1A- +UCCAGGAGGUCUGGGCUGCC 20 15074 11225 SCNN1A- − UGAGAUGCUAAUGAGAUUCC 2015075 11226 SCNN1A- + UCCUGGUCCCUCCUCUUUCC 20 15076 11227 SCNN1A- +CUGCACGCGGCAGGGAAGGC 20 15077 11228 SCNN1A- + CUUCCCUAGAACGGCCUCUC 2015078 11229 SCNN1A- + CAGAGUGCAGGAAUGUGGUC 20 15079 11230 SCNN1A-5650 −CAACUCUGUGACCACAGCAG 20  9499 SCNN1A-8013 + UGGGGCCAAAAGUGCCGGAG 2011862 SCNN1A-5027 + UUCCCCUUCAUGAGCCCCGG 20  8876 SCNN1A- −UCUCCUCCAGCCCUUUUUGG 20 15080 11231 SCNN1A- − CAUGCUGCCUUAAGCUAGUG 2015081 11232 SCNN1A- − CCUGCUAAACUCCUUGCUUG 20 15082 11233 SCNN1A- +CUUCUAACAAAAGUGCAGAU 20 15083 11234 SCNN1A- − UCUUCUUUGCCUGCUAAACU 2015084 11235 SCNN1A- + CUCCUCUGGGGCUAUCUACU 20 15085 11236 SCNN1A- −CUCAGGCUGGGCCUUUGUCU 20 15086 11237 SCNN1A- − AUCCUCCCUGCACCUUCAGU 2015087 11238

Table 48C provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the third tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS) and start with a 5′G. It is contemplatedherein that in an embodiment the targeting domain hybridizes to thetarget domain through complementary base pairing. Any of the targetingdomains in the table can be used with a N. miningtidis eiCas9 moleculeor eiCas9 fusion protein (e.g., an eiCas9 fused to a transcriptionrepressor domain) to alter the SCNN1A gene (e.g., reduce or eliminateSCNN1A gene expression, SCNN1A protein function, or the level of SCNN1Aprotein). One or more gRNA may be used to target an eiCas9 to thepromoter region of the SCNN1A gene.

TABLE 48C 3rd Tier Target gRNA DNA Site Name Strand Targeting DomainLength Seq ID SCNN1A- − GGGGGAGAGGAAGAGAG 17 15088 11239 SCNN1A- −GGAGGAGAGGUUUGGCU 17 15089 11240 SCNN1A-5029 + GAGGGCUAGAGUCCUGCUCC 20 8878 SCNN1A-5030 + GAGGUCUAGGGUCCUGCUCC 20  8879 SCNN1A-5263 −GGCAAAUAGAAAAGGCAGGG 20  9112

Table 48D provides exemplary targeting domains for knocking out theSCNN1A gene selected according to the fourth tier parameters. Thetargeting domains bind within 500 bp (e.g., upstream or downstream) of atranscription start site (TSS). It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a N. miningtidis eiCas9 molecule or eiCas9 fusionprotein (e.g., an eiCas9 fused to a transcription repressor domain) toalter the SCNN1A gene (e.g., reduce or eliminate SCNN1A gene expression,SCNN1A protein function, or the level of SCNN1A protein). One or moregRNA may be used to target an eiCas9 to the promoter region of theSCNN1A gene.

Table 48D 4th Tier Target gRNA DNA Site Name Strand Targeting DomainLength Seq ID SCNN1A- − AGGCUGGGCCUUUGUCU 17 15090 11241 SCNN1A- −CUCCCUGCACCUUCAGU 17 15091 11242 SCNN1A-5613 + UGAGAAGGCGGACUCUGGGC 20 9462 SCNN1A-5032 + CAGGAUUCCAAACCAGGUUC 20  8881 SCNN1A- −AGGGGGGGAGAGGAAGAGAG 20 15092 11243 SCNN1A- − AGAGAUGACACCUUCUCUGG 2015093 11244

Table 48E provides exemplary targeting domains for knocking down theSCNN1A gene selected according to the fifth tier parameters. Thetargeting domains bind within the additional 500 bp (e.g., upstream ordownstream) of a transcription start site (TSS), e.g., extending to 1 kbupstream and downstream of a TSS. It is contemplated herein that in anembodiment the targeting domain hybridizes to the target domain throughcomplementary base pairing. Any of the targeting domains in the tablecan be used with a N. miningtidis eiCas9 molecule or eiCas9 fusionprotein (e.g., an eiCas9 fused to a transcription repressor domain) toalter the SCNN1A gene (e.g., reduce or eliminate SCNN1A gene expression,SCNN1A protein function, or the level of SCNN1A protein). One or moregRNA may be used to target an eiCas9 to the promoter region of theSCNN1A gene.

TABLE 48E 5th Tier DNA Target Site gRNA Name Strand Targeting DomainLength Seq ID SCNN1A-11245 + ACCUGGAGCGGGCUAGA 17 15094 SCNN1A-11246 +AGCAAUACAGAAGUAUA 17 15095 SCNN1A-5028 + GGCCCAGCCCCUGCUCC 17 8877SCNN1A-322 + UGGUCACUGCGGGGAAG 17 915 SCNN1A-5023 − GAUGUACUGGCAAUUCG 178872 SCNN1A-5025 + AGGGACUAACCGACCUG 17 8874 SCNN1A-11247 +GUUUCUACAACUUCCAU 17 15096 SCNN1A-11248 − CUGACCAAAGUCCAGGU 17 15097SCNN1A-11249 + UAGACCUGGAGCGGGCUAGA 20 15098 SCNN1A-10791 +UUCAGCAAUACAGAAGUAUA 20 14640 SCNN1A-5031 + CGGGGCCCAGCCCCUGCUCC 20 8880SCNN1A-238 + AGAUGGUCACUGCGGGGAAG 20 858 SCNN1A-5026 −CAUGAUGUACUGGCAAUUCG 20 8875 SCNN1A-1657 + CAGAGGGACUAACCGACCUG 20 5506SCNN1A-11250 + UAUGUUUCUACAACUUCCAU 20 15099 SCNN1A-11251 −CUUCUGACCAAAGUCCAGGU 20 15100

III. Cas9 Molecules

Cas9 molecules of a variety of species can be used in the methods andcompositions described herein. While the S. pyogenes, S. aureus and S.thermophilus Cas9 molecules are the subject of much of the disclosureherein, Cas9 molecules of, derived from, or based on the Cas9 proteinsof other species listed herein can be used as well. In other words,while the much of the description herein uses S. pyogenes and S.thermophilus Cas9 molecules, Cas9 molecules from the other species canreplace them, e.g., Staphylococcus aureus and Neisseria meningitidisCas9 molecules. Additional Cas9 species include: Acidovorax avenae,Actinobacillus pleuropneumoniae, Actinobacillus succinogenes,Actinobacillus suis, Actinomyces sp., Cycliphilus denitrificans,Aminomonas paucivorans, Bacillus cereus, Bacillus smithi, Bacillusthuringiensis, Bacteroides sp., Blastopirellula marina, Bradyrhizobiumsp., Brevibacillus laterosporus, Campylobacter coli, Campylobacterjejuni, Campylobacter lari, Candidatus puniceispirillum, Clostridiumcellulolyticum, Clostridium perfringens, Corynebacterium accolens,Corynebacterium diphtheria, Corynebacterium matruchotii, Dinoroseobactershibae, Eubacterium dolichum, Gamma proteobacterium, Gluconacetobacterdiazotrophicus, Haemophilus parainfluenzae, Haemophilus sputorum,Helicobacter canadensis, Helicobacter cinaedi, Helicobacter mustelae,Ilyobacter polytropus, Kingella kingae, Lactobacillus crispatus,Listeria ivanovii, Listeria monocytogenes, Listeriaceae bacterium,Methylocystis sp., Methylosinus trichosporium, Mobiluncus mulieris,Neisseria bacilliformis, Neisseria cinerea, Neisseria flavescens,Neisseria lactamica, Neisseria meningitidis, Neisseria sp., Neisseriawadsworthii, Nitrosomonas sp., Parvibaculum lavamentivorans, Pasteurellamultocida, Phascolarctobacterium succinatutens, Ralstonia syzygii,Rhodopseudomonas palustris, Rhodovulum sp., Simonsiella muelleri,Sphingomonas sp., Sporolactobacillus vineae, Staphylococcus lugdunensis,Streptococcus sp., Subdoligranulum sp., Tistrella mobilis, Treponemasp., or Verminephrobacter eiseniae.

A Cas9 molecule or Cas9 polypeptide, as that term is used herein, refersto a molecule or polypeptide that can interact with a guide RNA (gRNA)molecule and, in concert with the gRNA molecule, home or localizes to asite which comprises a target domain and PAM sequence. Cas9 molecule andCas9 polypeptide, as those terms are used herein, refer to naturallyoccurring Cas9 molecules and to engineered, altered, or modified Cas9molecules or Cas9 polypeptides that differ, e.g., by at least one aminoacid residue, from a reference sequence, e.g., the most similarnaturally occurring Cas9 molecule or a sequence of Table 50.

Cas9 Domains

Crystal structures have been determined for two different naturallyoccurring bacterial Cas9 molecules (Jinek et al., Science,343(6176):1247997, 2014) and for S. pyogenes Cas9 with a guide RNA(e.g., a synthetic fusion of crRNA and tracrRNA) (Nishimasu et al.,Cell, 156:935-949, 2014; and Anders et al., Nature, 2014, doi:10.1038/nature13579).

A naturally occurring Cas9 molecule comprises two lobes: a recognition(REC) lobe and a nuclease (NUC) lobe; each of which further comprisesdomains described herein. FIGS. 9A-9B provide a schematic of theorganization of important Cas9 domains in the primary structure. Thedomain nomenclature and the numbering of the amino acid residuesencompassed by each domain used throughout this disclosure is asdescribed in Nishimasu et al. The numbering of the amino acid residuesis with reference to Cas9 from S. pyogenes.

The REC lobe comprises the arginine-rich bridge helix (BH), the REC1domain, and the REC2 domain. The REC lobe does not share structuralsimilarity with other known proteins, indicating that it is aCas9-specific functional domain. The BH domain is a long α helix andarginine rich region and comprises amino acids 60-93 of the sequence ofS. pyogenes Cas9. The REC1 domain is important for recognition of therepeat:anti-repeat duplex, e.g., of a gRNA or a tracrRNA, and istherefore critical for Cas9 activity by recognizing the target sequence.The REC1 domain comprises two REC1 motifs at amino acids 94 to 179 and308 to 717 of the sequence of S. pyogenes Cas9. These two REC1 domains,though separated by the REC2 domain in the linear primary structure,assemble in the tertiary structure to form the REC1 domain. The REC2domain, or parts thereof, may also play a role in the recognition of therepeat:anti-repeat duplex. The REC2 domain comprises amino acids 180-307of the sequence of S. pyogenes Cas9.

The NUC lobe comprises the RuvC domain (also referred to herein asRuvC-like domain), the HNH domain (also referred to herein as HNH-likedomain), and the PAM-interacting (PI) domain. The RuvC domain sharesstructural similarity to retroviral integrase superfamily members andcleaves a single strand, e.g., the non-complementary strand of thetarget nucleic acid molecule. The RuvC domain is assembled from thethree split RuvC motifs (RuvC I, RuvCII, and RuvCIII, which are oftencommonly referred to in the art as RuvCI domain, or N-terminal RuvCdomain, RuvCII domain, and RuvCIII domain) at amino acids 1-59, 718-769,and 909-1098, respectively, of the sequence of S. pyogenes Cas9. Similarto the REC1 domain, the three RuvC motifs are linearly separated byother domains in the primary structure, however in the tertiarystructure, the three RuvC motifs assemble and form the RuvC domain. TheHNH domain shares structural similarity with HNH endonucleases, andcleaves a single strand, e.g., the complementary strand of the targetnucleic acid molecule. The HNH domain lies between the RuvC II-IIImotifs and comprises amino acids 775-908 of the sequence of S. pyogenesCas9. The PI domain interacts with the PAM of the target nucleic acidmolecule, and comprises amino acids 1099-1368 of the sequence of S.pyogenes Cas9.

A RuvC-Like Domain and an HNH-Like Domain

In an embodiment, a Cas9 molecule or Cas9 polypeptide comprises anHNH-like domain and a RuvC-like domain. In an embodiment, cleavageactivity is dependent on a RuvC-like domain and an HNH-like domain. ACas9 molecule or Cas9 polypeptide, e.g., an eaCas9 molecule or eaCas9polypeptide, can comprise one or more of the following domains: aRuvC-like domain and an HNH-like domain. In an embodiment, a Cas9molecule or Cas9 polypeptide is an eaCas9 molecule or eaCas9 polypeptideand the eaCas9 molecule or eaCas9 polypeptide comprises a RuvC-likedomain, e.g., a RuvC-like domain described below, and/or an HNH-likedomain, e.g., an HNH-like domain described below.

RuvC-Like Domains

In an embodiment, a RuvC-like domain cleaves, a single strand, e.g., thenon-complementary strand of the target nucleic acid molecule. The Cas9molecule or Cas9 polypeptide can include more than one RuvC-like domain(e.g., one, two, three or more RuvC-like domains). In an embodiment, aRuvC-like domain is at least 5, 6, 7, 8 amino acids in length but notmore than 20, 19, 18, 17, 16 or 15 amino acids in length. In anembodiment, the Cas9 molecule or Cas9 polypeptide comprises anN-terminal RuvC-like domain of about 10 to 20 amino acids, e.g., about15 amino acids in length.

N-Terminal RuvC-Like Domains

Some naturally occurring Cas9 molecules comprise more than one RuvC-likedomain with cleavage being dependent on the N-terminal RuvC-like domain.Accordingly, Cas9 molecules or Cas9 polypeptide can comprise anN-terminal RuvC-like domain. Exemplary N-terminal RuvC-like domains aredescribed below.

In an embodiment, an eaCas9 molecule or eaCas9 polypeptide comprises anN-terminal RuvC-like domain comprising an amino acid sequence of formulaI:

(SEQ ID NO: 8) D-X1-G-X2-X3-X4-X5-G-X6-X7-X8-X9,

-   -   wherein,    -   X1 is selected from I, V, M, L and T (e.g., selected from I, V,        and L);    -   X2 is selected from T, I, V, S, N, Y, E and L (e.g., selected        from T, V, and I);    -   X3 is selected from N, S, G, A, D, T, R, M and F (e.g., A or N);    -   X4 is selected from S, Y, N and F (e.g., S);    -   X5 is selected from V, I, L, C, T and F (e.g., selected from V,        I and L);    -   X6 is selected from W, F, V, Y, S and L (e.g., W);    -   X7 is selected from A, S, C, V and G (e.g., selected from A and        S);    -   X8 is selected from V, I, L, A, M and H (e.g., selected from V,        I, M and L); and    -   X9 is selected from any amino acid or is absent (e.g., selected        from T, V, I, L, Δ, F, S, A, Y, M and R, or, e.g., selected from        T, V, I, L and Δ).

In an embodiment, the N-terminal RuvC-like domain differs from asequence of SEQ ID NO:8, by as many as 1 but no more than 2, 3, 4, or 5residues.

In embodiment, the N-terminal RuvC-like domain is cleavage competent.

In embodiment, the N-terminal RuvC-like domain is cleavage incompetent.

In an embodiment, a eaCas9 molecule or eaCas9 polypeptide comprises anN-terminal RuvC-like domain comprising an amino acid sequence of formulaII:

(SEQ ID NO: 9) D-X1-G-X2-X3-S-X5-G-X6-X7-X8-X9,,

-   -   wherein    -   X1 is selected from I, V, M, L and T (e.g., selected from I, V,        and L);    -   X2 is selected from T, I, V, S, N, Y, E and L (e.g., selected        from T, V, and I);    -   X3 is selected from N, S, G, A, D, T, R, M and F (e.g., A or N);    -   X5 is selected from V, I, L, C, T and F (e.g., selected from V,        I and L);    -   X6 is selected from W, F, V, Y, S and L (e.g., W);    -   X7 is selected from A, S, C, V and G (e.g., selected from A and        S);    -   X8 is selected from V, I, L, A, M and H (e.g., selected from V,        I, M and L); and    -   X9 is selected from any amino acid or is absent (e.g., selected        from T, V, I, L, Δ, F, S, A, Y, M and R or selected from e.g.,        T, V, I, L and Δ).

In an embodiment, the N-terminal RuvC-like domain differs from asequence of SEQ ID NO:9 by as many as 1 but no more than 2, 3, 4, or 5residues.

In an embodiment, the N-terminal RuvC-like domain comprises an aminoacid sequence of formula III:

(SEQ ID NO: 10) D-I-G-X2-X3-S-V-G-W-A-X8-X9,

-   -   wherein    -   X2 is selected from T, I, V, S, N, Y, E and L (e.g., selected        from T, V, and I);    -   X3 is selected from N, S, G, A, D, T, R, M and F (e.g., A or N);    -   X8 is selected from V, I, L, A, M and H (e.g., selected from V,        I, M and L); and    -   X9 is selected from any amino acid or is absent (e.g., selected        from T, V, I, L, Δ, F, S, A, Y, M and R or selected from e.g.,        T, V, I, L and Δ).

In an embodiment, the N-terminal RuvC-like domain differs from asequence of SEQ ID NO:10 by as many as 1 but no more than, 2, 3, 4, or 5residues.

In an embodiment, the N-terminal RuvC-like domain comprises an aminoacid sequence of formula III:

(SEQ ID NO: 11) D-I-G-T-N-S-V-G-W-A-V-X,

-   -   wherein    -   X is a non-polar alkyl amino acid or a hydroxyl amino acid,        e.g., X is selected from V, I, L and T (e.g., the eaCas9        molecule can comprise an N-terminal RuvC-like domain shown in        FIGS. 2A-2G (is depicted as Y)).

In an embodiment, the N-terminal RuvC-like domain differs from asequence of SEQ ID NO:11 by as many as 1 but no more than, 2, 3, 4, or 5residues.

In an embodiment, the N-terminal RuvC-like domain differs from asequence of an N-terminal RuvC like domain disclosed herein, e.g., inFIGS. 3A-3B or FIGS. 7A-7B, as many as 1 but no more than 2, 3, 4, or 5residues. In an embodiment, 1, 2, 3 or all of the highly conservedresidues identified in FIGS. 3A-3B or FIGS. 7A-7B are present.

In an embodiment, the N-terminal RuvC-like domain differs from asequence of an N-terminal RuvC-like domain disclosed herein, e.g., inFIGS. 4A-4B or FIGS. 7A-7B, as many as 1 but no more than 2, 3, 4, or 5residues. In an embodiment, 1, 2, or all of the highly conservedresidues identified in FIGS. 4A-4B or FIGS. 7A-7B are present.

Additional RuvC-Like Domains

In addition to the N-terminal RuvC-like domain, the Cas9 molecule orCas9 polypeptide, e.g., an eaCas9 molecule or eaCas9 polypeptide, cancomprise one or more additional RuvC-like domains. In an embodiment, theCas9 molecule or Cas9 polypeptide can comprise two additional RuvC-likedomains. Preferably, the additional RuvC-like domain is at least 5 aminoacids in length and, e.g., less than 15 amino acids in length, e.g., 5to 10 amino acids in length, e.g., 8 amino acids in length.

An additional RuvC-like domain can comprise an amino acid sequence:

(SEQ ID NO: 12) I-X1-X2-E-X3-A-R-E,wherein

-   -   X1 is V or H,    -   X2 is I, L or V (e.g., I or V); and    -   X3 is M or T.

In an embodiment, the additional RuvC-like domain comprises the aminoacid sequence:

-   -   I-V-X2-E-M-A-R-E (SEQ ID NO:13), wherein    -   X2 is I, L or V (e.g., I or V) (e.g., the eaCas9 molecule or        eaCas9 polypeptide can comprise an additional RuvC-like domain        shown in FIG. 2A-2G or FIGS. 7A-7B (depicted as B)).

An additional RuvC-like domain can comprise an amino acid sequence:

(SEQ ID NO: 14) H-H-A-X1-D-A-X2-X3,wherein

-   -   X1 is H or L;    -   X2 is R or V; and    -   X3 is E or V.

In an embodiment, the additional RuvC-like domain comprises the aminoacid sequence: H-H-A-H-D-A-Y-L (SEQ ID NO:15).

In an embodiment, the additional RuvC-like domain differs from asequence of SEQ ID NO: 12, 13, 14 or 15 by as many as 1 but no more than2, 3, 4, or 5 residues.

In some embodiments, the sequence flanking the N-terminal RuvC-likedomain is a sequences of formula V:

(SEQ ID NO: 16) K-X1′-Y-X2′-X3′-X4′-Z-T-D-X9′-Y,.

-   -   wherein    -   X1′ is selected from K and P,    -   X2′ is selected from V, L, I, and F (e.g., V, I and L);    -   X3′ is selected from G, A and S (e.g., G),    -   X4′ is selected from L, I, V and F (e.g., L);    -   X9′ is selected from D, E, N and Q; and    -   Z is an N-terminal RuvC-like domain, e.g., as described above.

HNH-Like Domains

In an embodiment, an HNH-like domain cleaves a single strandedcomplementary domain, e.g., a complementary strand of a double strandednucleic acid molecule. In an embodiment, an HNH-like domain is at least15, 20, 25 amino acids in length but not more than 40, 35 or 30 aminoacids in length, e.g., 20 to 35 amino acids in length, e.g., 25 to 30amino acids in length. Exemplary HNH-like domains are described below.

In an embodiment, an eaCas9 molecule or eaCas9 polypeptide comprises anHNH-like domain having an amino acid sequence of formula VI:

(SEQ ID NO: 17) X1-X2-X3-H-X4-X5-P-X6-X7-X9-X10-X11-X12-X13-X14-X15-N-X16-X17-X18-X19-X20-X21-X22-X23-N,wherein

-   -   X1 is selected from D, E, Q and N (e.g., D and E);    -   X2 is selected from L, I, R, Q, V, M and K;    -   X3 is selected from D and E;    -   X4 is selected from I, V, T, A and L (e.g., A, I and V);    -   X5 is selected from V, Y, I, L, F and W (e.g., V, I and L);    -   X6 is selected from Q, H, R, K, Y, I, L, F and W;    -   X7 is selected from S, A, D, T and K (e.g., S and A);    -   X8 is selected from F, L, V, K, Y, M, I, R, A, E, D and Q (e.g.,        F);    -   X9 is selected from L, R, T, I, V, S, C, Y, K, F and G;    -   X10 is selected from K, Q, Y, T, F, L, W, M, A, E, G, and S;    -   X11 is selected from D, S, N, R, L and T (e.g., D);    -   X12 is selected from D, N and S;    -   X13 is selected from S, A, T, G and R (e.g., S);    -   X14 is selected from I, L, F, S, R, Y, Q, W, D, K and H (e.g.,        I, L and F);    -   X15 is selected from D, S, I, N, E, A, H, F, L, Q, M, G, Y and        V;    -   X16 is selected from K, L, R, M, T and F (e.g., L, R and K);    -   X17 is selected from V, L, I, A and T;    -   X18 is selected from L, I, V and A (e.g., L and I);    -   X19 is selected from T, V, C, E, S and A (e.g., T and V);    -   X20 is selected from R, F, T, W, E, L, N, C, K, V, S, Q, I, Y, H        and A;    -   X21 is selected from S, P, R, K, N, A, H, Q, G and L;    -   X22 is selected from D, G, T, N, S, K, A, I, E, L, Q, R and Y;        and    -   X23 is selected from K, V, A, E, Y, I, C, L, S, T, G, K, M, D        and F.

In an embodiment, a HNH-like domain differs from a sequence of SEQ IDNO: 17 by at least one but no more than, 2, 3, 4, or 5 residues.

In an embodiment, the HNH-like domain is cleavage competent.

In an embodiment, the HNH-like domain is cleavage incompetent.

In an embodiment, an eaCas9 molecule or eaCas9 polypeptide comprises anHNH-like domain comprising an amino acid sequence of formula VII:

(SEQ ID NO: 18) X1-X2-X3-H-X4-X5-P-X6-S-X8-X9-X10-D-D-S-X14-X15-N-K-V-L-X19-X20-X21-X22-X23-N,

-   -   wherein    -   X1 is selected from D and E;    -   X2 is selected from L, I, R, Q, V, M and K;    -   X3 is selected from D and E;    -   X4 is selected from I, V, T, A and L (e.g., A, I and V);    -   X5 is selected from V, Y, I, L, F and W (e.g., V, I and L);    -   X6 is selected from Q, H, R, K, Y, I, L, F and W;    -   X8 is selected from F, L, V, K, Y, M, I, R, A, E, D and Q (e.g.,        F);    -   X9 is selected from L, R, T, I, V, S, C, Y, K, F and G;    -   X10 is selected from K, Q, Y, T, F, L, W, M, A, E, G, and S;    -   X14 is selected from I, L, F, S, R, Y, Q, W, D, K and H (e.g.,        I, L and F);    -   X15 is selected from D, S, I, N, E, A, H, F, L, Q, M, G, Y and        V;    -   X19 is selected from T, V, C, E, S and A (e.g., T and V);    -   X20 is selected from R, F, T, W, E, L, N, C, K, V, S, Q, I, Y, H        and A;    -   X21 is selected from S, P, R, K, N, A, H, Q, G and L;    -   X22 is selected from D, G, T, N, S, K, A, I, E, L, Q, R and Y;        and    -   X23 is selected from K, V, A, E, Y, I, C, L, S, T, G, K, M, D        and F.

In an embodiment, the HNH-like domain differs from a sequence of SEQ IDNO: 18 by 1, 2, 3, 4, or 5 residues.

In an embodiment, an eaCas9 molecule or eaCas9 polypeptide comprises anHNH-like domain comprising an amino acid sequence of formula VII:

(SEQ ID NO: 19) X1-V-X3-H-I-V-P-X6-S-X8-X9-X10-D-D-S-X14-X15-N-K-V-L-T-X20-X21-X22-X23-N,

-   -   wherein    -   X1 is selected from D and E;    -   X3 is selected from D and E;    -   X6 is selected from Q, H, R, K, Y, I, L and W;    -   X8 is selected from F, L, V, K, Y, M, I, R, A, E, D and Q (e.g.,        F);    -   X9 is selected from L, R, T, I, V, S, C, Y, K, F and G;    -   X10 is selected from K, Q, Y, T, F, L, W, M, A, E, G, and S;    -   X14 is selected from I, L, F, S, R, Y, Q, W, D, K and H (e.g.,        I, L and F);    -   X15 is selected from D, S, I, N, E, A, H, F, L, Q, M, G, Y and        V;    -   X20 is selected from R, F, T, W, E, L, N, C, K, V, S, Q, I, Y, H        and A;    -   X21 is selected from S, P, R, K, N, A, H, Q, G and L;    -   X22 is selected from D, G, T, N, S, K, A, I, E, L, Q, R and Y;        and    -   X23 is selected from K, V, A, E, Y, I, C, L, S, T, G, K, M, D        and F.

In an embodiment, the HNH-like domain differs from a sequence of SEQ IDNO: 19 by 1, 2, 3, 4, or 5 residues.

In an embodiment, an eaCas9 molecule or eaCas9 polypeptide comprises anHNH-like domain having an amino acid sequence of formula VIII:

(SEQ ID NO: 20) D-X2-D-H-I-X5-P-Q-X7-F-X9-X10-D-X12-S-I-D-N-X16-V-L-X19-X20-S-X22-X23-N,

-   -   wherein    -   X2 is selected from I and V;    -   X5 is selected from I and V;    -   X7 is selected from A and S;    -   X9 is selected from I and L;    -   X10 is selected from K and T;    -   X12 is selected from D and N;    -   X16 is selected from R, K and L; X19 is selected from T and V;    -   X20 is selected from S and R;    -   X22 is selected from K, D and A; and    -   X23 is selected from E, K, G and N (e.g., the eaCas9 molecule or        eaCas9 polypeptide can comprise an HNH-like domain as described        herein).

In an embodiment, the HNH-like domain differs from a sequence of SEQ IDNO: 20 by as many as 1 but no more than 2, 3, 4, or 5 residues.

In an embodiment, an eaCas9 molecule or eaCas9 polypeptide comprises theamino acid sequence of formula IX:

(SEQ ID NO: 21) L-Y-Y-L-Q-N-G-X1′-D-M-Y-X2′-X3′-X4′-X5′-L-D-I-X6′-X7′-L-S-X8′-Y-Z-N-R-X9′-K-X10′-D-X11′-V-P,

-   -   wherein    -   X1′ is selected from K and R;    -   X2′ is selected from V and T;    -   X3′ is selected from G and D;    -   X4′ is selected from E, Q and D;    -   X5′ is selected from E and D;    -   X6′ is selected from D, N and H;    -   X7′ is selected from Y, R and N;    -   X8′ is selected from Q, D and N; X9′ is selected from G and E;    -   X10′ is selected from S and G;    -   X11′ is selected from D and N; and    -   Z is an HNH-like domain, e.g., as described above.

In an embodiment, the eaCas9 molecule or eaCas9 polypeptide comprises anamino acid sequence that differs from a sequence of SEQ ID NO:21 by asmany as 1 but no more than 2, 3, 4, or 5 residues.

In an embodiment, the HNH-like domain differs from a sequence of anHNH-like domain disclosed herein, e.g., in FIGS. 5A-5C or FIGS. 7A-7B,as many as 1 but no more than 2, 3, 4, or 5 residues. In an embodiment,1 or both of the highly conserved residues identified in FIGS. 5A-5C orFIGS. 7A-7B are present.

In an embodiment, the HNH-like domain differs from a sequence of anHNH-like domain disclosed herein, e.g., in FIGS. 6A-6B or FIGS. 7A-7B,as many as 1 but no more than 2, 3, 4, or 5 residues. In an embodiment,1, 2, all 3 of the highly conserved residues identified in FIGS. 6A-6Bor FIGS. 7A-7B are present.

Cas9 Activities

Nuclease and Helicase Activities

In an embodiment, the Cas9 molecule or Cas9 polypeptide is capable ofcleaving a target nucleic acid molecule. Typically wild type Cas9molecules cleave both strands of a target nucleic acid molecule. Cas9molecules and Cas9 polypeptides can be engineered to alter nucleasecleavage (or other properties), e.g., to provide a Cas9 molecule or Cas9polypeptide which is a nickase, or which lacks the ability to cleavetarget nucleic acid. A Cas9 molecule or Cas9 polypeptide that is capableof cleaving a target nucleic acid molecule is referred to herein as aneaCas9 (an enzymatically active Cas9) molecule or eaCas9 polypeptide. Inan embodiment, an eaCas9 molecule or eaCas9 polypeptide, comprises oneor more of the following activities:

-   -   a nickase activity, i.e., the ability to cleave a single strand,        e.g., the non-complementary strand or the complementary strand,        of a nucleic acid molecule;    -   a double stranded nuclease activity, i.e., the ability to cleave        both strands of a double stranded nucleic acid and create a        double stranded break, which in an embodiment is the presence of        two nickase activities;    -   an endonuclease activity;    -   an exonuclease activity; and    -   a helicase activity, i.e., the ability to unwind the helical        structure of a double stranded nucleic acid.

In an embodiment, an enzymatically active Cas9 or an eaCas9 molecule oran eaCas9 polypeptide cleaves both DNA strands and results in a doublestranded break. In an embodiment, an eaCas9 molecule or eaCas9polypeptide cleaves only one strand, e.g., the strand to which the gRNAhybridizes to, or the strand complementary to the strand the gRNAhybridizes with. In an embodiment, an eaCas9 molecule or eaCas9polypeptide comprises cleavage activity associated with an HNH-likedomain. In an embodiment, an eaCas9 molecule or eaCas9 polypeptidecomprises cleavage activity associated with an N-terminal RuvC-likedomain. In an embodiment, an eaCas9 molecule or eaCas9 polypeptidecomprises cleavage activity associated with an HNH-like domain andcleavage activity associated with an N-terminal RuvC-like domain. In anembodiment, an eaCas9 molecule or eaCas9 polypeptide comprises anactive, or cleavage competent, HNH-like domain and an inactive, orcleavage incompetent, N-terminal RuvC-like domain. In an embodiment, aneaCas9 molecule or eaCas9 polypeptide comprises an inactive, or cleavageincompetent, HNH-like domain and an active, or cleavage competent,N-terminal RuvC-like domain.

Some Cas9 molecules or Cas9 polypeptides have the ability to interactwith a gRNA molecule, and in conjunction with the gRNA molecule localizeto a core target domain, but are incapable of cleaving the targetnucleic acid, or incapable of cleaving at efficient rates. Cas9molecules having no, or no substantial, cleavage activity are referredto herein as an eiCas9 molecule or eiCas9 polypeptide. For example, aneiCas9 molecule or eiCas9 polypeptide can lack cleavage activity or havesubstantially less, e.g., less than 20, 10, 5, 1 or 0.1% of the cleavageactivity of a reference Cas9 molecule or eiCas9 polypeptide, as measuredby an assay described herein.

Targeting and PAMs

A Cas9 molecule or Cas9 polypeptide, is a polypeptide that can interactwith a guide RNA (gRNA) molecule and, in concert with the gRNA molecule,localizes to a site which comprises a target domain and PAM sequence.

In an embodiment, the ability of an eaCas9 molecule or eaCas9polypeptide to interact with and cleave a target nucleic acid is PAMsequence dependent. A PAM sequence is a sequence in the target nucleicacid. In an embodiment, cleavage of the target nucleic acid occursupstream from the PAM sequence. EaCas9 molecules from differentbacterial species can recognize different sequence motifs (e.g., PAMsequences). In an embodiment, an eaCas9 molecule of S. pyogenesrecognizes the sequence motif NGG and directs cleavage of a targetnucleic acid sequence 1 to 10, e.g., 3 to 5, base pairs upstream fromthat sequence. See, e.g., Mali et al., SCIENCE 2013; 339(6121): 823-826.In an embodiment, an eaCas9 molecule of S. thermophilus recognizes thesequence motif NGGNG and NNAGAAW (W=A or T) and directs cleavage of acore target nucleic acid sequence 1 to 10, e.g., 3 to 5, base pairsupstream from these sequences. See, e.g., Horvath et al., SCIENCE 2010;327(5962):167-170, and Deveau et al., J BACTERIOL 2008; 190(4):1390-1400. In an embodiment, an eaCas9 molecule of S. mutans recognizesthe sequence motif NGG and/or NAAR (R=A or G) and directs cleavage of acore target nucleic acid sequence 1 to 10, e.g., 3 to 5 base pairs,upstream from this sequence. See, e.g., Deveau et al., J BACTERIOL 2008;190(4): 1390-1400. In an embodiment, an eaCas9 molecule of S. aureusrecognizes the sequence motif NNGRR (R=A or G) and directs cleavage of atarget nucleic acid sequence 1 to 10, e.g., 3 to 5, base pairs upstreamfrom that sequence. In an embodiment, an eaCas9 molecule of S. aureusrecognizes the sequence motif NNGRRN (R=A or G) and directs cleavage ofa target nucleic acid sequence 1 to 10, e.g., 3 to 5, base pairsupstream from that sequence. In an embodiment, an eaCas9 molecule of S.aureus recognizes the sequence motif NNGRRT (R=A or G) and directscleavage of a target nucleic acid sequence 1 to 10, e.g., 3 to 5, basepairs upstream from that sequence. In an embodiment, an eaCas9 moleculeof S. aureus recognizes the sequence motif NNGRRV (R=A or G, V=A, G orC) and directs cleavage of a target nucleic acid sequence 1 to 10, e.g.,3 to 5, base pairs upstream from that sequence. In an embodiment, aneaCas9 molecule of Neisseria meningitidis recognizes the sequence motifNNNNGATT or NNNGCTT and directs cleavage of a target nucleic acidsequence 1 to 10, e.g., 3 to 5, base pairs upstream from that sequence.See, e.g., Hou et al., PNAS Early Edition 2013, 1-6. The ability of aCas9 molecule to recognize a PAM sequence can be determined, e.g., usinga transformation assay described in Jinek et al., SCIENCE 2012 337:816.In the aforementioned embodiments, N can be any nucleotide residue,e.g., any of A, G, C or T.

As is discussed herein, Cas9 molecules can be engineered to alter thePAM specificity of the Cas9 molecule.

Exemplary naturally occurring Cas9 molecules are described in Chylinskiet al., RNA BIOLOGY 2013 10:5, 727-737. Such Cas9 molecules include Cas9molecules of a cluster 1 bacterial family, cluster 2 bacterial family,cluster 3 bacterial family, cluster 4 bacterial family, cluster 5bacterial family, cluster 6 bacterial family, a cluster 7 bacterialfamily, a cluster 8 bacterial family, a cluster 9 bacterial family, acluster 10 bacterial family, a cluster 11 bacterial family, a cluster 12bacterial family, a cluster 13 bacterial family, a cluster 14 bacterialfamily, a cluster 15 bacterial family, a cluster 16 bacterial family, acluster 17 bacterial family, a cluster 18 bacterial family, a cluster 19bacterial family, a cluster 20 bacterial family, a cluster 21 bacterialfamily, a cluster 22 bacterial family, a cluster 23 bacterial family, acluster 24 bacterial family, a cluster 25 bacterial family, a cluster 26bacterial family, a cluster 27 bacterial family, a cluster 28 bacterialfamily, a cluster 29 bacterial family, a cluster 30 bacterial family, acluster 31 bacterial family, a cluster 32 bacterial family, a cluster 33bacterial family, a cluster 34 bacterial family, a cluster 35 bacterialfamily, a cluster 36 bacterial family, a cluster 37 bacterial family, acluster 38 bacterial family, a cluster 39 bacterial family, a cluster 40bacterial family, a cluster 41 bacterial family, a cluster 42 bacterialfamily, a cluster 43 bacterial family, a cluster 44 bacterial family, acluster 45 bacterial family, a cluster 46 bacterial family, a cluster 47bacterial family, a cluster 48 bacterial family, a cluster 49 bacterialfamily, a cluster 50 bacterial family, a cluster 51 bacterial family, acluster 52 bacterial family, a cluster 53 bacterial family, a cluster 54bacterial family, a cluster 55 bacterial family, a cluster 56 bacterialfamily, a cluster 57 bacterial family, a cluster 58 bacterial family, acluster 59 bacterial family, a cluster 60 bacterial family, a cluster 61bacterial family, a cluster 62 bacterial family, a cluster 63 bacterialfamily, a cluster 64 bacterial family, a cluster 65 bacterial family, acluster 66 bacterial family, a cluster 67 bacterial family, a cluster 68bacterial family, a cluster 69 bacterial family, a cluster 70 bacterialfamily, a cluster 71 bacterial family, a cluster 72 bacterial family, acluster 73 bacterial family, a cluster 74 bacterial family, a cluster 75bacterial family, a cluster 76 bacterial family, a cluster 77 bacterialfamily, or a cluster 78 bacterial family.

Exemplary naturally occurring Cas9 molecules include a Cas9 molecule ofa cluster 1 bacterial family. Examples include a Cas9 molecule of: S.pyogenes (e.g., strain SF370, MGAS10270, MGAS10750, MGAS2096, MGAS315,MGAS5005, MGAS6180, MGAS9429, NZ131 and SSI-1), S. thermophilus (e.g.,strain LMD-9), S. pseudoporcinus (e.g., strain SPIN 20026), S. mutans(e.g., strain UA159, NN2025), S. macacae (e.g., strain NCTC11558), S.gallolyticus (e.g., strain UCN34, ATCC BAA-2069), S. equines (e.g.,strain ATCC 9812, MGCS 124), S. dysdalactiae (e.g., strain GGS 124), S.bovis (e.g., strain ATCC 700338), S. anginosus (e.g., strain F0211), S.agalactiae (e.g., strain NEM316, A909), Listeria monocytogenes (e.g.,strain F6854), Listeria innocua (L. innocua, e.g., strain Clip11262),Enterococcus italicus (e.g., strain DSM 15952), or Enterococcus faecium(e.g., strain 1,231,408). Additional exemplary Cas9 molecules are a Cas9molecule of Neisseria meningitides (Hou et al., PNAS Early Edition 2013,1-6 and a S. aureus cas9 molecule.

In an embodiment, a Cas9 molecule or Cas9 polypeptide, e.g., an eaCas9molecule or eaCas9 polypeptide, comprises an amino acid sequence:

-   -   having 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%, 98% or        99% homology with;    -   differs at no more than, 2, 5, 10, 15, 20, 30, or 40% of the        amino acid residues when compared with;    -   differs by at least 1, 2, 5, 10 or 20 amino acids, but by no        more than 100, 80, 70, 60, 50, 40 or 30 amino acids from; or    -   is identical to any Cas9 molecule sequence described herein, or        a naturally occurring Cas9 molecule sequence, e.g., a Cas9        molecule from a species listed herein or described in Chylinski        et al., RNA BIOLOGY 2013 10:5, 727-737; Hou et al., PNAS Early        Edition 2013, 1-6; SEQ ID NO:1-4. In an embodiment, the Cas9        molecule or Cas9 polypeptide comprises one or more of the        following activities: a nickase activity; a double stranded        cleavage activity (e.g., an endonuclease and/or exonuclease        activity); a helicase activity; or the ability, together with a        gRNA molecule, to localize to a target nucleic acid.

In an embodiment, a Cas9 molecule or Cas9 polypeptide comprises any ofthe amino acid sequence of the consensus sequence of FIGS. 2A-2G,wherein “*” indicates any amino acid found in the corresponding positionin the amino acid sequence of a Cas9 molecule or Cas9 polypeptide of S.pyogenes, S. thermophilus, S. mutans and L. innocua, and “−” indicatesany amino acid. In an embodiment, a Cas9 molecule differs from thesequence of the consensus sequence of FIGS. 2A-2G by at least 1, but nomore than 2, 3, 4, 5, 6, 7, 8, 9, or 10 amino acid residues. In anembodiment, a Cas9 molecule or Cas9 polypeptide comprises the amino acidsequence of SEQ ID NO:7 of FIGS. 7A-7B, wherein “*” indicates any aminoacid found in the corresponding position in the amino acid sequence of aCas9 molecule or Cas9 polypeptide of S. pyogenes, or N. meningitides,“−” indicates any amino acid, and “−” indicates any amino acid orabsent. In an embodiment, a Cas9 molecule or Cas9 polypeptide differsfrom the sequence of SEQ ID NO:6 or 7 disclosed in FIGS. 7A-7B by atleast 1, but no more than 2, 3, 4, 5, 6, 7, 8, 9, or 10 amino acidresidues.

A comparison of the sequence of a number of Cas9 molecules indicate thatcertain regions are conserved. These are identified below as:

-   -   region 1 (residues 1 to 180, or in the case of region 1′        residues 120 to 180)    -   region 2 (residues 360 to 480);    -   region 3 (residues 660 to 720);    -   region 4 (residues 817 to 900); and    -   region 5 (residues 900 to 960);

In an embodiment, a Cas9 molecule or Cas9 polypeptide comprises regions1-5, together with sufficient additional Cas9 molecule sequence toprovide a biologically active molecule, e.g., a Cas9 molecule having atleast one activity described herein. In an embodiment, each of regions1-5, independently, have 50%, 60%, 70%, 80%, 85%, 90%, 95%, 96%, 97%,98% or 99% homology with the corresponding residues of a Cas9 moleculeor Cas9 polypeptide described herein, e.g., a sequence from FIGS. 2A-2Gor from FIGS. 7A-7B.

In an embodiment, a Cas9 molecule or Cas9 polypeptide, e.g., an eaCas9molecule or eaCas9 polypeptide, comprises an amino acid sequencereferred to as region 1:

-   -   having 50%, 60%, 70%, 80%, 85%, 90%, 95%, 96%, 97%, 98% or 99%        homology with amino acids 1-180 (the numbering is according to        the motif sequence in FIGS. 2A-2G; 52% of residues in the four        Cas9 sequences in FIGS. 2A-2G are conserved) of the amino acid        sequence of Cas9 of S. pyogenes;    -   differs by at least 1, 2, 5, 10 or 20 amino acids but by no more        than 90, 80, 70, 60, 50, 40 or 30 amino acids from amino acids        1-180 of the amino acid sequence of Cas9 of S. pyogenes, S.        thermophilus, S. mutans or Listeria innocua; or    -   is identical to 1-180 of the amino acid sequence of Cas9 of S.        pyogenes, S. thermophilus, S. mutans or L. innocua.

In an embodiment, a Cas9 molecule or Cas9 polypeptide, e.g., an eaCas9molecule or eaCas9 polypeptide, comprises an amino acid sequencereferred to as region 1′:

-   -   having 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%,        98% or 99% homology with amino acids 120-180 (55% of residues in        the four Cas9 sequences in FIGS. 2A-2G are conserved) of the        amino acid sequence of Cas9 of S. pyogenes, S. thermophilus, S.        mutans or L. innocua;    -   differs by at least 1, 2, or 5 amino acids but by no more than        35, 30, 25, 20 or 10 amino acids from amino acids 120-180 of the        amino acid sequence of Cas9 of S. pyogenes, S. thermophilus, S.        mutans or L. innocua; or    -   is identical to 120-180 of the amino acid sequence of Cas9 of S.        pyogenes, S. thermophilus, S. mutans or L. innocua.

In an embodiment, a Cas9 molecule or Cas9 polypeptide, e.g., an eaCas9molecule or eaCas9 polypeptide, comprises an amino acid sequencereferred to as region 2:

-   -   having 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%,        97%, 98% or 99% homology with amino acids 360-480 (52% of        residues in the four Cas9 sequences in FIGS. 2A-2G are        conserved) of the amino acid sequence of Cas9 of S. pyogenes, S.        thermophilus, S. mutans or L. innocua;    -   differs by at least 1, 2, or 5 amino acids but by no more than        35, 30, 25, 20 or 10 amino acids from amino acids 360-480 of the        amino acid sequence of Cas9 of S. pyogenes, S. thermophilus, S.        mutans or L. innocua; or    -   is identical to 360-480 of the amino acid sequence of Cas9 of S.        pyogenes, S. thermophilus, S. mutans or L. innocua.

In an embodiment, a Cas9 molecule or Cas9 polypeptide, e.g., an eaCas9molecule or eaCas9 polypeptide, comprises an amino acid sequencereferred to as region 3:

-   -   having 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%, 97%,        98%, or 99% homology with amino acids 660-720 (56% of residues        in the four Cas9 sequences in FIGS. 2A-2G are conserved) of the        amino acid sequence of Cas9 of S. pyogenes, S. thermophilus, S.        mutans or L. innocua;    -   differs by at least 1, 2, or 5 amino acids but by no more than        35, 30, 25, 20 or 10 amino acids from amino acids 660-720 of the        amino acid sequence of Cas9 of S. pyogenes, S. thermophilus, S.        mutans or L. innocua; or    -   is identical to 660-720 of the amino acid sequence of Cas9 of S.        pyogenes, S. thermophilus, S. mutans or L. innocua.

In an embodiment, a Cas9 molecule, e.g., an eaCas9 molecule, comprisesan amino acid sequence referred to as region 4:

-   -   having 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%,        97%, 98%, or 99% homology with amino acids 817-900 (55% of        residues in the four Cas9 sequences in FIGS. 2A-2G are        conserved) of the amino acid sequence of Cas9 of S. pyogenes, S.        thermophilus, S. mutans or L. innocua;    -   differs by at least 1, 2, or 5 amino acids but by no more than        35, 30, 25, 20 or 10 amino acids from amino acids 817-900 of the        amino acid sequence of Cas9 of S. pyogenes, S. thermophilus, S.        mutans or L. innocua; or    -   is identical to 817-900 of the amino acid sequence of Cas9 of S.        pyogenes, S. thermophilus, S. mutans or L. innocua.

In an embodiment, a Cas9 molecule or Cas9 polypeptide, e.g., an eaCas9molecule or eaCas9 polypeptide, comprises an amino acid sequencereferred to as region 5:

-   -   having 50%, 55%, 60%, 65%, 70%, 75%, 80%, 85%, 90%, 95%, 96%,        97%, 98%, or 99% homology with amino acids 900-960 (60% of        residues in the four Cas9 sequences in FIGS. 2A-2G are        conserved) of the amino acid sequence of Cas9 of S. pyogenes, S.        thermophilus, S. mutans or L. innocua;    -   differs by at least 1, 2, or 5 amino acids but by no more than        35, 30, 25, 20 or 10 amino acids from amino acids 900-960 of the        amino acid sequence of Cas9 of S. pyogenes, S. thermophilus, S.        mutans or L. innocua; or    -   is identical to 900-960 of the amino acid sequence of Cas9 of S.        pyogenes, S. thermophilus, S. mutans or L. innocua.

Engineered or Altered Cas9 Molecules and Cas9 Polypeptides

Cas9 molecules and Cas9 polypeptides described herein, e.g., naturallyoccurring Cas9 molecules can possess any of a number of properties,including: nickase activity, nuclease activity (e.g., endonucleaseand/or exonuclease activity); helicase activity; the ability toassociate functionally with a gRNA molecule; and the ability to target(or localize to) a site on a nucleic acid (e.g., PAM recognition andspecificity). In an embodiment, a Cas9 molecule or Cas9 polypeptide caninclude all or a subset of these properties. In typical embodiments, aCas9 molecule or Cas9 polypeptide have the ability to interact with agRNA molecule and, in concert with the gRNA molecule, localize to a sitein a nucleic acid. Other activities, e.g., PAM specificity, cleavageactivity, or helicase activity can vary more widely in Cas9 moleculesand Cas9 polypeptides.

Cas9 molecules include engineered Cas9 molecules and engineered Cas9polypeptides (engineered, as used in this context, means merely that theCas9 molecule or Cas9 polypeptide differs from a reference sequences,and implies no process or origin limitation). An engineered Cas9molecule or Cas9 polypeptide can comprise altered enzymatic properties,e.g., altered nuclease activity, (as compared with a naturally occurringor other reference Cas9 molecule) or altered helicase activity. Asdiscussed herein, an engineered Cas9 molecule or Cas9 polypeptide canhave nickase activity (as opposed to double strand nuclease activity).In an embodiment an engineered Cas9 molecule or Cas9 polypeptide canhave an alteration that alters its size, e.g., a deletion of amino acidsequence that reduces its size, e.g., without significant effect on oneor more, or any Cas9 activity. In an embodiment, an engineered Cas9molecule or Cas9 polypeptide can comprise an alteration that affects PAMrecognition. E.g., an engineered Cas9 molecule can be altered torecognize a PAM sequence other than that recognized by the endogenouswild-type PI domain. In an embodiment, a Cas9 molecule or Cas9polypeptide can differ in sequence from a naturally occurring Cas9molecule but not have significant alteration in one or more Cas9activities.

Cas9 molecules or Cas9 polypeptides with desired properties can be madein a number of ways, e.g., by alteration of a parental, e.g., naturallyoccurring Cas9 molecules or Cas9 polypeptides to provide an altered Cas9molecule or Cas9 polypeptide having a desired property. For example, oneor more mutations or differences relative to a parental Cas9 molecule,e.g., a naturally occurring or engineered Cas9 molecule, can beintroduced. Such mutations and differences comprise: substitutions(e.g., conservative substitutions or substitutions of non-essentialamino acids); insertions; or deletions. In an embodiment, a Cas9molecule or Cas9 polypeptide can comprises one or more mutations ordifferences, e.g., at least 1, 2, 3, 4, 5, 10, 15, 20, 30, 40 or 50mutations, but less than 200, 100, or 80 mutations relative to areference, e.g., a parental, Cas9 molecule.

In an embodiment, a mutation or mutations do not have a substantialeffect on a Cas9 activity, e.g. a Cas9 activity described herein. In anembodiment, a mutation or mutations have a substantial effect on a Cas9activity, e.g. a Cas9 activity described herein.

Non-Cleaving and Modified-Cleavage Cas9 Molecules and Cas9 Polypeptides

In an embodiment, a Cas9 molecule or Cas9 polypeptide comprises acleavage property that differs from naturally occurring Cas9 molecules,e.g., that differs from the naturally occurring Cas9 molecule having theclosest homology. For example, a Cas9 molecule or Cas9 polypeptide candiffer from naturally occurring Cas9 molecules, e.g., a Cas9 molecule ofS. pyogenes, as follows: its ability to modulate, e.g., decreased orincreased, cleavage of a double stranded nucleic acid (endonucleaseand/or exonuclease activity), e.g., as compared to a naturally occurringCas9 molecule (e.g., a Cas9 molecule of S. pyogenes); its ability tomodulate, e.g., decreased or increased, cleavage of a single strand of anucleic acid, e.g., a non-complementary strand of a nucleic acidmolecule or a complementary strand of a nucleic acid molecule (nickaseactivity), e.g., as compared to a naturally occurring Cas9 molecule(e.g., a Cas9 molecule of S. pyogenes); or the ability to cleave anucleic acid molecule, e.g., a double stranded or single strandednucleic acid molecule, can be eliminated.

Modified Cleavage eaCas9 Molecules and eaCas9 Polypeptides

In an embodiment, an eaCas9 molecule or eaCas9 polypeptide comprises oneor more of the following activities: cleavage activity associated withan N-terminal RuvC-like domain; cleavage activity associated with anHNH-like domain; cleavage activity associated with an HNH-like domainand cleavage activity associated with an N-terminal RuvC-like domain.

In an embodiment, an eaCas9 molecule or eaCas9 polypeptide comprises anactive, or cleavage competent, HNH-like domain (e.g., an HNH-like domaindescribed herein, e.g., SEQ ID NO: 17, SEQ ID NO: 18, SEQ ID NO: 19, SEQID NO: 20 or SEQ ID NO: 21) and an inactive, or cleavage incompetent,N-terminal RuvC-like domain. An exemplary inactive, or cleavageincompetent N-terminal RuvC-like domain can have a mutation of anaspartic acid in an N-terminal RuvC-like domain, e.g., an aspartic acidat position 9 of the consensus sequence disclosed in FIGS. 2A-2G or anaspartic acid at position 10 of SEQ ID NO: 7, e.g., can be substitutedwith an alanine. In an embodiment, the eaCas9 molecule or eaCas9polypeptide differs from wild type in the N-terminal RuvC-like domainand does not cleave the target nucleic acid, or cleaves withsignificantly less efficiency, e.g., less than 20, 10, 5, 1 or 0.1% ofthe cleavage activity of a reference Cas9 molecule, e.g., as measured byan assay described herein. The reference Cas9 molecule can by anaturally occurring unmodified Cas9 molecule, e.g., a naturallyoccurring Cas9 molecule such as a Cas9 molecule of S. pyogenes, or S.thermophilus. In an embodiment, the reference Cas9 molecule is thenaturally occurring Cas9 molecule having the closest sequence identityor homology.

In an embodiment, an eaCas9 molecule or eaCas9 polypeptide comprises aninactive, or cleavage incompetent, HNH domain and an active, or cleavagecompetent, N-terminal RuvC-like domain (e.g., a RuvC-like domaindescribed herein, e.g., SEQ ID NO: 8, SEQ ID NO: 9, SEQ ID NO: 10, SEQID NO: 11, SEQ ID NO: 12, SEQ ID NO: 13, SEQ ID NO: 14, SEQ ID NO: 15,or SEQ ID NO: 16). Exemplary inactive, or cleavage incompetent HNH-likedomains can have a mutation at one or more of: a histidine in anHNH-like domain, e.g., a histidine shown at position 856 of theconsensus sequence disclosed in FIGS. 2A-2G, e.g., can be substitutedwith an alanine; and one or more asparagines in an HNH-like domain,e.g., an asparagine shown at position 870 of the consensus sequencedisclosed in FIGS. 2A-2G and/or at position 879 of the consensussequence disclosed in FIGS. 2A-2G, e.g., can be substituted with analanine. In an embodiment, the eaCas9 differs from wild type in theHNH-like domain and does not cleave the target nucleic acid, or cleaveswith significantly less efficiency, e.g., less than 20, 10, 5, 1 or 0.1%of the cleavage activity of a reference Cas9 molecule, e.g., as measuredby an assay described herein. The reference Cas9 molecule can by anaturally occurring unmodified Cas9 molecule, e.g., a naturallyoccurring Cas9 molecule such as a Cas9 molecule of S. pyogenes, or S.thermophilus. In an embodiment, the reference Cas9 molecule is thenaturally occurring Cas9 molecule having the closest sequence identityor homology.

Alterations in the Ability to Cleave One or Both Strands of a TargetNucleic Acid

In an embodiment, exemplary Cas9 activities comprise one or more of PAMspecificity, cleavage activity, and helicase activity. A mutation(s) canbe present, e.g., in one or more RuvC-like domain, e.g., an N-terminalRuvC-like domain; an HNH-like domain; a region outside the RuvC-likedomains and the HNH-like domain. In some embodiments, a mutation(s) ispresent in a RuvC-like domain, e.g., an N-terminal RuvC-like domain. Insome embodiments, a mutation(s) is present in an HNH-like domain. Insome embodiments, mutations are present in both a RuvC-like domain,e.g., an N-terminal RuvC-like domain and an HNH-like domain.

Exemplary mutations that may be made in the RuvC domain or HNH domainwith reference to the S. pyogenes sequence include: D10A, E762A, H840A,N854A, N863A and/or D986A.

In an embodiment, a Cas9 molecule or Cas9 polypeptide is an eiCas9molecule or eiCas9 polypeptide comprising one or more differences in aRuvC domain and/or in an HNH domain as compared to a reference Cas9molecule, and the eiCas9 molecule or eiCas9 polypeptide does not cleavea nucleic acid, or cleaves with significantly less efficiency than doeswildype, e.g., when compared with wild type in a cleavage assay, e.g.,as described herein, cuts with less than 50, 25, 10, or 1% of areference Cas9 molecule, as measured by an assay described herein.

Whether or not a particular sequence, e.g., a substitution, may affectone or more activity, such as targeting activity, cleavage activity,etc., can be evaluated or predicted, e.g., by evaluating whether themutation is conservative or by the method described in Section IV. In anembodiment, a “non-essential” amino acid residue, as used in the contextof a Cas9 molecule, is a residue that can be altered from the wild-typesequence of a Cas9 molecule, e.g., a naturally occurring Cas9 molecule,e.g., an eaCas9 molecule, without abolishing or more preferably, withoutsubstantially altering a Cas9 activity (e.g., cleavage activity),whereas changing an “essential” amino acid residue results in asubstantial loss of activity (e.g., cleavage activity).

In an embodiment, a Cas9 molecule or Cas9 polypeptide comprises acleavage property that differs from naturally occurring Cas9 molecules,e.g., that differs from the naturally occurring Cas9 molecule having theclosest homology. For example, a Cas9 molecule or Cas9 polypeptide candiffer from naturally occurring Cas9 molecules, e.g., a Cas9 molecule ofS aureus, S. pyogenes, or C. jejuni as follows: its ability to modulate,e.g., decreased or increased, cleavage of a double stranded break(endonuclease and/or exonuclease activity), e.g., as compared to anaturally occurring Cas9 molecule (e.g., a Cas9 molecule of S aureus, S.pyogenes, or C. jejuni); its ability to modulate, e.g., decreased orincreased, cleavage of a single strand of a nucleic acid, e.g., anon-complimentary strand of a nucleic acid molecule or a complementarystrand of a nucleic acid molecule (nickase activity), e.g., as comparedto a naturally occurring Cas9 molecule (e.g., a Cas9 molecule of Saureus, S. pyogenes, or C. jejuni); or the ability to cleave a nucleicacid molecule, e.g., a double stranded or single stranded nucleic acidmolecule, can be eliminated.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptide is aneaCas9 molecule or eaCas9 polypeptide comprising one or more of thefollowing activities: cleavage activity associated with a RuvC domain;cleavage activity associated with an HNH domain; cleavage activityassociated with an HNH domain and cleavage activity associated with aRuvC domain.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptide is aneiCas9 molecule or eiCas9 polypeptide which does not cleave a nucleicacid molecule (either double stranded or single stranded nucleic acidmolecules) or cleaves a nucleic acid molecule with significantly lessefficiency, e.g., less than 20, 10, 5, 1 or 0.1% of the cleavageactivity of a reference Cas9 molecule, e.g., as measured by an assaydescribed herein. The reference Cas9 molecule can be a naturallyoccurring unmodified Cas9 molecule, e.g., a naturally occurring Cas9molecule such as a Cas9 molecule of S. pyogenes, S. thermophilus, S.aureus, C. jejuni or N. meningitidis. In an embodiment, the referenceCas9 molecule is the naturally occurring Cas9 molecule having theclosest sequence identity or homology. In an embodiment, the eiCas9molecule or eiCas9 polypeptide lacks substantial cleavage activityassociated with a RuvC domain and cleavage activity associated with anHNH domain.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptide is aneaCas9 molecule or eaCas9 polypeptide comprising the fixed amino acidresidues of S. pyogenes shown in the consensus sequence disclosed inFIGS. 2A-2G, and has one or more amino acids that differ from the aminoacid sequence of S. pyogenes (e.g., has a substitution) at one or moreresidue (e.g., 2, 3, 5, 10, 15, 20, 30, 50, 70, 80, 90, 100, 200 aminoacid residues) represented by an “−” in the consensus sequence disclosedin FIGS. 2A-2G or SEQ ID NO:7.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptidecomprises a sequence in which:

-   -   the sequence corresponding to the fixed sequence of the        consensus sequence disclosed in FIGS. 2A-2G differs at no more        than 1, 2, 3, 4, 5, 10, 15, or 20% of the fixed residues in the        consensus sequence disclosed in FIGS. 2A-2G;    -   the sequence corresponding to the residues identified by “*” in        the consensus sequence disclosed in FIGS. 2A-2G differ at no        more than 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, or 40% of the        “*” residues from the corresponding sequence of naturally        occurring Cas9 molecule, e.g., an S. pyogenes Cas9 molecule;        and,    -   the sequence corresponding to the residues identified by “−” in        the consensus sequence disclosed in FIGS. 2A-2G differ at no        more than 5, 10, 15, 20, 25, 30, 35, 40, 45, 55, or 60% of the        “−” residues from the corresponding sequence of naturally        occurring Cas9 molecule, e.g., an S. pyogenes Cas9 molecule.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptide is aneaCas9 molecule or eaCas9 polypeptide comprising the fixed amino acidresidues of S. thermophilus shown in the consensus sequence disclosed inFIGS. 2A-2G, and has one or more amino acids that differ from the aminoacid sequence of S. thermophilus (e.g., has a substitution) at one ormore residue (e.g., 2, 3, 5, 10, 15, 20, 30, 50, 70, 80, 90, 100, 200amino acid residues) represented by an “−” in the consensus sequencedisclosed in FIGS. 2A-2G.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptidecomprises a sequence in which:

-   -   the sequence corresponding to the fixed sequence of the        consensus sequence disclosed in FIGS. 2A-2G differs at no more        than 1, 2, 3, 4, 5, 10, 15, or 20% of the fixed residues in the        consensus sequence disclosed in FIGS. 2A-2G;    -   the sequence corresponding to the residues identified by “*” in        the consensus sequence disclosed in FIGS. 2A-2G differ at no        more than 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, or 40% of the        “*” residues from the corresponding sequence of naturally        occurring Cas9 molecule, e.g., an S. thermophilus Cas9 molecule;        and,    -   the sequence corresponding to the residues identified by “−” in        the consensus sequence disclosed in FIGS. 2A-2G differ at no        more than 5, 10, 15, 20, 25, 30, 35, 40, 45, 55, or 60% of the        “−” residues from the corresponding sequence of naturally        occurring Cas9 molecule, e.g., an S. thermophilus Cas9 molecule.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptide is aneaCas9 molecule or eaCas9 polypeptide comprising the fixed amino acidresidues of S. mutans shown in the consensus sequence disclosed in FIGS.2A-2G, and has one or more amino acids that differ from the amino acidsequence of S. mutans (e.g., has a substitution) at one or more residue(e.g., 2, 3, 5, 10, 15, 20, 30, 50, 70, 80, 90, 100, 200 amino acidresidues) represented by an “−” in the consensus sequence disclosed inFIGS. 2A-2G.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptidecomprises a sequence in which:

-   -   the sequence corresponding to the fixed sequence of the        consensus sequence disclosed in FIGS. 2A-2G differs at no more        than 1, 2, 3, 4, 5, 10, 15, or 20% of the fixed residues in the        consensus sequence disclosed in FIGS. 2A-2G;    -   the sequence corresponding to the residues identified by “*” in        the consensus sequence disclosed in FIGS. 2A-2G differ at no        more than 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, or 40% of the        “*” residues from the corresponding sequence of naturally        occurring Cas9 molecule, e.g., an S. mutans Cas9 molecule; and,    -   the sequence corresponding to the residues identified by “−” in        the consensus sequence disclosed in FIGS. 2A-2G differ at no        more than 5, 10, 15, 20, 25, 30, 35, 40, 45, 55, or 60% of the        “−” residues from the corresponding sequence of naturally        occurring Cas9 molecule, e.g., an S. mutans Cas9 molecule.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptide is aneaCas9 molecule or eaCas9 polypeptide comprising the fixed amino acidresidues of L. innocula shown in the consensus sequence disclosed inFIGS. 2A-2G, and has one or more amino acids that differ from the aminoacid sequence of L. innocula (e.g., has a substitution) at one or moreresidue (e.g., 2, 3, 5, 10, 15, 20, 30, 50, 70, 80, 90, 100, 200 aminoacid residues) represented by an “−” in the consensus sequence disclosedin FIGS. 2A-2G.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptidecomprises a sequence in which:

-   -   the sequence corresponding to the fixed sequence of the        consensus sequence disclosed in FIGS. 2A-2G differs at no more        than 1, 2, 3, 4, 5, 10, 15, or 20% of the fixed residues in the        consensus sequence disclosed in FIGS. 2A-2G;    -   the sequence corresponding to the residues identified by “*” in        the consensus sequence disclosed in FIGS. 2A-2G differ at no        more than 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 35, or 40% of the        “*” residues from the corresponding sequence of naturally        occurring Cas9 molecule, e.g., an L. innocula Cas9 molecule;        and,    -   the sequence corresponding to the residues identified by “−” in        the consensus sequence disclosed in FIGS. 2A-2G differ at no        more than 5, 10, 15, 20, 25, 30, 35, 40, 45, 55, or 60% of the        “−” residues from the corresponding sequence of naturally        occurring Cas9 molecule, e.g., an L. innocula Cas9 molecule.

In an embodiment, the altered Cas9 molecule or Cas9 polypeptide, e.g.,an eaCas9 molecule or eaCas9 polypeptide, can be a fusion, e.g., of twoof more different Cas9 molecules, e.g., of two or more naturallyoccurring Cas9 molecules of different species. For example, a fragmentof a naturally occurring Cas9 molecule of one species can be fused to afragment of a Cas9 molecule of a second species. As an example, afragment of a Cas9 molecule of S. pyogenes comprising an N-terminalRuvC-like domain can be fused to a fragment of a Cas9 molecule of aspecies other than S. pyogenes (e.g., S. thermophilus) comprising anHNH-like domain.

Cas9 Molecules or Cas9 Polypeptides with Altered PAM Recognition or NoPAM Recognition

Naturally occurring Cas9 molecules can recognize specific PAM sequences,for example, the PAM recognition sequences described above for S.pyogenes, S. thermophiles, S. mutans, S. aureus and N. meningitidis.

In an embodiment, a Cas9 molecule or Cas9 polypeptide has the same PAMspecificities as a naturally occurring Cas9 molecule. In anotherembodiment, a Cas9 molecule or Cas9 polypeptide has a PAM specificitynot associated with a naturally occurring Cas9 molecule, or a PAMspecificity not associated with the naturally occurring Cas9 molecule towhich it has the closest sequence homology. For example, a naturallyoccurring Cas9 molecule or Cas9 polypeptide can be altered, e.g., toalter PAM recognition, e.g., to alter the PAM sequence that the Cas9molecule recognizes to decrease off target sites and/or improvespecificity; or eliminate a PAM recognition requirement. In anembodiment, a Cas9 molecule or Cas9 polypeptide can be altered, e.g., toincrease length of PAM recognition sequence and/or improve Cas9specificity to high level of identity (e.g., 98%, 99% or 100% matchbetween gRNA and a PAM sequence), e.g., to decrease off target sites andincrease specificity. In an embodiment, the length of the PAMrecognition sequence is at least 4, 5, 6, 7, 8, 9, 10 or 15 amino acidsin length. In an embodiment, the Cas9 specificity requires at least 90%,95%, 96%, 97%, 98%, 99% or more homology between the gRNA and the PAMsequence. Cas9 molecules or Cas9 polypeptides that recognize differentPAM sequences and/or have reduced off-target activity can be generatedusing directed evolution. Exemplary methods and systems that can be usedfor directed evolution of Cas9 molecules are described, e.g., in Esveltet al. NATURE 2011, 472(7344): 499-503. Candidate Cas9 molecules can beevaluated, e.g., by methods described in Section IV.

Alterations of the PI domain, which mediates PAM recognition, arediscussed below.

Synthetic Cas9 Molecules and Cas9 Polypeptides with Altered PI Domains

Current genome-editing methods are limited in the diversity of targetsequences that can be targeted by the PAM sequence that is recognized bythe Cas9 molecule utilized. A synthetic Cas9 molecule (or Syn-Cas9molecule), or synthetic Cas9 polypeptide (or Syn-Cas9 polypeptide), asthat term is used herein, refers to a Cas9 molecule or Cas9 polypeptidethat comprises a Cas9 core domain from one bacterial species and afunctional altered PI domain, i.e., a PI domain other than thatnaturally associated with the Cas9 core domain, e.g., from a differentbacterial species.

In an embodiment, the altered PI domain recognizes a PAM sequence thatis different from the PAM sequence recognized by the naturally-occurringCas9 from which the Cas9 core domain is derived. In an embodiment, thealtered PI domain recognizes the same PAM sequence recognized by thenaturally-occurring Cas9 from which the Cas9 core domain is derived, butwith different affinity or specificity. A Syn-Cas9 molecule or Syn-Cas9polypeptide can be, respectively, a Syn-eaCas9 molecule or Syn-eaCas9polypeptide or a Syn-eiCas9 molecule Syn-eiCas9 polypeptide.

An exemplary Syn-Cas9 molecule or Syn-Cas9 polypeptide comprises:

-   -   a) a Cas9 core domain, e.g., a Cas9 core domain from Table 50 or        51, e.g., a S. aureus, S. pyogenes, or C. jejuni Cas9 core        domain; and    -   b) an altered PI domain from a species X Cas9 sequence selected        from Tables 53 and 54.

In an embodiment, the RKR motif (the PAM binding motif) of said alteredPI domain comprises: differences at 1, 2, or 3 amino acid residues; adifference in amino acid sequence at the first, second, or thirdposition; differences in amino acid sequence at the first and secondpositions, the first and third positions, or the second and thirdpositions; as compared with the sequence of the RKR motif of the nativeor endogenous PI domain associated with the Cas9 core domain.

In an embodiment, the Cas9 core domain comprises the Cas9 core domainfrom a species X Cas9 from Table 50 and said altered PI domain comprisesa PI domain from a species Y Cas9 from Table 50.

In an embodiment, the RKR motif of the species X Cas9 is other than theRKR motif of the species Y Cas9.

In an embodiment, the RKR motif of the altered PI domain is selectedfrom XXY, XNG, and XNQ.

In an embodiment, the altered PI domain has at least 60, 70, 80, 90, 95,or 100% homology with the amino acid sequence of a naturally occurringPI domain of said species Y from Table 50.

In an embodiment, the altered PI domain differs by no more than 50, 40,30, 25, 20, 15, 10, 5, 4, 3, 2, or 1 amino acid residue from the aminoacid sequence of a naturally occurring PI domain of said second speciesfrom Table 50.

In an embodiment, the Cas9 core domain comprises a S. aureus core domainand altered PI domain comprises: an A. denitrificans PI domain; a C.jejuni PI domain; a H. mustelae PI domain; or an altered PI domain ofspecies X PI domain, wherein species X is selected from Table 54.

In an embodiment, the Cas9 core domain comprises a S. pyogenes coredomain and the altered PI domain comprises: an A. denitrificans PIdomain; a C. jejuni PI domain; a H. mustelae PI domain; or an altered PIdomain of species X PI domain, wherein species X is selected from Table54.

In an embodiment, the Cas9 core domain comprises a C. jejuni core domainand the altered PI domain comprises: an A. denitrificans PI domain; a H.mustelae PI domain; or an altered PI domain of species X PI domain,wherein species X is selected from Table 54.

In an embodiment, the Cas9 molecule or Cas9 polypeptide furthercomprises a linker disposed between said Cas9 core domain and saidaltered PI domain.

In an embodiment, the linker comprises: a linker described elsewhereherein disposed between the Cas9 core domain and the heterologous PIdomain. Suitable linkers are further described in Section V.

Exemplary altered PI domains for use in Syn-Cas9 molecules are describedin Tables 53 and 54. The sequences for the 83 Cas9 orthologs referencedin Tables 53 and 54 are provided in Table 50. Table 52 provides the Cas9orthologs with known PAM sequences and the corresponding RKR motif.

In an embodiment, a Syn-Cas9 molecule or Syn-Cas9 polypeptide may alsobe size-optimized, e.g., the Syn-Cas9 molecule or Syn-Cas9 polypeptidecomprises one or more deletions, and optionally one or more linkersdisposed between the amino acid residues flanking the deletions. In anembodiment, a Syn-Cas9 molecule or Syn-Cas9 polypeptide comprises a RECdeletion.

Size-Optimized Cas9 Molecules and Cas9 Polypeptides

Engineered Cas9 molecules and engineered Cas9 polypeptides describedherein include a Cas9 molecule or Cas9 polypeptide comprising a deletionthat reduces the size of the molecule while still retaining desired Cas9properties, e.g., essentially native conformation, Cas9 nucleaseactivity, and/or target nucleic acid molecule recognition. Providedherein are Cas9 molecules or Cas9 polypeptides comprising one or moredeletions and optionally one or more linkers, wherein a linker isdisposed between the amino acid residues that flank the deletion.Methods for identifying suitable deletions in a reference Cas9 molecule,methods for generating Cas9 molecules with a deletion and a linker, andmethods for using such Cas9 molecules will be apparent to one ofordinary skill in the art upon review of this document.

A Cas9 molecule, e.g., a S. aureus, S. pyogenes, or C. jejuni, Cas9molecule, having a deletion is smaller, e.g., has reduced number ofamino acids, than the corresponding naturally-occurring Cas9 molecule.The smaller size of the Cas9 molecules allows increased flexibility fordelivery methods, and thereby increases utility for genome-editing. ACas9 molecule or Cas9 polypeptide can comprise one or more deletionsthat do not substantially affect or decrease the activity of theresultant Cas9 molecules or Cas9 polypeptides described herein.Activities that are retained in the Cas9 molecules or Cas9 polypeptidescomprising a deletion as described herein include one or more of thefollowing:

-   -   a nickase activity, i.e., the ability to cleave a single strand,        e.g., the non-complementary strand or the complementary strand,        of a nucleic acid molecule; a double stranded nuclease activity,        i.e., the ability to cleave both strands of a double stranded        nucleic acid and create a double stranded break, which in an        embodiment is the presence of two nickase activities;    -   an endonuclease activity;    -   an exonuclease activity;    -   a helicase activity, i.e., the ability to unwind the helical        structure of a double stranded nucleic acid;    -   and recognition activity of a nucleic acid molecule, e.g., a        target nucleic acid or a gRNA.

Activity of the Cas9 molecules or Cas9 polypeptides described herein canbe assessed using the activity assays described herein or in the art.

Identifying Regions Suitable for Deletion

Suitable regions of Cas9 molecules for deletion can be identified by avariety of methods. Naturally-occurring orthologous Cas9 molecules fromvarious bacterial species, e.g., any one of those listed in Table 50,can be modeled onto the crystal structure of S. pyogenes Cas9 (Nishimasuet al., Cell, 156:935-949, 2014) to examine the level of conservationacross the selected Cas9 orthologs with respect to the three-dimensionalconformation of the protein. Less conserved or unconserved regions thatare spatially located distant from regions involved in Cas9 activity,e.g., interface with the target nucleic acid molecule and/or gRNA,represent regions or domains are candidates for deletion withoutsubstantially affecting or decreasing Cas9 activity.

REC-Optimized Cas9 Molecules and Cas9 Polypeptides

A REC-optimized Cas9 molecule, or a REC-optimized Cas9 polypeptide, asthat term is used herein, refers to a Cas9 molecule or Cas9 polypeptidethat comprises a deletion in one or both of the REC2 domain and theRE1_(CT) domain (collectively a REC deletion), wherein the deletioncomprises at least 10% of the amino acid residues in the cognate domain.A REC-optimized Cas9 molecule or Cas9 polypeptide can be an eaCas9molecule or eaCas9 polypeptide, or an eiCas9 molecule or eiCas9polypeptide. An exemplary REC-optimized Cas9 molecule or REC-optimizedCas9 polypeptide comprises:

-   -   a) a deletion selected from:        -   i) a REC2 deletion;        -   ii) a REC1_(CT) deletion; or        -   iii) a REC1_(SUB) deletion.

Optionally, a linker is disposed between the amino acid residues thatflank the deletion.

In an embodiment, a Cas9 molecule or Cas9 polypeptide includes only onedeletion, or only two deletions. A Cas9 molecule or Cas9 polypeptide cancomprise a REC2 deletion and a REC1_(CT) deletion. A Cas9 molecule orCas9 polypeptide can comprise a REC2 deletion and a REC1_(SUB) deletion.

Generally, the deletion will contain at least 10% of the amino acids inthe cognate domain, e.g., a REC2 deletion will include at least 10% ofthe amino acids in the REC2 domain.

A deletion can comprise: at least 10, 20, 30, 40, 50, 60, 70, 80, or 90%of the amino acid residues of its cognate domain; all of the amino acidresidues of its cognate domain; an amino acid residue outside itscognate domain; a plurality of amino acid residues outside its cognatedomain; the amino acid residue immediately N terminal to its cognatedomain; the amino acid residue immediately C terminal to its cognatedomain; the amino acid residue immediately N terminal to its cognate andthe amino acid residue immediately C terminal to its cognate domain; aplurality of, e.g., up to 5, 10, 15, or 20, amino acid residues Nterminal to its cognate domain; a plurality of, e.g., up to 5, 10, 15,or 20, amino acid residues C terminal to its cognate domain; a pluralityof, e.g., up to 5, 10, 15, or 20, amino acid residues N terminal to toits cognate domain and a plurality of e.g., up to 5, 10, 15, or 20,amino acid residues C terminal to its cognate domain.

In an embodiment, a deletion does not extend beyond: its cognate domain;the N terminal amino acid residue of its cognate domain; the C terminalamino acid residue of its cognate domain.

A REC-optimized Cas9 molecule or REC-optimized Cas9 polypeptide caninclude a linker disposed between the amino acid residues that flank thedeletion. Any linkers known in the art that maintain the conformation ornative fold of the Cas9 molecule (thereby retaining Cas9 activity) canbe used between the amino acid resides that flank a REC deletion in aREC-optimized Cas9 molecule or REC-optimized Cas9 polypeptide. Linkersfor use in generating recombinant proteins, e.g., multi-domain proteins,are known in the art (Chen et al., Adv Drug Delivery Rev, 65:1357-69,2013).

In an embodiment, a REC-optimized Cas9 molecule or REC-optimized Cas9polypeptide comprises an amino acid sequence that, other than any RECdeletion and associated linker, has at least 50, 55, 60, 65, 70, 75, 80,85, 90, 95, 99, or 100% homology with the amino acid sequence of anaturally occurring Cas 9, e.g., a Cas9 molecule described in Table 50,e.g., a S. aureus Cas9 molecule, a S. pyogenes Cas9 molecule, or a C.jejuni Cas9 molecule.

In an embodiment, a a REC-optimized Cas9 molecule or REC-optimized Cas9polypeptide comprises an amino acid sequence that, other than any RECdeletion and associated linker, differs by no more than 1, 2, 3, 4, 5,6, 7, 8, 9, 10, 15, 20, or 25, amino acid residues from the amino acidsequence of a naturally occurring Cas 9, e.g., a Cas9 molecule describedin Table 50, e.g., a S. aureus Cas9 molecule, a S. pyogenes Cas9molecule, or a C. jejuni Cas9 molecule.

In an embodiment, a REC-optimized Cas9 molecule or REC-optimized Cas9polypeptide comprises an amino acid sequence that, other than any RECdeletion and associate linker, differs by no more than 1, 2, 3, 4, 5, 6,7, 8, 9, 10, 15, 20, or 25% of the, amino acid residues from the aminoacid sequence of a naturally occurring Cas 9, e.g., a Cas9 moleculedescribed in Table 50, e.g., a S. aureus Cas9 molecule, a S. pyogenesCas9 molecule, or a C. jejuni Cas9 molecule.

For sequence comparison, typically one sequence acts as a referencesequence, to which test sequences are compared. When using a sequencecomparison algorithm, test and reference sequences are entered into acomputer, subsequence coordinates are designated, if necessary, andsequence algorithm program parameters are designated. Default programparameters can be used, or alternative parameters can be designated. Thesequence comparison algorithm then calculates the percent sequenceidentities for the test sequences relative to the reference sequence,based on the program parameters. Methods of alignment of sequences forcomparison are well known in the art. Optimal alignment of sequences forcomparison can be conducted, e.g., by the local homology algorithm ofSmith and Waterman, (1970) Adv. Appl. Math. 2:482c, by the homologyalignment algorithm of Needleman and Wunsch, (1970) J. Mol. Biol.48:443, by the search for similarity method of Pearson and Lipman,(1988) Proc. Nat'l. Acad. Sci. USA 85:2444, by computerizedimplementations of these algorithms (GAP, BESTFIT, FASTA, and TFASTA inthe Wisconsin Genetics Software Package, Genetics Computer Group, 575Science Dr., Madison, Wis.), or by manual alignment and visualinspection (see, e.g., Brent et al., (2003) Current Protocols inMolecular Biology).

Two examples of algorithms that are suitable for determining percentsequence identity and sequence similarity are the BLAST and BLAST 2.0algorithms, which are described in Altschul et al., (1977) Nuc. AcidsRes. 25:3389-3402; and Altschul et al., (1990) J. Mol. Biol.215:403-410, respectively. Software for performing BLAST analyses ispublicly available through the National Center for BiotechnologyInformation.

The percent identity between two amino acid sequences can also bedetermined using the algorithm of E. Meyers and W. Miller, (1988)Comput. Appl. Biosci. 4:11-17) which has been incorporated into theALIGN program (version 2.0), using a PAM120 weight residue table, a gaplength penalty of 12 and a gap penalty of 4. In addition, the percentidentity between two amino acid sequences can be determined using theNeedleman and Wunsch (1970) J. Mol. Biol. 48:444-453) algorithm whichhas been incorporated into the GAP program in the GCG software package(available at www.gcg.com), using either a Blossom 62 matrix or a PAM250matrix, and a gap weight of 16, 14, 12, 10, 8, 6, or 4 and a lengthweight of 1, 2, 3, 4, 5, or 6.

Sequence information for exemplary REC deletions are provided for 83naturally-occurring Cas9 orthologs in Table 50.

The amino acid sequences of exemplary Cas9 molecules from differentbacterial species are shown below.

TABLE 50 Amino Acid Sequence of Cas9 Orthologs REC2 REC1_(CT) Rec_(sub)start stop #AA start stop #AA start stop #AA Amino acid (AA (AA delete(AA (AA delete (AA (AA delete Species/Composite ID sequence pos) pos) d(n) pos) pos) d (n) pos) pos) d (n) Staphylococcus Aureus SEQ ID NO: 126166 41 296 352 57 296 352 57 tr|J7RUA5|J7RUA5_STAAU 304 StreptococcusPyogenes SEQ ID NO: 176 314 139 511 592 82 511 592 82sp|Q99ZW2|CAS9_STRP1 305 Campylobacter jejuni NCTC 11168 SEQ ID NO: 137181 45 316 360 45 316 360 45 gi|218563121|ref|YP_002344900.1 306Bacteroides fragilis NCTC 9343 SEQ ID NO: 148 339 192 524 617 84 524 61784 gi|60683389|ref|YP_213533.1| 307 Bifidobacterium bifidum S17 SEQ IDNO: 173 335 163 516 607 87 516 607 87 gi|310286728|ref|YP_003937986. 308Veillonella atypica SEQ ID NO: 185 339 155 574 663 79 574 663 79ACS-134-V-Col7a 309 gi|303229466|ref|ZP_07316256.1 Lactobacillusrhamnosus GG SEQ ID NO: 169 320 152 559 645 78 559 645 78gi|258509199|ref|YP_003171950.1 310 Filifactor alocis ATCC 35896 SEQ IDNO: 166 314 149 508 592 76 508 592 76 gi|374307738|ref|YP_005054169.1311 Oenococcus kitaharae DSM 17330 SEQ ID NO: 169 317 149 555 639 80 555639 80 gi|366983953|gb|EHN59352.1| 312 Fructobacillus fructosus SEQ IDNO: 168 314 147 488 571 76 488 571 76 KCTC 3544 313gi|339625081|ref|ZP_08660870.1 Catenibacterium mitsuokai SEQ ID NO: 173318 146 511 594 78 511 594 78 DSM 15897 314gi|224543312|ref|ZP_03683851.1 Finegoldia magna ATCC 29328 SEQ ID NO:168 313 146 452 534 77 452 534 77 gi|169823755|ref|YP_001691366.1 315Coriobacterium glomeransPW2 SEQ ID NO: 175 318 144 511 592 82 511 592 82gi|328956315|ref|YP_004373648.1 316 Eubacterium yurii ATCC 43715 SEQ IDNO: 169 310 142 552 633 76 552 633 76 gi|306821691|ref|ZP_07455288.1 317Peptoniphilus duerdenii ATCC SEQ ID NO: 171 311 141 535 615 76 535 61576 BAA-1640 318 gi|304438954|ref|ZP_07398877.1 Acidaminococcus sp. D21SEQ ID NO: 167 306 140 511 591 75 511 591 75gi|227824983|ref|ZP_03989815.1 319 Lactobacillus farciminis KCTC 3681SEQ ID NO: 171 310 140 542 621 85 542 621 85gi|336394882|ref|ZP_08576281.1 320 Streptococcus sanguinis SK49 SEQ IDNO: 185 324 140 411 490 85 411 490 85 gi|422884106|ref|ZP_16930555.1 321Coprococcus catus GD-7 SEQ ID NO: 172 310 139 556 634 76 556 634 76gi|291520705|emb|CBK78998.1| 322 Streptococcus mutans UA159 SEQ ID NO:176 314 139 392 470 84 392 470 84 gi|24379809|ref|NP_721764.1| 323Streptococcus pyogenes M1 GAS SEQ ID NO: 176 314 139 523 600 82 523 60082 gi|13622193|gb|AAK33936.1| 324 Streptococcus thermophilus LMD-9 SEQID NO: 176 314 139 481 558 81 481 558 81 gi|116628213|ref|YP_820832.1|325 Fusobacterium nucleatum SEQ ID NO: 171 308 138 537 614 76 537 614 76ATCC49256 326 gi|34762592|ref|ZP_00143587.1| Planococcus antarcticus DSM14505 SEQ ID NO: 162 299 138 538 614 94 538 614 94gi|389815359|ref|ZP_10206685.1 327 Treponema denticola ATCC 35405 SEQ IDNO: 169 305 137 524 600 81 524 600 81 gi|42525843|ref|NP_970941.1| 328Solobacterium moorei F0204 SEQ ID NO: 179 314 136 544 619 77 544 619 77gi|320528778|ref|ZP_08029929.1 329 Staphylococcus pseudintermedius SEQID NO: 164 299 136 531 606 92 531 606 92 ED99 330gi|323463801|gb|ADX75954.1| Flavobacterium branchiophilum SEQ ID NO: 162286 125 538 613 63 538 613 63 FL-15 331 gi|347536497|ref|YP_004843922.1Ignavibacterium album JCM 16511 SEQ ID NO: 223 329 107 357 432 90 357432 90 gi|385811609|ref|YP_005848005.1 332 Bergeyella zoohelcum ATCC43767 SEQ ID NO: 165 261 97 529 604 56 529 604 56gi|423317190|ref|ZP_17295095.1 333 Nitrobacter hamburgensis X14 SEQ IDNO: 169 253 85 536 611 48 536 611 48 gi|92109262|ref|YP_571550.1| 334Odoribacter laneus YIT 12061 SEQ ID NO: 164 242 79 535 610 63 535 610 63gi|374384763|ref|ZP_09642280.1 335 Legionella pneumophila str. Paris SEQID NO: 164 239 76 402 476 67 402 476 67 gi|54296138|ref|YP_122507.1| 336Bacteroides sp. 20 3 SEQ ID NO: 198 269 72 530 604 83 530 604 83gi|301311869|ref|ZP_07217791.1 337 Akkermansia muciniphila SEQ ID NO:136 202 67 348 418 62 348 418 62 ATCC BAA-835 338gi|187736489|ref|YP_001878601. Prevotella sp. C561 SEQ ID NO: 184 250 67357 425 78 357 425 78 gi|345885718|ref|ZP_08837074.1 339 Wolinellasuccinogenes DSM 1740 SEQ ID NO: 157 218 36 401 468 60 401 468 60gi|34557932|ref|NP_907747.1| 340 Alicyclobacillus hesperidum SEQ ID NO:142 196 55 416 482 61 416 482 61 URH17-3-68 341gi|403744858|ref|ZP_10953934.1 Caenispirillum salinarum AK4 SEQ ID NO:161 214 54 330 393 68 330 393 68 gi|427429481|ref|ZP_18919511.1 342Eubacterium rectale ATCC 33656 SEQ ID NO: 133 185 53 322 384 60 322 38460 gi|238924075|ref|YP_002937591.1 343 Mycoplasma synoviae 53 SEQ ID NO:187 239 53 319 381 80 319 381 80 gi|71894592|ref|YP278700.1| 344Porphyromonas sp. oral taxon SEQ ID NO: 150 202 53 309 371 60 309 371 60279str. F0450 345 gi|402847315|ref|ZP_10895610.1 Streptococcusthermophilus LMD-9 SEQ ID NO: 127 178 139 424 486 81 424 486 81gi|116627542|ref|YP_820161.1| 346 Roseburia inulinivorans DSM 16841 SEQID NO: 154 204 51 318 380 69 318 380 69 gi|225377804|ref|ZP_03755025.1347 Methylosinus trichosporium OB3b SEQ ID NO: 144 193 50 426 488 64 426488 64 gi|296446027|ref|ZP_06887976.1 348 Ruminococcus albus 8 SEQ IDNO: 139 187 49 351 412 55 351 412 55 gi|325677756|ref|ZP_08157403.1 349Bifidobacterium longum DJO10A SEQ ID NO: 183 230 48 370 431 44 370 43144 gi|189440764|ref|YP_001955845. 350 Enterococcus faecalis TX0012 SEQID NO: 123 170 48 327 387 60 327 387 60 gi|315149830|gb|EFT93846.1| 351Mycoplasma mobile 163K SEQ ID NO: 179 226 48 314 374 79 314 374 79gi|47458868|ref|YP_015730.1| 352 Actinomyces coleocanis DSM 15436 SEQ IDNO: 147 193 47 358 418 40 358 418 40 gi|227494853|ref|ZP_03925169.1 353Dinoroseobacter shibae DFL 12 SEQ ID NO: 138 184 47 338 398 48 338 39848 gi|159042956|ref|YP_001531750.1 354 Actinomyces sp. oral taxon 180SEQ ID NO: 183 228 46 349 409 40 349 409 40 str. F0310 355gi|315605738|ref|ZP_07880770.1 Alcanivorax sp. W11-5 SEQ ID NO: 139 18345 344 404 61 344 404 61 gi|407803669|ref|ZP_11150502.1 356 Aminomonaspaucivorans DSM 12260 SEQ ID NO: 134 178 45 341 401 63 341 401 63gi|312879015|ref|ZP_07738815.1 357 Mycoplasma canis PG 14 SEQ ID NO: 139183 45 319 379 76 319 379 76 gi|384393286|gb|EIE39736.1| 358Lactobacillus coryniformis SEQ ID NO: 141 184 44 328 387 61 328 387 61KCTC 3535 359 gi|336393381|ref|ZP_08574780.1 Elusimicrobium minutumPei191 SEQ ID NO: 177 219 43 322 381 47 322 381 47gi|187250660|ref|YP_001875142.1 360 Neisseria meningitidis Z2491 SEQ IDNO: 147 189 43 360 419 61 360 419 61 gi|218767588|ref|YP_002342100.1 361Pasteurella multocida str. Pm70 SEQ ID NO: 139 181 43 319 378 61 319 37861 gi|15602992|ref|NP_246064.1| 362 Rhodovulum sp. PH10 SEQ ID NO: 141183 43 319 378 48 319 378 48 gi|402849997|ref|ZP_10898214.1 363Eubacterium dolichum DSM 3991 SEQ ID NO: 131 172 42 303 361 59 303 36159 gi|160915782|ref|ZP_02077990.1 364 Nitratifractor salsuginis DSM16511 SEQ ID NO: 143 184 42 347 404 61 347 404 61gi|319957206|ref|YP_004168469.1 365 Rhodospirillum rubrum ATCC 11170 SEQID NO: 139 180 42 314 371 55 314 371 55 gi|83591793|ref|YP_425545.1| 366Clostridium cellulolyticum H10 SEQ ID NO: 137 176 40 320 376 61 320 37661 gi|220930482|ref|YP_002507391.1 367 Helicobacter mustelae 12198 SEQID NO: 148 187 40 298 354 48 298 354 48 gi|291276265|ref|YP_003516037.1368 Ilyobacter polytropus DSM 2926 SEQ ID NO: 134 173 40 462 517 63 462517 63 gi|310780384|ref|YP_003968716.1 369 Sphaerochaeta globus str.Buddy SEQ ID NO: 163 202 40 335 389 45 335 389 45gi|325972003|ref|YP_004248194.1 370 Staphylococcus lugdunensis M23590SEQ ID NO: 128 167 40 337 391 57 337 391 57gi|315659848|ref|ZP_07912707.1 371 Treponema sp. JC4 SEQ ID NO: 144 18340 328 382 63 328 382 63 gi|384109266|ref|ZP_10010146.1 372 uncultureddelta SEQ ID NO: 154 193 40 313 365 55 313 365 55 proteobacterium HF007007E19 373 gi|297182908|gb|ADI19058.1| Alicycliphilus denitrificans K601SEQ ID NO: 140 178 39 317 366 48 317 366 48gi|330822845|ref|YP_004386148.1 374 Azospirillum sp. B510 SEQ ID NO: 205243 39 342 389 46 342 389 46 gi|288957741|ref|YP_003448082.1 375Bradyrhizobium sp. BTAil SEQ ID NO: 143 181 39 323 370 48 323 370 48gi|148255343|ref|YP_001239928.1 376 Parvibaculum lavamentivorans DS-1SEQ ID NO: 138 176 39 327 374 58 327 374 58gi|154250555|ref|YP_001411379.1 377 Prevotella timonensis CRIS 5C-B1 SEQID NO: 170 208 39 328 375 61 328 375 61 gi|282880052|ref|ZP_06288774.1378 Bacillus smithii 7 3 47FAA SEQ ID NO: 134 171 38 401 448 63 401 44863 gi|365156657|ref|ZP_09352959.1 379 Cand. Puniceispirillum marinum SEQID NO: 135 172 38 344 391 53 344 391 53 IMCC1322 380gi|294086111|ref|YP_003552871.1 Barnesiella intestinihominis SEQ ID NO:140 176 37 371 417 60 371 417 60 YIT 11860 381gi|404487228|ref|ZP_11022414.1 Ralstonia syzygii R24 SEQ ID NO: 140 17637 395 440 50 395 440 50 gi|344171927|emb|CCA84553.1| 382 Wolinellasuccinogenes DSM 1740 SEQ ID NO: 145 180 36 348 392 60 348 392 60gi|34557790|ref|NP_907605.1| 383 Mycoplasma gallisepticum str. F SEQ IDNO: 144 177 34 373 416 71 373 416 71 gi|284931710|gb|ADC31648.1| 384Acidothermus cellulolyticus 11B SEQ ID NO: 150 182 33 341 380 58 341 38058 gi|117929158|ref|YP_873709.1| 385 Mycoplasma ovipneumoniae SC01 SEQID NO: 156 184 29 381 420 62 381 420 62 gi|363542550|ref|ZP_09312133.1386

TABLE 51 Amino Acid Sequence of Cas9 Core Domains Cas9 Start Cas9 StopStrain Name (AA pos) (AA pos) Start and Stop numbers refer to thesequence in Table 50 Staphylococcus Aureus 1 772 Streptococcus Pyogenes1 1099 Campulobacter Jejuni 1 741

TABLE 52 Identified PAM sequences and corresponding RKR motifs.PAM sequence RKR motif Strain Name (NA) (AA) Streptococcus pyogenes NGGRKR Streptococcus mutans NGG RKR Streptococcus NGGNG RYR thermophilus ATreponema denticola NAAAAN VAK Streptococcus NNAAAAW IYK thermophilus BCampylobacter jejuni NNNNACA NLK Pasteurella multocida GNNNCNNA KDGNeisseria meningitidis NNNNGATT or IGK Staphylococcus aureusNNGRRV (R = A NDK or G; V = A, G or C) NNGRRT (R = A or G)

TABLE 53 Altered PI Domains PI Start PI Stop Length of PI RKR motifStrain Name (AA pos) (AA pos) (AA) (AA) Start and Stop numbers refer tothe sequences in Table 50 Alicycliphilus 837 1029 193 --Y denitrificansK601 Campylobacter 741 984 244 -NG jejuni NCTC 11168 Helicobacter 7711024 254 -NQ mustelae 12198

TABLE 54 Other Altered PI Domains PI Start PI Stop Length of PI RKRmotif Strain Name (AA pos) (AA pos) (AA) (AA) Start and Stop numbersrefer to the sequences in Table 50 Akkermansia 871 1101 231 ALKmuciniphila ATCC BAA-835 Ralstonia 821 1062 242 APY syzygii R24 Cand.815 1035 221 AYK Puniceispirillum marinum IMCC1322 Fructobacillus 10741323 250 DGN fructosus KCTC 3544 Eubacterium yurii 1107 1391 285 DGYATCC 43715 Eubacterium 779 1096 318 DKK dolichum DSM 3991Dinoroseobacter 851 1079 229 DPI shibae DFL 12 Clostridium 767 1021 255EGK cellulolyticum H10 Pasteurella multocida 815 1056 242 ENN str. Pm70Mycoplasma canis 907 1233 327 EPK PG 14 Poiphyromonas sp. 935 1197 263EPT oral taxon 279 str. F0450 Filifactor alocis 1094 1365 272 EVD ATCC35896 Aminomonas 801 1052 252 EVY paucivorans DSM 12260 Wolinella 10341409 376 EYK succinogenes DSM 1740 Oenococcus 1119 1389 271 GALkitaharae DSM 17330 Coriobacterium 1126 1384 259 GDR glomerans PW2Peptoniphilus 1091 1364 274 GDS duerdenii ATCC BAA-1640 Bifidobacterium1138 1420 283 GGL bifidum S17 Alicyclobacillus 876 1146 271 GGRhesperidum URH17-3-68 Roseburia 895 1152 258 GGT inulinivorans DSM 16841Actinomyces 843 1105 263 GKK coleocanis DSM 15436 Odoribacter laneus1103 1498 396 GKV YIT 12061 Coprococcus catus 1063 1338 276 GNQ GD-7Enterococcus 829 1150 322 GRK faecalis TX0012 Bacillus smithii 809 1088280 GSK 7 3 47FAA Legionella 1021 1372 352 GTM pneumophila str. ParisBacteroides fragilis 1140 1436 297 IPV NCTC 9343 Mycoplasma 923 1265 343IRI ovipneumoniae SC01 Actinomyces sp. 895 1181 287 KEK oral taxon 180str. F0310 Treponema sp. JC4 832 1062 231 KIS Fusobacterium 1073 1374302 KKV nucleatum ATCC49256 Lactobacillus 1101 1356 256 KKV farciminisKCTC 3681 Nitratifractor 840 1132 293 KMR salsuginis DSM 16511Lactobacillus 850 1119 270 KNK colyniformis KCTC 3535 Mycoplasma 9161236 321 KNY mobile 163K Flavobacterium 1182 1473 292 KQK branchiophilumFL-15 Prevotella 957 1218 262 KQQ timonensis CRIS 5C-B1 Methylosinus 8301082 253 KRP trichosporium OB3b Prevotella sp. C561 1099 1424 326 KRYMycoplasma 911 1269 359 KTA gallisepticum str. F Lactobacillus 1077 1363287 KYG rhamnosus GG Wolinella 811 1059 249 LPN succinogenes DSM 1740Streptococcus 1099 1388 290 MLA thermophilus LMD-9 Treponema 1092 1395304 NDS denticola ATCC 35405 Bergeyella 1098 1415 318 NEK zoohelcum ATCC43767 Veillonella atypica 1107 1398 292 NGF ACS-134-V-Col7a Neisseria835 1082 248 NHN meningitidis Z2491 Ignavibacterium 1296 1688 393 NKKalbum JCM 16511 Ruminococcus 853 1156 304 NNF albus 8 Streptococcus 8111121 311 NNK thermophilus LMD-9 Barnesiella 871 1153 283 NPVintestinihominis YIT 11860 Azospirillum sp. 911 1168 258 PFH B510Rhodospirillum 863 1173 311 PRG rubrum ATCC 11170 Planococcus 1087 1333247 PYY antarcticus DSM 14505 Staphylococcus 1073 1334 262 QIVpseudintermedius ED99 Alcanivorax sp. 843 1113 271 RIE W11-5Bradyrhizobium sp. 811 1064 254 RIY BTAi1 Streptococcus 1099 1368 270RKR pyogenes M1 GAS Streptococcus 1078 1345 268 RKR mutans UA159Streptococcus 1099 1368 270 RKR Pyogenes Bacteroides sp. 1147 1517 371RNI 20 3 S. aureus 772 1053 282 RNK Solobacterium 1062 1327 266 RSGmoorei F0204 Finegoldia magna 1081 1348 268 RTE ATCC 29328 uncultureddelta 770 1011 242 SGG proteobacterium HF0070 07E19 Acidaminococcus sp.1064 1358 295 SIG D21 Eubacterium rectale 824 1114 291 SKK ATCC 33656Caenispirillum 1048 1442 395 SLV salinarum AK4 Acidothermus 830 1138 309SPS cellulolyticus 11B Catenibacterium 1068 1329 262 SPT mitsuokai DSM15897 Parvibaculum 827 1037 211 TGN lavamentivorans DS-1 Staphylococcus772 1054 283 TKK lugdunensis M23590 Streptococcus 1123 1421 299 TRMsanguinis SK49 Elusimicrobium 910 1195 286 TTG minutum Pei191Nitrobacter 914 1166 253 VAY hamburgensis X14 Mycoplasma 991 1314 324VGF synoviae 53 Sphaerochaeta 877 1179 303 VKG globus str. BuddyIlyobacter 837 1092 256 VNG polytropus DSM 2926 Rhodovulum sp. 821 1059239 VPY PH10 Bifidobacterium 904 1187 284 VRK longum DJO10A

Amino Acid Sequences Described in Table 50:

SEQ ID NO: 304MKRNYILGLDIGITSVGYGIIDYETRDVIDAGVRLFKEANVENNEGRRSKRGARRLKRRRRHRIQRVKKLLFDYNLLTDHSELSGINPYEARVKGLSQKLSEEEFSAALLHLAKRRGVHNVNEVEEDTGNELSTKEQISRNSKALEEKYVAELQLERLKKDGEVRGSINRFKTSDYVKEAKQLLKVQKAYHQLDQSFIDTYIDLLETRRTYYEGPGEGSPFGWKDIKEWYEMLMGHCTYFPEELRSVKYAYNADLYNALNDLNNLVITRDENEKLEYYEKFQIIENVFKQKKKPTLKQIAKEILVNEEDIKGYRVTSTGKPEFTNLKVYHDIKDITARKEIIENAELLDQIAKILTIYQSSEDIQEELTNLNSELTQEEIEQISNLKGYTGTHNLSLKAINLILDELWHTNDNQIAIFNRLKLVPKKVDLSQQKEIPTTLVDDFILSPVVKRSFIQSIKVINAIIKKYGLPNDIIIELAREKNSKDAQKMINEMQKRNRQTNERIEEIIRTTGKENAKYLIEKIKLHDMQEGKCLYSLEAIPLEDLLNNPFNYEVDHIIPRSVSFDNSFNNKVLVKQEENSKKGNRTPFQYLSSSDSKISYETFKKHILNLAKGKGRISKTKKEYLLEERDINRFSVQKDFINRNLVDTRYATRGLMNLLRSYFRVNNLDVKVKSINGGFTSFLRRKWKFKKERNKGYKHHAEDALIIANADFIFKEWKKLDKAKKVMENQMFEEKQAESMPEIETEQEYKEIFITPHQIKHIKDFKDYKYSHRVDKKPNRELINDTLYSTRKDDKGNTLIVNNLNGLYDKDNDKLKKLINKSPEKLLMYHHDPQTYQKLKLIMEQYGDEKNPLYKYYEETGNYLTKYSKKDNGPVIKKIKYYGNKLNAHLDITDDYPNSRNKVVKLSLKPYRFDVYLDNGVYKFVTVKNLDVIKKENYYEVNSKCYEEAKKLKKISNQAEFIASFYNNDLIKINGELYRVIGVNNDLLNRIEVNMIDITYREYLENMNDKRPPRIIKTIASKTQSIKKYSTDILGNLYEVKSKKHPQIIKKG SEQ ID NO: 305MDKKYSIGLDIGTNSVGWAVITDEYKVPSKKFKVLGNTDRHSIKKNLIGALLFDSGETAEATRLKRTARRRYTRRKNRICYLQEIFSNEMAKVDDSFFHRLEESFLVEEDKKHERHPIFGNIVDEVAYHEKYPTIYHLRKKLVDSTDKADLRLIYLALAHMIKFRGHFLIEGDLNPDNSDVDKLFIQLVQTYNQLFEENPINASGVDAKAILSARLSKSRRLENLIAQLPGEKKNGLFGNLIALSLGLTPNFKSNFDLAEDAKLQLSKDTYDDDLDNLLAQIGDQYADLFLAAKNLSDAILLSDILRVNTEITKAPLSASMIKRYDEHHQDLTLLKALVRQQLPEKYKEIFFDQSKNGYAGYIDGGASQEEFYKFIKPILEKMDGTEELLVKLNREDLLRKQRTFDNGSIPHQIHLGELHAILRRQEDFYPFLKDNREKIEKILTFRIPYYVGPLARGNSRFAWMTRKSEETITPWNFEEVVDKGASAQSFIERMTNFDKNLPNEKVLPKHSLLYEYFTVYNELTKVKYVTEGMRKPAFLSGEQKKAIVDLLFKTNRKVTVKQLKEDYFKKIECFDSVEISGVEDRFNASLGTYHDLLKIIKDKDFLDNEENEDILEDIVLTLTLFEDREMIEERLKTYAHLFDDKVMKQLKRRRYTGWGRLSRKLINGIRDKQSGKTILDFLKSDGFANRNFMQLIHDDSLTFKEDIQKAQVSGQGDSLHEHIANLAGSPAIKKGILQTVKVVDELVKVMGRHKPENIVIEMARENQTTQKGQKNSRERMKRIEEGIKELGSQILKEHPVENTQLQNEKLYLYYLQNGRDMYVDQELDINRLSDYDVDHIVPQSFLKDDSIDNKVLTRSDKNRGKSDNVPSEEVVKKMKNYWRQLLNAKLITQRKFDNLTKAERGGLSELDKAGFIKRQLVETRQITKHVAQILDSRMNTKYDENDKLIREVKVITLKSKLVSDFRKDFQFYKVREINNYHHAHDAYLNAVVGTALIKKYPKLESEFVYGDYKVYDVRKMIAKSEQEIGKATAKYFFYSNIMNFFKTEITLANGEIRKRPLIETNGETGEIVWDKGRDFATVRKVLSMPQVNIVKKTEVQTGGFSKESILPKRNSDKLIARKKDWDPKKYGGFDSPTVAYSVLVVAKVEKGKSKKLKSVKELLGITIMERSSFEKNPIDFLEAKGYKEVKKDLIIKLPKYSLFELENGRKRMLASAGELQKGNELALPSKYVNFLYLASHYEKLKGSPEDNEQKQLFVEQHKHYLDEIIEQISEFSKRVILADANLDKVLSAYNKHRDKPIREQAENIIHLFTLTNLGAPAAFKYFDTTIDRKRYTSTKEVLDATLIHQSITGLYETRIDLSQLGGD SEQ ID NO: 306MARILAFDIGISSIGWAFSENDELKDCGVRIFTKVENPKTGESLALPRRLARSARKRLARRKARLNHLKHLIANEFKLNYEDYQSFDESLAKAYKGSLISPYELRFRALNELLSKQDFARVILHIAKRRGYDDIKNSDDKEKGAILKAIKQNEEKLANYQSVGEYLYKEYFQKFKENSKEFTNVRNKKESYERCIAQSFLKDELKLIFKKQREFGFSFSKKFEEEVLSVAFYKRALKDFSHLVGNCSFFTDEKRAPKNSPLAFMFVALTRIINLLNNLKNTEGILYTKDDLNALLNEVLKNGTLTYKQTKKLLGLSDDYEFKGEKGTYFIEFKKYKEFIKALGEHNLSQDDLNEIAKDITLIKDEIKLKKALAKYDLNQNQIDSLSKLEFKDHLNISFKALKLVTPLMLEGKKYDEACNELNLKVAINEDKKDFLPAFNETYYKDEVTNPVVLRAIKEYRKVLNALLKKYGKVHKINIELAREVGKNHSQRAKIEKEQNENYKAKKDAELECEKLGLKINSKNILKLRLFKEQKEFCAYSGEKIKISDLQDEKMLEIDHIYPYSRSFDDSYMNKVLVFTKQNQEKLNQTPFEAFGNDSAKWQKIEVLAKNLPTKKQKRILDKNYKDKEQKNFKDRNLNDTRYIARLVLNYTKDYLDFLPLSDDENTKLNDTQKGSKVHVEAKSGMLTSALRHTWGFSAKDRNNHLHHAIDAVIIAYANNSIVKAFSDFKKEQESNSAELYAKKISELDYKNKRKFFEPFSGFRQKVLDKIDEIFVSKPERKKPSGALHEETFRKEEEFYQSYGGKEGVLKALELGKIRKVNGKIVKNGDMFRVDIFKHKKTNKFYAVPIYTMDFALKVLPNKAVARSKKGEIKDWILMDENYEFCFSLYKDSLILIQTKDMQEPEFVYYNAFTSSTVSLIVSKHDNKFETLSKNQKILFKNANEKEVIAKSIGIQNLKVFEKYIVSALGEVTKAEFRQREDFKK SEQ ID NO: 307MKRILGLDLGTNSIGWALVNEAENKDERSSIVKLGVRVNPLTVDELTNFEKGKSITTNADRTLKRGMRRNLQRYKLRRETLTEVLKEHKLITEDTILSENGNRTTFETYRLRAKAVTEEISLEEFARVLLMINKKRGYKSSRKAKGVEEGTLIDGMDIARELYNNNLTPGELCLQLLDAGKKFLPDFYRSDLQNELDRIWEKQKEYYPEILTDVLKEELRGKKRDAVWAICAKYFVWKENYTEWNKEKGKTEQQEREHKLEGIYSKRKRDEAKRENLQWRVNGLKEKLSLEQLVIVFQEMNTQINNSSGYLGAISDRSKELYFNKQTVGQYQMEMLDKNPNASLRNMVFYRQDYLDEFNMLWEKQAVYHKELTEELKKEIRDIIIFYQRRLKSQKGLIGFCEFESRQIEVDIDGKKKIKTVGNRVISRSSPLFQEFKIWQILNNIEVTVVGKKRKRRKLKENYSALFEELNDAEQLELNGSRRLCQEEKELLAQELFIRDKMTKSEVLKLLFDNPQELDLNFKTIDGNKTGYALFQAYSKMIEMSGHEPVDFKKPVEKVVEYIKAVFDLLNWNTDILGFNSNEELDNQPYYKLWHLLYSFEGDNTPTGNGRLIQKMTELYGFEKEYATILANVSFQDDYGSLSAKAIHKILPHLKEGNRYDVACVYAGYRHSESSLTREEIANKVLKDRLMLLPKNSLHNPVVEKILNQMVNVINVIIDIYGKPDEIRVELARELKKNAKEREELTKSIAQTTKAHEEYKTLLQTEFGLTNVSRTDILRYKLYKELESCGYKTLYSNTYISREKLFSKEFDIEHIIPQARLFDDSFSNKTLEARSVNIEKGNKTAYDFVKEKFGESGADNSLEHYLNNIEDLFKSGKISKTKYNKLKMAEQDIPDGFIERDLRNTQYIAKKALSMLNEISHRVVATSGSVTDKLREDWQLIDVMKELNWEKYKALGLVEYFEDRDGRQIGRIKDWTKRNDHRHHAMDALTVAFTKDVFIQYFNNKNASLDPNANEHAIKNKYFQNGRAIAPMPLREFRAEAKKHLENTLISIKAKNKVITGNINKTRKKGGVNKNMQQTPRGQLHLETIYGSGKQYLTKEEKVNASFDMRKIGTVSKSAYRDALLKRLYENDNDPKKAFAGKNSLDKQPIWLDKEQMRKVPEKVKIVTLEAIYTIRKEISPDLKVDKVIDVGVRKILIDRLNEYGNDAKKAFSNLDKNPIWLNKEKGISIKRVTISGISNAQSLHVKKDKDGKPILDENGRNIPVDFVNTGNNHHVAVYYRPVIDKRGQLVVDEAGNPKYELEEVVVSFFEAVTRANLGLPIIDKDYKTTEGWQFLFSMKQNEYFVFPNEKTGFNPKEIDLLDVENYGLISPNLFRVQKFSLKNYVFRHHLETTIKDTSSILRGITWIDFRSSKGLDTIVKVRVNHIGQIVSVGEY SEQ ID NO: 308MSRKNYVDDYAISLDIGNASVGWSAFTPNYRLVRAKGHELIGVRLFDPADTAESRRMARTTRRRYSRRRWRLRLLDALFDQALSEIDPSFLARRKYSWVHPDDENNADCWYGSVLFDSNEQDKRFYEKYPTIYHLRKALMEDDSQHDIREIYLAIHHMVKYRGNFLVEGTLESSNAFKEDELLKLLGRITRYEMSEGEQNSDIEQDDENKLVAPANGQLADALCATRGSRSMRVDNALEALSAVNDLSREQRAIVKAIFAGLEGNKLDLAKIFVSKEFSSENKKILGIYFNKSDYEEKCVQIVDSGLLDDEEREFLDRMQGQYNAIALKQLLGRSTSVSDSKCASYDAHRANWNLIKLQLRTKENEKDINENYGILVGWKIDSGQRKSVRGESAYENMRKKANVFFKKMIETSDLSETDKNRLIHDIEEDKLFPIQRDSDNGVIPHQLHQNELKQIIKKQGKYYPFLLDAFEKDGKQINKIEGLLTFRVPYFVGPLVVPEDLQKSDNSENHWMVRKKKGEITPWNFDEMVDKDASGRKFIERLVGTDSYLLGEPTLPKNSLLYQEYEVLNELNNVRLSVRTGNHWNDKRRMRLGREEKTLLCQRLFMKGQTVTKRTAENLLRKEYGRTYELSGLSDESKFTSSLSTYGKMCRIFGEKYVNEHRDLMEKIVELQTVFEDKETLLHQLRQLEGISEADCALLVNTHYTGWGRLSRKLLTTKAGECKISDDFAPRKHSIIEIMRAEDRNLMEIITDKQLGFSDWIEQENLGAENGSSLMEVVDDLRVSPKVKRGIIQSIRLIDDISKAVGKRPSRIFLELADDIQPSGRTISRKSRLQDLYRNANLGKEFKGIADELNACSDKDLQDDRLFLYYTQLGKDMYTGEELDLDRLSSAYDIDHIIPQAVTQNDSIDNRVLVARAENARKTDSFTYMPQIADRMRNFWQILLDNGLISRVKFERLTRQNEFSEREKERFVQRSLVETRQIMKNVATLMRQRYGNSAAVIGLNAELTKEMHRYLGFSHKNRDINDYHHAQDALCVGIAGQFAANRGFFADGEVSDGAQNSYNQYLRDYLRGYREKLSAEDRKQGRAFGFIVGSMRSQDEQKRVNPRTGEVVWSEEDKDYLRKVMNYRKMLVTQKVGDDFGALYDETRYAATDPKGIKGIPFDGAKQDTSLYGGFSSAKPAYAVLIESKGKTRLVNVTMQEYSLLGDRPSDDELRKVLAKKKSEYAKANILLRHVPKMQLIRYGGGLMVIKSAGELNNAQQLWLPYEEYCYFDDLSQGKGSLEKDDLKKLLDSILGSVQCLYPWHRFTEEELADLHVAFDKLPEDEKKNVITGIVSALHADAKTANLSIVGMTGSWRRMNNKSGYTFSDEDEFIFQSPSGLFEKRVTVGELKRKAKKEVNSKYRTNEKRLPTLSGASQP SEQ ID NO: 309METQTSNQLITSHLKDYPKQDYFVGLDIGTNSVGWAVTNTSYELLKFHSHKMWGSRLFEEGESAVTRRGFRSMRRRLERRKLRLKLLEELFADAMAQVDSTFFIRLHESKYHYEDKTTGHSSKHILFIDEDYTDQDYFTEYPTIYHLRKDLMENGTDDIRKLFLAVHHILKYRGNFLYEGATFNSNAFTFEDVLKQALVNITFNCFDTNSAISSISNILMESGKTKSDKAKAIERLVDTYTVFDEVNTPDKPQKEQVKEDKKTLKAFANLVLGLSANLIDLFGSVEDIDDDLKKLQIVGDTYDEKRDELAKVWGDEIHIIDDCKSVYDAIILMSIKEPGLTISQSKVKAFDKHKEDLVILKSLLKLDRNVYNEMFKSDKKGLHNYVHYIKQGRTEETSCSREDFYKYTKKIVEGLADSKDKEYILNEIELQTLLPLQRIKDNGVIPYQLHLEELKVILDKCGPKFPFLHTVSDGFSVTEKLIKMLEFRIPYYVGPLNTHHNIDNGGFSWAVRKQAGRVTPWNFEEKIDREKSAAAFIKNLTNKCTYLFGEDVLPKSSLLYSEFMLLNELNNVRIDGKALAQGVKQHLIDSIFKQDHKKMTKNRIELFLKDNNYITKKHKPEITGLDGEIKNDLTSYRDMVRILGNNFDVSMAEDIITDITIFGESKKMLRQTLRNKFGSQLNDETIKKLSKLRYRDWGRLSKKLLKGIDGCDKAGNGAPKTIIELMRNDSYNLMEILGDKFSFMECIEEENAKLAQGQVVNPHDIIDELALSPAVKRAVWQALRIVDEVAHIKKALPSRIFVEVARTNKSEKKKKDSRQKRLSDLYSAIKKDDVLQSGLQDKEFGALKSGLANYDDAALRSKKLYLYYTQMGRCAYTGNIIDLNQLNTDNYDIDHIYPRSLTKDDSFDNLVLCERTANAKKSDIYPIDNRIQTKQKPFWAFLKHQGLISERKYERLTRIAPLTADDLSGFIARQLVETNQSVKATTTLLRRLYPDIDVVFVKAENVSDFRHNNNFIKVRSLNHHHHAKDAYLNIVVGNVYHEKFTRNFRLFFKKNGANRTYNLAKMFNYDVICTNAQDGKAWDVKTSMNTVKKMMASNDVRVTRRLLEQSGALADATIYKASVAAKAKDGAYIGMKTKYSVFADVTKYGGMTKIKNAYSIIVQYTGKKGEEIKEIVPLPIYLINRNATDIELIDYVKSVIPKAKDISIKYRKLCINQLVKVNGFYYYLGGKTNDKIYIDNAIELVVPHDIATYIKLLDKYDLLRKENKTLKASSITTSIYNINTSTVVSLNKVGIDVFDYFMSKLRTPLYMKMKGNKVDELSSTGRSKFIKMTLEEQSIYLLEVLNLLTNSKTTFDVKPLGITGSRSTIGVKIHNLDEFKIINESITGLYSNEVTIV SEQ ID NO: 310MTKLNQPYGIGLDIGSNSIGFAVVDANSHLLRLKGETAIGARLFREGQSAADRRGSRTTRRRLSRTRWRLSFLRDFFAPHITKIDPDFFLRQKYSEISPKDKDRFKYEKRLFNDRTDAEFYEDYPSMYHLRLHLMTHTHKADPREIFLAIHHILKSRGHFLTPGAAKDFNTDKVDLEDIFPALTEAYAQVYPDLELTFDLAKADDFKAKLLDEQATPSDTQKALVNLLLSSDGEKEIVKKRKQVLTEFAKAITGLKTKFNLALGTEVDEADASNWQFSMGQLDDKWSNIETSMTDQGTEIFEQIQELYRARLLNGIVPAGMSLSQAKVADYGQHKEDLELFKTYLKKLNDHELAKTIRGLYDRYINGDDAKPFLREDFVKALTKEVTAHPNEVSEQLLNRMGQANFMLKQRTKANGAIPIQLQQRELDQIIANQSKYYDWLAAPNPVEAHRWKMPYQLDELLNFHIPYYVGPLITPKQQAESGENVFAWMVRKDPSGNITPYNFDEKVDREASANTFIQRMKTTDTYLIGEDVLPKQSLLYQKYEVLNELNNVRINNECLGTDQKQRLIREVFERHSSVTIKQVADNLVAHGDFARRPEIRGLADEKRFLSSLSTYHQLKEILHEAIDDPTKLLDIENIITWSTVFEDHTIFETKLAEIEWLDPKKINELSGIRYRGWGQFSRKLLDGLKLGNGHTVIQELMLSNHNLMQILADETLKETMTELNQDKLKTDDIEDVINDAYTSPSNKKALRQVLRVVEDIKHAANGQDPSWLFIETADGTGTAGKRTQSRQKQIQTVYANAAQELIDSAVRGELEDKIADKASFTDRLVLYFMQGGRDIYTGAPLNIDQLSHYDIDHILPQSLIKDDSLDNRVLVNATINREKNNVFASTLFAGKMKATWRKWHEAGLISGRKLRNLMLRPDEIDKFAKGFVARQLVETRQIIKLTEQIAAAQYPNTKIIAVKAGLSHQLREELDFPKNRDVNHYHHAFDAFLAARIGTYLLKRYPKLAPFFTYGEFAKVDVKKFREFNFIGALTHAKKNIIAKDTGEIVWDKERDIRELDRIYNFKRMLITHEVYFETADLFKQTIYAAKDSKERGGSKQLIPKKQGYPTQVYGGYTQESGSYNALVRVAEADTTAYQVIKISAQNASKIASANLKSREKGKQLLNEIVVKQLAKRRKNWKPSANSFKIVIPRFGMGTLFQNAKYGLFMVNSDTYYRNYQELWLSRENQKLLKKLFSIKYEKTQMNHDALQVYKAIIDQVEKFFKLYDINQFRAKLSDAIERFEKLPINTDGNKIGKTETLRQILIGLQANGTRSNVKNLGIKTDLGLLQVGSGIKLDKDTQIVYQSPSGLFKRRIPLADL SEQ ID NO: 311MTKEYYLGLDVGTNSVGWAVTDSQYNLCKFKKKDMWGIRLFESANTAKDRRLQRGNRRRLERKKQRIDLLQEIFSPEICKIDPTFFIRLNESRLHLEDKSNDFKYPLFIEKDYSDIEYYKEFPTIFHLRKHLIESEEKQDIRLIYLALHNIIKTRGHFLIDGDLQSAKQLRPILDTFLLSLQEEQNLSVSLSENQKDEYEEILKNRSIAKSEKVKKLKNLFEISDELEKEEKKAQSAVIENFCKFIVGNKGDVCKFLRVSKEELEIDSFSFSEGKYEDDIVKNLEEKVPEKVYLFEQMKAMYDWNILVDILETEEYISFAKVKQYEKHKTNLRLLRDIILKYCTKDEYNRMFNDEKEAGSYTAYVGKLKKNNKKYWIEKKRNPEEFYKSLGKLLDKIEPLKEDLEVLTMMIEECKNHTLLPIQKNKDNGVIPHQVHEVELKKILENAKKYYSFLTETDKDGYSVVQKIESIFRFRIPYYVGPLSTRHQEKGSNVWMVRKPGREDRIYPWNMEEIIDFEKSNENFITRMTNKCTYLIGEDVLPKHSLLYSKYMVLNELNNVKVRGKKLPTSLKQKVFEDLFENKSKVTGKNLLEYLQIQDKDIQIDDLSGFDKDFKTSLKSYLDFKKQIFGEEIEKESIQNMIEDIIKWITIYGNDKEMLKRVIRANYSNQLTEEQMKKITGFQYSGWGNFSKMFLKGISGSDVSTGETFDIITAMWETDNNLMQILSKKFTFMDNVEDFNSGKVGKIDKITYDSTVKEMFLSPENKRAVWQTIQVAEEIKKVMGCEPKKIFIEMARGGEKVKKRTKSRKAQLLELYAACEEDCRELIKEIEDRDERDFNSMKLFLYYTQFGKCMYSGDDIDINELIRGNSKWDRDHIYPQSKIKDDSIDNLVLVNKTYNAKKSNELLSEDIQKKMHSFWLSLLNKKLITKSKYDRLTRKGDFTDEELSGFIARQLVETRQSTKAIADIFKQIYSSEVVYVKSSLVSDFRKKPLNYLKSRRVNDYHHAKDAYLNIVVGNVYNKKFTSNPIQWMKKNRDTNYSLNKVFEHDVVINGEVIWEKCTYHEDTNTYDGGTLDRIRKIVERDNILYTEYAYCEKGELFNATIQNKNGNSTVSLKKGLDVKKYGGYFSANTSYFSLIEFEDKKGDRARHIIGVPIYIANMLEHSPSAFLEYCEQKGYQNVRILVEKIKKNSLLIINGYPLRIRGENEVDTSFKRAIQLKLDQKNYELVRNIEKFLEKYVEKKGNYPIDENRDHITHEKMNQLYEVLLSKMKKFNKKGMADPSDRIEKSKPKFIKLEDLIDKINVINKMLNLLRCDNDTKADLSLIELPKNAGSFVVKKNTIGKSKIILVNQSVTGLYENRREL SEQ ID NO: 312MARDYSVGLDIGTSSVGWAAIDNKYHLIRAKSKNLIGVRLFDSAVTAEKRRGYRTTRRRLSRRHWRLRLLNDIFAGPLTDFGDENFLARLKYSWVHPQDQSNQAHFAAGLLFDSKEQDKDFYRKYPTIYHLRLALMNDDQKHDLREVYLAIHHLVKYRGHFLIEGDVKADSAFDVHTFADAIQRYAESNNSDENLLGKIDEKKLSAALTDKHGSKSQRAETAETAFDILDLQSKKQIQAILKSVVGNQANLMAIFGLDSSAISKDEQKNYKFSFDDADIDEKIADSEALLSDTEFEFLCDLKAAFDGLTLKMLLGDDKTVSAAMVRRFNEHQKDWEYIKSHIRNAKNAGNGLYEKSKKFDGINAAYLALQSDNEDDRKKAKKIFQDEISSADIPDDVKADFLKKIDDDQFLPIQRTKNNGTIPHQLHRNELEQIIEKQGIYYPFLKDTYQENSHELNKITALINFRVPYYVGPLVEEEQKIADDGKNIPDPTNHWMVRKSNDTITPWNLSQVVDLDKSGRRFIERLTGTDTYLIGEPTLPKNSLLYQKFDVLQELNNIRVSGRRLDIRAKQDAFEHLFKVQKTVSATNLKDFLVQAGYISEDTQIEGLADVNGKNFNNALTTYNYLVSVLGREFVENPSNEELLEEITELQTVFEDKKVLRRQLDQLDGLSDHNREKLSRKHYTGWGRISKKLLTTKIVQNADKIDNQTFDVPRMNQSIIDTLYNTKMNLMEIINNAEDDFGVRAWIDKQNTTDGDEQDVYSLIDELAGPKEIKRGIVQSFRILDDITKAVGYAPKRVYLEFARKTQESHLTNSRKNQLSTLLKNAGLSELVTQVSQYDAAALQNDRLYLYFLQQGKDMYSGEKLNLDNLSNYDIDHIIPQAYTKDNSLDNRVLVSNITNRRKSDSSNYLPALIDKMRPFWSVLSKQGLLSKHKFANLTRTRDFDDMEKERFIARSLVETRQIIKNVASLIDSHFGGETKAVAIRSSLTADMRRYVDIPKNRDINDYHHAFDALLFSTVGQYTENSGLMKKGQLSDSAGNQYNRYIKEWIHAARLNAQSQRVNPFGFVVGSMRNAAPGKLNPETGEITPEENADWSIADLDYLHKVMNFRKITVTRRLKDQKGQLYDESRYPSVLHDAKSKASINFDKHKPVDLYGGFSSAKPAYAALIKFKNKFRLVNVLRQWTYSDKNSEDYILEQIRGKYPKAEMVLSHIPYGQLVKKDGALVTISSATELHNFEQLWLPLADYKLINTLLKTKEDNLVDILHNRLDLPEMTIESAFYKAFDSILSFAFNRYALHQNALVKLQAHRDDFNALNYEDKQQTLERILDALHASPASSDLKKINLSSGFGRLFSPSHFTLADTDEFIFQSVTGLFSTQKTVAQLYQETK SEQ ID NO: 313MVYDVGLDIGTGSVGWVALDENGKLARAKGKNLVGVRLFDTAQTAADRRGFRTTRRRLSRRKWRLRLLDELFSAEINEIDSSFFQRLKYSYVHPKDEENKAHYYGGYLFPTEEETKKFHRSYPTIYHLRQELMAQPNKRFDIREIYLAIHHLVKYRGHFLSSQEKITIGSTYNPEDLANAIEVYADEKGLSWELNNPEQLTEIISGEAGYGLNKSMKADEALKLFEFDNNQDKVAIKTLLAGLTGNQIDFAKLFGKDISDKDEAKLWKLKLDDEALEEKSQTILSQLTDEEIELFHAVVQAYDGFVLIGLLNGADSVSAAMVQLYDQHREDRKLLKSLAQKAGLKHKRFSEIYEQLALATDEATIKNGISTARELVEESNLSKEVKEDTLRRLDENEFLPKQRTKANSVIPHQLHLAELQKILQNQGQYYPFLLDTFEKEDGQDNKIEELLRFRIPYYVGPLVTKKDVEHAGGDADNHWVERNEGFEKSRVTPWNFDKVFNRDKAARDFIERLTGNDTYLIGEKTLPQNSLRYQLFTVLNELNNVRVNGKKFDSKTKADLINDLFKARKTVSLSALKDYLKAQGKGDVTITGLADESKFNSSLSSYNDLKKTFDAEYLENEDNQETLEKIIEIQTVFEDSKIASRELSKLPLDDDQVKKLSQTHYTGWGRLSEKLLDSKIIDERGQKVSILDKLKSTSQNFMSIINNDKYGVQAWITEQNTGSSKLTFDEKVNELTTSPANKRGIKQSFAVLNDIKKAMKEEPRRVYLEFAREDQTSVRSVPRYNQLKEKYQSKSLSEEAKVLKKTLDGNKNKMSDDRYFLYFQQQGKDMYTGRPINFERLSQDYDIDHIIPQAFTKDDSLDNRVLVSRPENARKSDSFAYTDEVQKQDGSLWTSLLKSGFINRKKYERLTKAGKYLDGQKTGFIARQLVETRQIIKNVASLIEGEYENSKAVAIRSEITADMRLLVGIKKHREINSFHHAFDALLITAAGQYMQNRYPDRDSTNVYNEFDRYTNDYLKNLRQLSSRDEVRRLKSFGFVVGTMRKGNEDWSEENTSYLRKVMMFKNILTTKKTEKDRGPLNKETIFSPKSGKKLIPLNSKRSDTALYGGYSNVYSAYMTLVRANGKNLLIKIPISIANQIEVGNLKINDYIVNNPAIKKFEKILISKLPLGQLVNEDGNLIYLASNEYRHNAKQLWLSTTDADKIASISENSSDEELLEAYDILTSENVKNRFPFFKKDIDKLSQVRDEFLDSDKRIAVIQTILRGLQIDAAYQAPVKIISKKVSDWHKLQQSGGIKLSDNSEMIYQSATGIFETRVKISDLL SEQ ID NO: 314IVDYCIGLDLGTGSVGWAVVDMNHRLMKRNGKHLWGSRLFSNAETAANRRASRSIRRRYNKRRERIRLLRAILQDMVLEKDPTFFIRLEHTSFLDEEDKAKYLGTDYKDNYNLFIDEDFNDYTYYHKYPTIYHLRKALCESTEKADPRLIYLALHHIVKYRGNFLYEGQKFNMDASNIEDKLSDIFTQFTSFNNIPYEDDEKKNLEILEILKKPLSKKAKVDEVMTLIAPEKDYKSAFKELVTGIAGNKMNVTKMILCEPIKQGDSEIKLKFSDSNYDDQFSEVEKDLGEYVEFVDALHNVYSWVELQTIMGATHTDNASISEAMVSRYNKHHDDLKLLKDCIKNNVPNKYFDMFRNDSEKSKGYYNYINRPSKAPVDEFYKYVKKCIEKVDTPEAKQILNDIELENFLLKQNSRTNGSVPYQMQLDEMIKIIDNQAEYYPILKEKREQLLSILTFRIPYYFGPLNETSEHAWIKRLEGKENQRILPWNYQDIVDVDATAEGFIKRMRSYCTYFPDEEVLPKNSLIVSKYEVYNELNKIRVDDKLLEVDVKNDIYNELFMKNKTVTEKKLKNWLVNNQCCSKDAEIKGFQKENQFSTSLTPWIDFTNIFGKIDQSNFDLIENIIYDLTVFEDKKIMKRRLKKKYALPDDKVKQILKLKYKDWSRLSKKLLDGIVADNRFGSSVTVLDVLEMSRLNLMEIINDKDLGYAQMIEEATSCPEDGKFTYEEVERLAGSPALKRGIWQSLQIVEEITKVMKCRPKYIYIEFERSEEAKERTESKIKKLENVYKDLDEQTKKEYKSVLEELKGFDNTKKISSDSLFLYFTQLGKCMYSGKKLDIDSLDKYQIDHIVPQSLVKDDSFDNRVLVVPSENQRKLDDLVVPFDIRDKMYRFWKLLFDHELISPKKFYSLIKTEYTERDEERFINRQLVETRQITKNVTQIIEDHYSTTKVAAIRANLSHEFRVKNHIYKNRDINDYHHAHDAYIVALIGGFMRDRYPNMHDSKAVYSEYMKMFRKNKNDQKRWKDGFVINSMNYPYEVDGKLIWNPDLINEIKKCFYYKDCYCTTKLDQKSGQLFNLTVLSNDAHADKGVTKAVVPVNKNRSDVHKYGGFSGLQYTIVAIEGQKKKGKKTELVKKISGVPLHLKAASINEKINYIEEKEGLSDVRIIKDNIPVNQMIEMDGGEYLLTSPTEYVNARQLVLNEKQCALIADIYNAIYKQDYDNLDDILMIQLYIELTNKMKVLYPAYRGIAEKFESMNENYVVISKEEKANIIKQMLIVMHRGPQNGNIVYDDFKISDRIGRLKTKNHNLNNIVFISQSPTGIYTKKYKL SEQ ID NO: 315MKSEKKYYIGLDVGTNSVGWAVTDEFYNILRAKGKDLWGVRLFEKADTAANTRIFRSGRRRNDRKGMRLQILREIFEDEIKKVDKDFYDRLDESKFWAEDKKVSGKYSLFNDKNFSDKQYFEKFPTIFHLRKYLMEEHGKVDIRYYFLAINQMMKRRGHFLIDGQISHVTDDKPLKEQLILLINDLLKIELEEELMDSIFEILADVNEKRTDKKNNLKELIKGQDFNKQEGNILNSIFESIVTGKAKIKNIISDEDILEKIKEDNKEDFVLTGDSYEENLQYFEEVLQENITLFNTLKSTYDFLILQSILKGKSTLSDAQVERYDEHKKDLEILKKVIKKYDEDGKLFKQVFKEDNGNGYVSYIGYYLNKNKKITAKKKISNIEFTKYVKGILEKQCDCEDEDVKYLLGKIEQENFLLKQISSINSVIPHQIHLFELDKILENLAKNYPSFNNKKEEFTKIEKIRKTFTFRIPYYVGPLNDYHKNNGGNAWIFRNKGEKIRPWNFEKIVDLHKSEEEFIKRMLNQCTYLPEETVLPKSSILYSEYMVLNELNNLRINGKPLDTDVKLKLIEELFKKKTKVTLKSIRDYMVRNNFADKEDFDNSEKNLEIASNMKSYIDFNNILEDKFDVEMVEDLIEKITIHTGNKKLLKKYIEETYPDLSSSQIQKIINLKYKDWGRLSRKLLDGIKGTKKETEKTDTVINFLRNSSDNLMQIIGSQNYSFNEYIDKLRKKYIPQEISYEVVENLYVSPSVKKMIWQVIRVTEEITKVMGYDPDKIFIEMAKSEEEKKTTISRKNKLLDLYKAIKKDERDSQYEKLLTGLNKLDDSDLRSRKLYLYYTQMGRDMYTGEKIDLDKLFDSTHYDKDHIIPQSMKKDDSIINNLVLVNKNANQTTKGNIYPVPSSIRNNPKIYNYWKYLMEKEFISKEKYNRLIRNTPLTNEELGGFINRQLVETRQSTKAIKELFEKFYQKSKIIPVKASLASDLRKDMNTLKSREVNDLHHAHDAFLNIVAGDVWNREFTSNPINYVKENREGDKVKYSLSKDFTRPRKSKGKVIWTPEKGRKLIVDTLNKPSVLISNESHVKKGELFNATIAGKKDYKKGKIYLPLKKDDRLQDVSKYGGYKAINGAFFFLVEHTKSKKRIRSIELFPLHLLSKFYEDKNTVLDYAINVLQLQDPKIIIDKINYRTEIIIDNFSYLISTKSNDGSITVKPNEQMYWRVDEISNLKKIENKYKKDAILTEEDRKIMESYIDKIYQQFKAGKYKNRRTTDTIIEKYEIIDLDTLDNKQLYQLLVAFISLSYKTSNNAVDFTVIGLGTECGKPRITNLPDNTYLVYKSITGIYEKR IRIKSEQ ID NO: 316MKLRGIEDDYSIGLDMGTSSVGWAVTDERGTLAHFKRKPTWGSRLFREAQTAAVARMPRGQRRRYVRRRWRLDLLQKLFEQQMEQADPDFFIRLRQSRLLRDDRAEEHADYRWPLFNDCKFTERDYYQRFPTIYHVRSWLMETDEQADIRLIYLALHNIVKHRGNFLREGQSLSAKSARPDEALNHLRETLRVWSSERGFECSIADNGSILAMLTHPDLSPSDRRKKIAPLFDVKSDDAAADKKLGIALAGAVIGLKTEFKNIFGDFPCEDSSIYLSNDEAVDAVRSACPDDCAELFDRLCEVYSAYVLQGLLSYAPGQTISANMVEKYRRYGEDLALLKKLVKIYAPDQYRMFFSGATYPGTGIYDAAQARGYTKYNLGPKKSEYKPSESMQYDDFRKAVEKLFAKTDARADERYRMMMDRFDKQQFLRRLKTSDNGSIYHQLHLEELKAIVENQGRFYPFLKRDADKLVSLVSFRIPYYVGPLSTRNARTDQHGENRFAWSERKPGMQDEPIFPWNWESIIDRSKSAEKFILRMTGMCTYLQQEPVLPKSSLLYEEFCVLNELNGAHWSIDGDDEHRFDAADREGIIEELFRRKRTVSYGDVAGWMERERNQIGAHVCGGQGEKGFESKLGSYIFFCKDVFKVERLEQSDYPMIERIILWNTLFEDRKILSQRLKEEYGSRLSAEQIKTICKKRFTGWGRLSEKFLTGITVQVDEDSVSIMDVLREGCPVSGKRGRAMVMMEILRDEELGFQKKVDDFNRAFFAENAQALGVNELPGSPAVRRSLNQSIRIVDEIASIAGKAPANIFIEVTRDEDPKKKGRRTKRRYNDLKDALEAFKKEDPELWRELCETAPNDMDERLSLYFMQRGKCLYSGRAIDIHQLSNAGIYEVDHIIPRTYVKDDSLENKALVYREENQRKTDMLLIDPEIRRRMSGYWRMLHEAKLIGDKKFRNLLRSRIDDKALKGFIARQLVETGQMVKLVRSLLEARYPETNIISVKASISHDLRTAAELVKCREANDFHHAHDAFLACRVGLFIQKRHPCVYENPIGLSQVVRNYVRQQADIFKRCRTIPGSSGFIVNSFMTSGFDKETGEIFKDDWDAEAEVEGIRRSLNFRQCFISRMPFEDHGVFWDATIYSPRAKKTAALPLKQGLNPSRYGSFSREQFAYFFIYKARNPRKEQTLFEFAQVPVRLSAQIRQDENALERYARELAKDQGLEFIRIERSKILKNQLIEIDGDRLCITGKEEVRNACELAFAQDEMRVIRMLVSEKPVSRECVISLFNRILLHGDQASRRLSKQLKLALLSEAFSEASDNVQRNVVLGLIAIFNGSTNMVNLSDIGGSKFAGNVRIKYKKELASPKVNVHLIDQSVTGMFERRTKIGL SEQ ID NO: 317MENKQYYIGLDVGTNSVGWAVTDTSYNLLRAKGKDMWGARLFEKANTAAERRTKRTSRRRSEREKARKAMLKELFADEINRVDPSFFIRLEESKFFLDDRSENNRQRYTLFNDATFTDKDYYEKYKTIFHLRSALINSDEKFDVRLVFLAILNLFSHRGHFLNASLKGDGDIQGMDVFYNDLVESCEYFEIELPRITNIDNFEKILSQKGKSRTKILEELSEELSISKKDKSKYNLIKLISGLEASVVELYNIEDIQDENKKIKIGFRESDYEESSLKVKEIIGDEYFDLVERAKSVHDMGLLSNIIGNSKYLCEARVEAYENHHKDLLKIKELLKKYDKKAYNDMFRKMTDKNYSAYVGSVNSNIAKERRSVDKRKIEDLYKYIEDTALKNIPDDNKDKIEILEKIKLGEFLKKQLTASNGVIPNQLQSRELRAILKKAENYLPFLKEKGEKNLTVSEMIIQLFEFQIPYYVGPLDKNPKKDNKANSWAKIKQGGRILPWNFEDKVDVKGSRKEFIEKMVRKCTYISDEHTLPKQSLLYEKFMVLNEINNIKIDGEKISVEAKQKIYNDLFVKGKKVSQKDIKKELISLNIMDKDSVLSGTDTVCNAYLSSIGKFTGVFKEEINKQSIVDMIEDIIFLKTVYGDEKRFVKEEIVEKYGDEIDKDKIKRILGFKFSNWGNLSKSFLELEGADVGTGEVRSIIQSLWETNFNLMELLSSRFTYMDELEKRVKKLEKPLSEWTIEDLDDMYLSSPVKRMIWQSMKIVDEIQTVIGYAPKRIFVEMTRSEGEKVRTKSRKDRLKELYNGIKEDSKQWVKELDSKDESYFRSKKMYLYYLQKGRCMYSGEVIELDKLMDDNLYDIDHIYPRSFVKDDSLDNLVLVKKEINNRKQNDPITPQIQASCQGFWKILHDQGFMSNEKYSRLTRKTQEFSDEEKLSFINRQIVETGQATKCMAQILQKSMGEDVDVVFSKARLVSEFRHKFELFKSRLINDFHHANDAYLNIVVGNSYFVKFTRNPANFIKDARKNPDNPVYKYHMDRFFERDVKSKSEVAWIGQSEGNSGTIVIVKKTMAKNSPLITKKVEEGHGSITKETIVGVKEIKFGRNKVEKADKTPKKPNLQAYRPIKTSDERLCNILRYGGRTSISISGYCLVEYVKKRKTIRSLEAIPVYLGRKDSLSEEKLLNYFRYNLNDGGKDSVSDIRLCLPFISTNSLVKIDGYLYYLGGKNDDRIQLYNAYQLKMKKEEVEYIRKIEKAVSMSKFDEIDREKNPVLTEEKNIELYNKIQDKFENTVFSKRMSLVKYNKKDLSFGDFLKNKKSKFEEIDLEKQCKVLYNIIFNLSNLKEVDLSDIGGSKSTGKCRCKKNITNYKEFKLIQQSITGLYSCEKDLMTI SEQ ID NO: 318MKNLKEYYIGLDIGTASVGWAVTDESYNIPKFNGKKMWGVRLFDDAKTAEERRTQRGSRRRLNRRKERINLLQDLFATEISKVDPNFFLRLDNSDLYREDKDEKLKSKYTLFNDKDFKDRDYHKKYPTIHHLIMDLIEDEGKKDIRLLYLACHYLLKNRGHFIFEGQKFDTKNSFDKSINDLKIHLRDEYNIDLEFNNEDLIEIITDTTLNKTNKKKELKNIVGDTKFLKAISAIMIGSSQKLVDLFEDGEFEETTVKSVDFSTTAFDDKYSEYEEALGDTISLLNILKSIYDSSILENLLKDADKSKDGNKYISKAFVKKFNKHGKDLKTLKRIIKKYLPSEYANIFRNKSINDNYVAYTKSNITSNKRTKASKFTKQEDFYKFIKKHLDTIKETKLNSSENEDLKLIDEMLTDIEFKTFIPKLKSSDNGVIPYQLKLMELKKILDNQSKYYDFLNESDEYGTVKDKVESIMEFRIPYYVGPLNPDSKYAWIKRENTKITPWNFKDIVDLDSSREEFIDRLIGRCTYLKEEKVLPKASLIYNEFMVLNELNNLKLNEFLITEEMKKAIFEELFKTKKKVTLKAVSNLLKKEFNLTGDILLSGTDGDFKQGLNSYIDFKNIIGDKVDRDDYRIKIEEIIKLIVLYEDDKTYLKKKIKSAYKNDFTDDEIKKIAALNYKDWGRLSKRFLTGIEGVDKTTGEKGSIIYFMREYNLNLMELMSGHYTFTEEVEKLNPVENRELCYEMVDELYLSPSVKRMLWQSLRVVDEIKRIIGKDPKKIFIEMARAKEAKNSRKESRKNKLLEFYKFGKKAFINEIGEERYNYLLNEINSEEESKFRWDNLYLYYTQLGRCMYSLEPIDLADLKSNNIYDQDHIYPKSKIYDDSLENRVLVKKNLNHEKGNQYPIPEKVLNKNAYGFWKILFDKGLIGQKKYTRLTRRTPFEERELAEFIERQIVETRQATKETANLLKNICQDSEIVYSKAENASRFRQEFDIIKCRTVNDLHHMHDAYLNIVVGNVYNTKFTKNPLNFIKDKDNVRSYNLENMFKYDVVRGSYTAWIADDSEGNVKAATIKKVKRELEGKNYRFTRMSYIGTGGLYDQNLMRKGKGQIPQKENTNKSNIEKYGGYNKASSAYFALIESDGKAGRERTLETIPIMVYNQEKYGNTEAVDKYLKDNLELQDPKILKDKIKINSLIKLDGFLYNIKGKTGDSLSIAGSVQLIVNKEEQKLIKKMDKFLVKKKDNKDIKVTSFDNIKEEELIKLYKTLSDKLNNGIYSNKRNNQAKNISEALDKFKEISIEEKIDVLNQIILLFQSYNNGCNLKSIGLSAKTGVVFIPKKLNYKECKLINQSITGLFENEVDLLNL SEQ ID NO: 319MGKMYYLGLDIGTNSVGYAVTDPSYHLLKFKGEPMWGAHVFAAGNQSAERRSFRTSRRRLDRRQQRVKLVQEIFAPVISPIDPRFFIRLHESALWRDDVAETDKHIFFNDPTYTDKEYYSDYPTIHHLIVDLMESSEKHDPRLVYLAVAWLVAHRGHFLNEVDKDNIGDVLSFDAFYPEFLAFLSDNGVSPWVCESKALQATLLSRNSVNDKYKALKSLIFGSQKPEDNFDANISEDGLIQLLAGKKVKVNKLFPQESNDASFTLNDKEDAIEEILGTLTPDECEWIAHIRRLFDWAIMKHALKDGRTISESKVKLYEQHHHDLTQLKYFVKTYLAKEYDDIFRNVDSETTKNYVAYSYHVKEVKGTLPKNKATQEEFCKYVLGKVKNIECSEADKVDFDEMIQRLTDNSFMPKQVSGENRVIPYQLYYYELKTILNKAASYLPFLTQCGKDAISNQDKLLSIMTFRIPYFVGPLRKDNSEHAWLERKAGKIYPWNFNDKVDLDKSEEAFIRRMTNTCTYYPGEDVLPLDSLIYEKFMILNEINNIRIDGYPISVDVKQQVFGLFEKKRRVTVKDIQNLLLSLGALDKHGKLTGIDTTIHSNYNTYHHFKSLMERGVLTRDDVERIVERMTYSDDTKRVRLWLNNNYGTLTADDVKHISRLRKHDFGRLSKMFLTGLKGVHKETGERASILDFMWNTNDNLMQLLSECYTFSDEITKLQEAYYAKAQLSLNDFLDSMYISNAVKRPIYRTLAVVNDIRKACGTAPKRIFIEMARDGESKKKRSVTRREQIKNLYRSIRKDFQQEVDFLEKILENKSDGQLQSDALYLYFAQLGRDMYTGDPIKLEHIKDQSFYNIDHIYPQSMVKDDSLDNKVLVQSEINGEKSSRYPLDAAIRNKMKPLWDAYYNHGLISLKKYQRLTRSTPFTDDEKWDFINRQLVETRQSTKALAILLKRKFPDTEIVYSKAGLSSDFRHEFGLVKSRNINDLHHAKDAFLAIVTGNVYHERFNRRWFMVNQPYSVKTKTLFTHSIKNGNFVAWNGEEDLGRIVKMLKQNKNTIHFTRFSFDRKEGLFDIQPLKASTGLVPRKAGLDVVKYGGYDKSTAAYYLLVRFTLEDKKTQHKLMMIPVEGLYKARIDHDKEFLTDYAQTTISEILQKDKQKVINIMFPMGTRHIKLNSMISIDGFYLSIGGKSSKGKSVLCHAMVPLIVPHKIECYIKAMESFARKFKENNKLRIVEKFDKITVEDNLNLYELFLQKLQHNPYNKFFSTQFDVLTNGRSTFTKLSPEEQVQTLLNILSIFKTCRSSGCDLKSINGSAQAARIMISADLTGLSKKYSDIRLVEQSASGLFVSKSQNLLEYL SEQ ID NO: 320MTKKEQPYNIGLDIGTSSVGWAVTNDNYDLLNIKKKNLWGVRLFEEAQTAKETRLNRSTRRRYRRRKNRINWLNEIFSEELAKTDPSFLIRLQNSWVSKKDPDRKRDKYNLFIDGPYTDKEYYREFPTIFHLRKELILNKDKADIRLIYLALHNILKYRGNFTYEHQKFNISNLNNNLSKELIELNQQLIKYDISFPDDCDWNHISDILIGRGNATQKSSNILKDFTLDKETKKLLKEVINLILGNVAHLNTIFKTSLTKDEEKLNFSGKDIESKLDDLDSILDDDQFTVLDAANRIYSTITLNEILNGESYFSMAKVNQYENHAIDLCKLRDMWHTTKNEEAVEQSRQAYDDYINKPKYGTKELYTSLKKFLKVALPTNLAKEAEEKISKGTYLVKPRNSENGVVPYQLNKIEMEKIIDNQSQYYPFLKENKEKLLSILSFRIPYYVGPLQSAEKNPFAWMERKSNGHARPWNFDEIVDREKSSNKFIRRMTVTDSYLVGEPVLPKNSLIYQRYEVLNELNNIRITENLKTNPIGSRLTVETKQRIYNELFKKYKKVTVKKLTKWLIAQGYYKNPILIGLSQKDEFNSTLTTYLDMKKIFGSSFMEDNKNYDQIEELIEWLTIFEDKQILNEKLHSSKYSYTPDQIKKISNMRYKGWGRLSKKILMDITTETNTPQLLQLSNYSILDLMWATNNNFISIMSNDKYDFKNYIENHNLNKNEDQNISDLVNDIHVSPALKRGITQSIKIVQEIVKFMGHAPKHIFIEVTRETKKSEITTSREKRIKRLQSKLLNKANDFKPQLREYLVPNKKIQEELKKHKNDLSSERIMLYFLQNGKSLYSEESLNINKLSDYQVDHILPRTYIPDDSLENKALVLAKENQRKADDLLLNSNVIDRNLERWTYMLNNNMIGLKKFKNLTRRVITDKDKLGFIHRQLVQTSQMVKGVANILDNMYKNQGTTCIQARANLSTAFRKALSGQDDTYHFKHPELVKNRNVNDFHHAQDAYLASFLGTYRLRRFPTNEMLLMNGEYNKFYGQVKELYSKKKKLPDSRKNGFIISPLVNGTTQYDRNTGEIIWNVGFRDKILKIFNYHQCNVTRKTEIKTGQFYDQTIYSPKNPKYKKLIAQKKDMDPNIYGGFSGDNKSSITIVKIDNNKIKPVAIPIRLINDLKDKKTLQNWLEENVKHKKSIQIIKNNVPIGQIIYSKKVGLLSLNSDREVANRQQLILPPEHSALLRLLQIPDEDLDQILAFYDKNILVEILQELITKMKKFYPFYKGEREFLIANIENFNQATTSEKVNSLEELITLLHANSTSAHLIFNNIEKKAFGRKTHGLTLNNTDFIYQSVTGLYETRIHIE SEQ ID NO: 321MTKFNKNYSIGLDIGVSSVGYAVVTEDYRVPAFKFKVLGNTEKEKIKKNLIGSTTFVSAQPAKGTRVFRVNRRRIDRRNHRITYLRDIFQKEIEKVDKNFYRRLDESFRVLGDKSEDLQIKQPFFGDKELETAYHKKYPTIYHLRKHLADADKNSPVADIREVYMAISHILKYRGHFLTLDKINPNNINMQNSWIDFIESCQEVFDLEISDESKNIADIFKSSENRQEKVKKILPYFQQELLKKDKSIFKQLLQLLFGLKTKFKDCFELEEEPDLNFSKENYDENLENFLGSLEEDFSDVFAKLKVLRDTILLSGMLTYTGATHARFSATMVERYEEHRKDLQRFKFFIKQNLSEQDYLDIFGRKTQNGFDVDKETKGYVGYITNKMVLTNPQKQKTIQQNFYDYISGKITGIEGAEYFLNKISDGTFLRKLRTSDNGAIPNQIHAYELEKIIERQGKDYPFLLENKDKLLSILTFKIPYYVGPLAKGSNSRFAWIKRATSSDILDDNDEDTRNGKIRPWNYQKLINMDETRDAFITNLIGNDIILLNEKVLPKRSLIYEEVMLQNELTRVKYKDKYGKAHFFDSELRQNIINGLFKNNSKRVNAKSLIKYLSDNHKDLNAIEIVSGVEKGKSFNSTLKTYNDLKTIFSEELLDSEIYQKELEEIIKVITVFDDKKSIKNYLTKFFGHLEILDEEKINQLSKLRYSGWGRYSAKLLLDIRDEDTGFNLLQFLRNDEENRNLTKLISDNTLSFEPKIKDIQSKSTIEDDIFDEIKKLAGSPAIKRGILNSIKIVDELVQIIGYPPHNIVIEMARENMTTEEGQKKAKTRKTKLESALKNIENSLLENGKVPHSDEQLQSEKLYLYYLQNGKDMYTLDKTGSPAPLYLDQLDQYEVDHIIPYSFLPIDSIDNKVLTHRENNQQKLNNIPDKETVANMKPFWEKLYNAKLISQTKYQRLTTSERTPDGVLTESMKAGFIERQLVETRQIIKHVARILDNRFSDTKIITLKSQLITNFRNTFHIAKIRELNDYHHAHDAYLAVVVGQTLLKVYPKLAPELIYGHHAHFNRHEENKATLRKHLYSNIMRFFNNPDSKVSKDIWDCNRDLPIIKDVIYNSQINFVKRTMIKKGAFYNQNPVGKFNKQLAANNRYPLKTKALCLDTSIYGGYGPMNSALSIIIIAERFNEKKGKIETVKEFHDIFIIDYEKFNNNPFQFLNDTSENGFLKKNNINRVLGFYRIPKYSLMQKIDGTRMLFESKSNLHKATQFKLTKTQNELFFHMKRLLTKSNLMDLKSKSAIKESQNFILKHKEEFDNISNQLSAFSQKMLGNTTSLKNLIKGYNERKIKEIDIRDETIKYFYDNFIKMFSFVKSGAPKDINDFFDNKCTVARMRPKPDKKLLNATLIHQSITGLYETRIDLSKLGED SEQ ID NO: 322MKQEYFLGLDMGTGSLGWAVTDSTYQVMRKHGKALWGTRLFESASTAEERRMFRTARRRLDRRNWRIQVLQEIFSEEISKVDPGFFLRMKESKYYPEDKRDAEGNCPELPYALFVDDNYTDKNYHKDYPTIYHLRKMLMETTEIPDIRLVYLVLHHMMKHRGHFLLSGDISQIKEFKSTFEQLIQNIQDEELEWHISLDDAAIQFVEHVLKDRNLTRSTKKSRLIKQLNAKSACEKAILNLLSGGTVKLSDIFNNKELDESERPKVSFADSGYDDYIGIVEAELAEQYYIIASAKAVYDWSVLVEILGNSVSISEAKIKVYQKHQADLKTLKKIVRQYMTKEDYKRVFVDTEEKLNNYSAYIGMTKKNGKKVDLKSKQCTQADFYDFLKKNVIKVIDHKEITQEIESEIEKENFLPKQVTKDNGVIPYQVHDYELKKILDNLGTRMPFIKENAEKIQQLFEFRIPYYVGPLNRVDDGKDGKFTWSVRKSDARIYPWNFTEVIDVEASAEKFIRRMTNKCTYLVGEDVLPKDSLVYSKFMVLNELNNLRLNGEKISVELKQRIYEELFCKYRKVTRKKLERYLVIEGIAKKGVEITGIDGDFKASLTAYHDFKERLTDVQLSQRAKEAIVLNVVLFGDDKKLLKQRLSKMYPNLTTGQLKGICSLSYQGWGRLSKTFLEEITVPAPGTGEVWNIMTALWQTNDNLMQLLSRNYGFTNEVEEFNTLKKETDLSYKTVDELYVSPAVKRQIWQTLKVVKEIQKVMGNAPKRVFVEMAREKQEGKRSDSRKKQLVELYRACKNEERDWITELNAQSDQQLRSDKLFLYYIQKGRCMYSGETIQLDELWDNTKYDIDHIYPQSKTMDDSLNNRVLVKKNYNAIKSDTYPLSLDIQKKMMSFWKMLQQQGFITKEKYVRLVRSDELSADELAGFIERQIVETRQSTKAVATILKEALPDTEIVYVKAGNVSNFRQTYELLKVREMNDLHHAKDAYLNIVVGNAYFVKFTKNAAWFIRNNPGRSYNLKRMFEFDIERSGEIAWKAGNKGSIVTVKKVMQKNNILVTRKAYEVKGGLFDQQIMKKGKGQVPIKGNDERLADIEKYGGYNKAAGTYFMLVKSLDKKGKEIRTIEFVPLYLKNQIEINHESAIQYLAQERGLNSPEILLSKIKIDTLFKVDGFKMWLSGRTGNQLIFKGANQLILSHQEAAILKGVVKYVNRKNENKDAKLSERDGMTEEKLLQLYDTFLDKLSNTVYSIRLSAQIKTLTEKRAKFIGLSNEDQCIVLNEILHMFQCQSGSANLKLIGGPGSAGILVMNNNITACKQISVINQSPTGIYEKEIDLIKLSEQ ID NO: 323MKKPYSIGLDIGTNSVGWAVVTDDYKVPAKKMKVLGNTDKSHIEKNLLGALLFDSGNTAEDRRLKRTARRRYTRRRNRILYLQEIFSEEMGKVDDSFFHRLEDSFLVTEDKRGERHPIFGNLEEEVKYHENFPTIYHLRQYLADNPEKVDLRLVYLALAHIIKFRGHFLIEGKFDTRNNDVQRLFQEFLAVYDNTFENSSLQEQNVQVEEILTDKISKSAKKDRVLKLFPNEKSNGRFAEFLKLIVGNQADFKKHFELEEKAPLQFSKDTYEEELEVLLAQIGDNYAELFLSAKKLYDSILLSGILTVTDVGTKAPLSASMIQRYNEHQMDLAQLKQFIRQKLSDKYNEVFSDVSKDGYAGYIDGKTNQEAFYKYLKGLLNKIEGSGYFLDKIEREDFLRKQRTFDNGSIPHQIHLQEMRAIIRRQAEFYPFLADNQDRIEKLLTFRIPYYVGPLARGKSDFAWLSRKSADKITPWNFDEIVDKESSAEAFINRMTNYDLYLPNQKVLPKHSLLYEKFTVYNELTKVKYKTEQGKTAFFDANMKQEIFDGVFKVYRKVTKDKLMDFLEKEFDEFRIVDLTGLDKENKVFNASYGTYHDLCKILDKDFLDNSKNEKILEDIVLTLTLFEDREMIRKRLENYSDLLTKEQVKKLERRHYTGWGRLSAELIHGIRNKESRKTILDYLIDDGNSNRNFMQLINDDALSFKEEIAKAQVIGETDNLNQVVSDIAGSPAIKKGILQSLKIVDELVKIMGHQPENIVVEMARENQFTNQGRRNSQQRLKGLTDSIKEFGSQILKEHPVENSQLQNDRLFLYYLQNGRDMYTGEELDIDYLSQYDIDHIIPQAFIKDNSIDNRVLTSSKENRGKSDDVPSKDVVRKMKSYWSKLLSAKLITQRKFDNLTKAERGGLTDDDKAGFIKRQLVETRQITKHVARILDERFNTETDENNKKIRQVKIVTLKSNLVSNFRKEFELYKVREINDYHHAHDAYLNAVIGKALLGVYPQLEPEFVYGDYPHFHGHKENKATAKKFFYSNIMNFFKKDDVRTDKNGEIIWKKDEHISNIKKVLSYPQVNIVKKVEEQTGGFSKESILPKGNSDKLIPRKTKKFYWDTKKYGGFDSPIVAYSILVIADIEKGKSKKLKTVKALVGVTIMEKMTFERDPVAFLERKGYRNVQEENIIKLPKYSLFKLENGRKRLLASARELQKGNEIVLPNHLGTLLYHAKNIHKVDEPKHLDYVDKHKDEFKELLDVVSNFSKKYTLAEGNLEKIKELYAQNNGEDLKELASSFINLLTFTAIGAPATFKFFDKNIDRKRYTSTTEILNATLIHQSITGLYETRIDLNKLGG DSEQ ID NO: 324MDKKYSIGLDIGTNSVGWAVITDEYKVPSKKFKVLGNTDRHSIKKNLIGALLFDSGETAEATRLKRTARRRYTRRKNRICYLQEIFSNEMAKVDDSFFHRLEESFLVEEDKKHERHPIFGNIVDEVAYHEKYPTIYHLRKKLVDSTDKADLRLIYLALAHMIKFRGHFLIEGDLNPDNSDVDKLFIQLVQTYNQLFEENPINASGVDAKAILSARLSKSRRLENLIAQLPGEKKNGLFGNLIALSLGLTPNFKSNFDLAEDAKLQLSKDTYDDDLDNLLAQIGDQYADLFLAAKNLSDAILLSDILRVNTEITKAPLSASMIKRYDEHHQDLTLLKALVRQQLPEKYKEIFFDQSKNGYAGYIDGGASQEEFYKFIKPILEKMDGTEELLVKLNREDLLRKQRTFDNGSIPHQIHLGELHAILRRQEDFYPFLKDNREKIEKILTFRIPYYVGPLARGNSRFAWMTRKSEETITPWNFEEVVDKGASAQSFIERMTNFDKNLPNEKVLPKHSLLYEYFTVYNELTKVKYVTEGMRKPAFLSGEQKKAIVDLLFKTNRKVTVKQLKEDYFKKIECFDSVEISGVEDRFNASLGTYHDLLKIIKDKDFLDNEENEDILEDIVLTLTLFEDREMIEERLKTYAHLFDDKVMKQLKRRRYTGWGRLSRKLINGIRDKQSGKTILDFLKSDGFANRNFMQLIHDDSLTFKEDIQKAQVSGQGDSLHEHIANLAGSPAIKKGILQTVKVVDELVKVMGRHKPENIVIEMARENQTTQKGQKNSRERMKRIEEGIKELGSQILKEHPVENTQLQNEKLYLYYLQNGRDMYVDQELDINRLSDYDVDHIVPQSFLKDDSIDNKVLTRSDKNRGKSDNVPSEEVVKKMKNYWRQLLNAKLITQRKFDNLTKAERGGLSELDKAGFIKRQLVETRQITKHVAQILDSRMNTKYDENDKLIREVKVITLKSKLVSDFRKDFQFYKVREINNYHHAHDAYLNAVVGTALIKKYPKLESEFVYGDYKVYDVRKMIAKSEQEIGKATAKYFFYSNIMNFFKTEITLANGEIRKRPLIETNGETGEIVWDKGRDFATVRKVLSMPQVNIVKKTEVQTGGFSKESILPKRNSDKLIARKKDWDPKKYGGFDSPTVAYSVLVVAKVEKGKSKKLKSVKELLGITIMERSSFEKNPIDFLEAKGYKEVKKDLIIKLPKYSLFELENGRKRMLASAGELQKGNELALPSKYVNFLYLASHYEKLKGSPEDNEQKQLFVEQHKHYLDEIIEQISEFSKRVILADANLDKVLSAYNKHRDKPIREQAENIIHLFTLTNLGAPAAFKYFDTTIDRKRYTSTKEVLDATLIHQSITGLYETRIDLSQLGGD SEQ ID NO: 325MTKPYSIGLDIGTNSVGWAVTTDNYKVPSKKMKVLGNTSKKYIKKNLLGVLLFDSGITAEGRRLKRTARRRYTRRRNRILYLQEIFSTEMATLDDAFFQRLDDSFLVPDDKRDSKYPIFGNLVEEKAYHDEFPTIYHLRKYLADSTKKADLRLVYLALAHMIKYRGHFLIEGEFNSKNNDIQKNFQDFLDTYNAIFESDLSLENSKQLEEIVKDKISKLEKKDRILKLFPGEKNSGIFSEFLKLIVGNQADFRKCFNLDEKASLHFSKESYDEDLETLLGYIGDDYSDVFLKAKKLYDAILLSGFLTVTDNETEAPLSSAMIKRYNEHKEDLALLKEYIRNISLKTYNEVFKDDTKNGYAGYIDGKTNQEDFYVYLKKLLAEFEGADYFLEKIDREDFLRKQRTFDNGSIPYQIHLQEMRAILDKQAKFYPFLAKNKERIEKILTFRIPYYVGPLARGNSDFAWSIRKRNEKITPWNFEDVIDKESSAEAFINRMTSFDLYLPEEKVLPKHSLLYETFNVYNELTKVRFIAESMRDYQFLDSKQKKDIVRLYFKDKRKVTDKDIIEYLHAIYGYDGIELKGIEKQFNSSLSTYHDLLNIINDKEFLDDSSNEAIIEEIIHTLTIFEDREMIKQRLSKFENIFDKSVLKKLSRRHYTGWGKLSAKLINGIRDEKSGNTILDYLIDDGISNRNFMQLIHDDALSFKKKIQKAQIIGDEDKGNIKEVVKSLPGSPAIKKGILQSIKIVDELVKVMGGRKPESIVVEMARENQYTNQGKSNSQQRLKRLEKSLKELGSKILKENIPAKLSKIDNNALQNDRLYLYYLQNGKDMYTGDDLDIDRLSNYDIDHIIPQAFLKDNSIDNKVLVSSASNRGKSDDVPSLEVVKKRKTFWYQLLKSKLISQRKFDNLTKAERGGLSPEDKAGFIQRQLVETRQITKHVARLLDEKFNNKKDENNRAVRTVKIITLKSTLVSQFRKDFELYKVREINDFHHAHDAYLNAVVASALLKKYPKLEPEFVYGDYPKYNSFRERKSATEKVYFYSNIMNIFKKSISLADGRVIERPLIEVNEETGESVWNKESDLATVRRVLSYPQVNVVKKVEEQNHGLDRGKPKGLFNANLSSKPKPNSNENLVGAKEYLDPKKYGGYAGISNSFTVLVKGTIEKGAKKKITNVLEFQGISILDRINYRKDKLNFLLEKGYKDIELIIELPKYSLFELSDGSRRMLASILSTNNKRGEIHKGNQIFLSQKFVKLLYHAKRISNTINENHRKYVENHKKEFEELFYYILEFNENYVGAKKNGKLLNSAFQSWQNHSIDELCSSFIGPTGSERKGLFELTSRGSAADFEFLGVKIPRYRDYTPSSLLKDATLIHQSVTGLYETRIDLAKLGEG SEQ ID NO: 326MKKQKFSDYYLGFDIGTNSVGWCVTDLDYNVLRFNKKDMWGSRLFDEAKTAAERRVQRNSRRRLKRRKWRLNLLEEIFSDEIMKIDSNFFRRLKESSLWLEDKNSKEKFTLFNDDNYKDYDFYKQYPTIFHLRDELIKNPEKKDIRLIYLALHSIFKSRGHFLFEGQNLKEIKNFETLYNNLISFLEDNGINKSIDKDNIEKLEKIICDSGKGLKDKEKEFKGIFNSDKQLVAIFKLSVGSSVSLNDLFDTDEYKKEEVEKEKISFREQIYEDDKPIYYSILGEKIELLDIAKSFYDFMVLNNILSDSNYISEAKVKLYEEHKKDLKNLKYIIRKYNKENYDKLFKDKNENNYPAYIGLNKEKDKKEVVEKSRLKIDDLIKVTKGYLPKPERIEEKDKTIFNEILNKIELKTILPKQRISDNGTLPYQIHEVELEKILENQSKYYDFLNYEENGVSTKDKLLKTFKFRIPYYVGPLNSYHKDKGGNSWIVRKEEGKILPWNFEQKVDIEKSAEEFIKRMTNKCTYLNGEDVIPKDSFLYSEYIILNELNKVQVNDEFLNEENKRKIIDELFKENKKVSEKKFKEYLLVNQIANRTVELKGIKDSFNSNYVSYIKFKDIFGEKLNLDIYKEISEKSILWKCLYGDDKKIFEKKIKNEYGDILNKDEIKKINSFKFNTWGRLSEKLLTGIEFINLETGECYSSVMEALRRTNYNLMELLSSKFTLQESIDNENKEMNEVSYRDLIEESYVSPSLKRAILQTLKIYEEIKKITGRVPKKVFIEMARGGDESMKNKKIPARQEQLKKLYDSCGNDIANFSIDIKEMKNSLSSYDNNSLRQKKLYLYYLQFGKCMYTGREIDLDRLLQNNDTYDIDHIYPRSKVIKDDSFDNLVLVLKNENAEKSNEYPVKKEIQEKMKSFWRFLKEKNFISDEKYKRLTGKDDFELRGFMARQLVNVRQTTKEVGKILQQIEPEIKIVYSKAEIASSFREMFDFIKVRELNDTHHAKDAYLNIVAGNVYNTKFTEKPYRYLQEIKENYDVKKIYNYDIKNAWDKENSLEIVKKNMEKNTVNITRFIKEEKGELFNLNPIKKGETSNEIISIKPKLYDGKDNKLNEKYGYYTSLKAAYFIYVEHEKKNKKVKTFERITRIDSTLIKNEKNLIKYLVSQKKLLNPKIIKKIYKEQTLIIDSYPYTFTGVDSNKKVELKNKKQLYLEKKYEQILKNALKFVEDNQGETEENYKFIYLKKRNNNEKNETIDAVKERYNIEFNEMYDKFLEKLSSKDYKNYINNKLYTNFLNSKEKFKKLKLWEKSLILREFLKIFNKNTYGKYEIKDSQTKEKLFSFPEDTGRIRLGQSSLGNNKELLEESVTGLFVKKIKL SEQ ID NO: 327MKNYTIGLDIGVASVGWVCIDENYKILNYNNRHAFGVHEFESAESAAGRRLKRGMRRRYNRRKKRLQLLQSLFDSYITDSGFFSKTDSQHFWKNNNEFENRSLTEVLSSLRISSRKYPTIYHLRSDLIESNKKMDLRLVYLALHNLVKYRGHFLQEGNWSEAASAEGMDDQLLELVTRYAELENLSPLDLSESQWKAAETLLLNRNLTKTDQSKELTAMFGKEYEPFCKLVAGLGVSLHQLFPSSEQALAYKETKTKVQLSNENVEEVMELLLEEESALLEAVQPFYQQVVLYELLKGETYVAKAKVSAFKQYQKDMASLKNLLDKTFGEKVYRSYFISDKNSQREYQKSHKVEVLCKLDQFNKEAKFAETFYKDLKKLLEDKSKTSIGTTEKDEMLRIIKAIDSNQFLQKQKGIQNAAIPHQNSLYEAEKILRNQQAHYPFITTEWIEKVKQILAFRIPYYIGPLVKDTTQSPFSWVERKGDAPITPWNFDEQIDKAASAEAFISRMRKTCTYLKGQEVLPKSSLTYERFEVLNELNGIQLRTTGAESDFRHRLSYEMKCWIIDNVFKQYKTVSTKRLLQELKKSPYADELYDEHTGEIKEVFGTQKENAFATSLSGYISMKSILGAVVDDNPAMTEELIYWIAVFEDREILHLKIQEKYPSITDVQRQKLALVKLPGWGRFSRLLIDGLPLDEQGQSVLDHMEQYSSVFMEVLKNKGFGLEKKIQKMNQHQVDGTKKIRYEDIEELAGSPALKRGIWRSVKIVEELVSIFGEPANIVLEVAREDGEKKRTKSRKDQWEELTKTTLKNDPDLKSFIGEIKSQGDQRFNEQRFWLYVTQQGKCLYTGKALDIQNLSMYEVDHILPQNFVKDDSLDNLALVMPEANQRKNQVGQNKMPLEIIEANQQYAMRTLWERLHELKLISSGKLGRLKKPSFDEVDKDKFIARQLVETRQIIKHVRDLLDERFSKSDIHLVKAGIVSKFRRFSEIPKIRDYNNKHHAMDALFAAALIQSILGKYGKNFLAFDLSKKDRQKQWRSVKGSNKEFFLFKNFGNLRLQSPVTGEEVSGVEYMKHVYFELPWQTTKMTQTGDGMFYKESIFSPKVKQAKYVSPKTEKFVHDEVKNHSICLVEFTFMKKEKEVQETKFIDLKVIEHHQFLKEPESQLAKFLAEKETNSPIIHARIIRTIPKYQKIWIEHFPYYFISTRELHNARQFEISYELMEKVKQLSERSSVEELKIVFGLLIDQMNDNYPIYTKSSIQDRVQKFVDTQLYDFKSFEIGFEELKKAVAANAQRSDTFGSRISKKPKPEEVAIGYESITGLKYRKPRSVVGTKR SEQ ID NO: 328MKKEIKDYFLGLDVGTGSVGWAVTDTDYKLLKANRKDLWGMRCFETAETAEVRRLHRGARRRIERRKKRIKLLQELFSQEIAKTDEGFFQRMKESPFYAEDKTILQENTLFNDKDFADKTYHKAYPTINHLIKAWIENKVKPDPRLLYLACHNIIKKRGHFLFEGDFDSENQFDTSIQALFEYLREDMEVDIDADSQKVKEILKDSSLKNSEKQSRLNKILGLKPSDKQKKAITNLISGNKINFADLYDNPDLKDAEKNSISFSKDDFDALSDDLASILGDSFELLLKAKAVYNCSVLSKVIGDEQYLSFAKVKIYEKHKTDLTKLKNVIKKHFPKDYKKVFGYNKNEKNNNNYSGYVGVCKTKSKKLIINNSVNQEDFYKFLKTILSAKSEIKEVNDILTEIETGTFLPKQISKSNAEIPYQLRKMELEKILSNAEKHFSFLKQKDEKGLSHSEKIIMLLTFKIPYYIGPINDNHKKFFPDRCWVVKKEKSPSGKTTPWNFFDHIDKEKTAEAFITSRTNFCTYLVGESVLPKSSLLYSEYTVLNEINNLQIIIDGKNICDIKLKQKIYEDLFKKYKKITQKQISTFIKHEGICNKTDEVIILGIDKECTSSLKSYIELKNIFGKQVDEISTKNMLEEIIRWATIYDEGEGKTILKTKIKAEYGKYCSDEQIKKILNLKFSGWGRLSRKFLETVTSEMPGFSEPVNIITAMRETQNNLMELLSSEFTFTENIKKINSGFEDAEKQFSYDGLVKPLFLSPSVKKMLWQTLKLVKEISHITQAPPKKIFIEMAKGAELEPARTKTRLKILQDLYNNCKNDADAFSSEIKDLSGKIENEDNLRLRSDKLYLYYTQLGKCMYCGKPIEIGHVFDTSNYDIDHIYPQSKIKDDSISNRVLVCSSCNKNKEDKYPLKSEIQSKQRGFWNFLQRNNFISLEKLNRLTRATPISDDETAKFIARQLVETRQATKVAAKVLEKMFPETKIVYSKAETVSMFRNKFDIVKCREINDFHHAHDAYLNIVVGNVYNTKFTNNPWNFIKEKRDNPKIADTYNYYKVFDYDVKRNNITAWEKGKTIITVKDMLKRNTPIYTRQAACKKGELFNQTIMKKGLGQHPLKKEGPFSNISKYGGYNKVSAAYYTLIEYEEKGNKIRSLETIPLYLVKDIQKDQDVLKSYLTDLLGKKEFKILVPKIKINSLLKINGFPCHITGKTNDSFLLRPAVQFCCSNNEVLYFKKIIRFSEIRSQREKIGKTISPYEDLSFRSYIKENLWKKTKNDEIGEKEFYDLLQKKNLEIYDMLLTKHKDTIYKKRPNSATIDILVKGKEKFKSLIIENQFEVILEILKLFSATRNVSDLQHIGGSKYSGVAKIGNKISSLDNCILIYQSITGIFEKRIDLLKV SEQ ID NO: 329MEGQMKNNGNNLQQGNYYLGLDVGTSSVGWAVTDTDYNVLKFRGKSMWGARLFDEASTAEERRTHRGNRRRLARRKYRLLLLEQLFEKEIRKIDDNFFVRLHESNLWADDKSKPSKFLLFNDTNFTDKDYLKKYPTIYHLRSDLIHNSTEHDIRLVFLALHHLIKYRGHFIYDNSANGDVKTLDEAVSDFEEYLNENDIEFNIENKKEFINVLSDKHLTKKEKKISLKKLYGDITDSENINISVLIEMLSGSSISLSNLFKDIEFDGKQNLSLDSDIEETLNDVVDILGDNIDLLIHAKEVYDIAVLTSSLGKHKYLCDAKVELFEKNKKDLMILKKYIKKNHPEDYKKIFSSPTEKKNYAAYSQTNSKNVCSQEEFCLFIKPYIRDMVKSENEDEVRIAKEVEDKSFLTKLKGTNNSVVPYQIHERELNQILKNIVAYLPFMNDEQEDISVVDKIKLIFKFKIPYYVGPLNTKSTRSWVYRSDEKIYPWNFSNVIDLDKTAHEFMNRLIGRCTYTNDPVLPMDSLLYSKYNVLNEINPIKVNGKAIPVEVKQAIYTDLFENSKKKVTRKSIYIYLLKNGYIEKEDIVSGIDIEIKSKLKSHHDFTQIVQENKCTPEEIERIIKGILVYSDDKSMLRRWLKNNIKGLSENDVKYLAKLNYKEWGRLSKTLLTDIYTINPEDGEACSILDIMWNTNATLMEILSNEKYQFKQNIENYKAENYDEKQNLHEELDDMYISPAARRSIWQALRIVDEIVDIKKSAPKKIFIEMAREKKSAMKKKRTESRKDTLLELYKSCKSQADGFYDEELFEKLSNESNSRLRRDQLYLYYTQMGRSMYTGKRIDFDKLINDKNTYDIDHIYPRSKIKDDSITNRVLVEKDINGEKTDIYPISEDIRQKMQPFWKILKEKGLINEEKYKRLTRNYELTDEELSSFVARQLVETQQSTKALATLLKKEYPSAKIVYSKAGNVSEFRNRKDKELPKFREINDLHHAKDAYLNIVVGNVYDTKFTEKFFNNIRNENYSLKRVFDFSVPGAWDAKGSTFNTIKKYMAKNNPIIAFAPYEVKGELFDQQIVPKGKGQFPIKQGKDIEKYGGYNKLSSAFLFAVEYKGKKARERSLETVYIKDVELYLQDPIKYCESVLGLKEPQIIKPKILMGSLFSINNKKLVVTGRSGKQYVCHHIYQLSINDEDSQYLKNIAKYLQEEPDGNIERQNILNITSVNNIKLFDVLCTKFNSNTYEIILNSLKNDVNEGREKFSELDILEQCNILLQLLKAFKCNRESSNLEKLNNKKQAGVIVIPHLFTKCSVFKVIHQSITGLFEKEMDLLK SEQ ID NO: 330MGRKPYILSLDIGTGSVGYACMDKGFNVLKYHDKDALGVYLFDGALTAQERRQFRTSRRRKNRRIKRLGLLQELLAPLVQNPNFYQFQRQFAWKNDNMDFKNKSLSEVLSFLGYESKKYPTIYHLQEALLLKDEKFDPELIYMALYHLVKYRGHFLFDHLKIENLTNNDNMHDFVELIETYENLNNIKLNLDYEKTKVIYEILKDNEMTKNDRAKRVKNMEKKLEQFSIMLLGLKFNEGKLFNHADNAEELKGANQSHTFADNYEENLTPFLTVEQSEFIERANKIYLSLTLQDILKGKKSMAMSKVAAYDKFRNELKQVKDIVYKADSTRTQFKKIFVSSKKSLKQYDATPNDQTFSSLCLFDQYLIRPKKQYSLLIKELKKIIPQDSELYFEAENDTLLKVLNTTDNASIPMQINLYEAETILRNQQKYHAEITDEMIEKVLSLIQFRIPYYVGPLVNDHTASKFGWMERKSNESIKPWNFDEVVDRSKSATQFIRRMTNKCSYLINEDVLPKNSLLYQEMEVLNELNATQIRLQTDPKNRKYRMMPQIKLFAVEHIFKKYKTVSHSKFLEIMLNSNHRENFMNHGEKLSIFGTQDDKKFASKLSSYQDMTKIFGDIEGKRAQIEEIIQWITIFEDKKILVQKLKECYPELTSKQINQLKKLNYSGWGRLSEKLLTHAYQGHSIIELLRHSDENFMEILTNDVYGFQNFIKEENQVQSNKIQHQDIANLTTSPALKKGIWSTIKLVRELTSIFGEPEKIIMEFATEDQQKGKKQKSRKQLWDDNIKKNKLKSVDEYKYIIDVANKLNNEQLQQEKLWLYLSQNGKCMYSGQSIDLDALLSPNATKHYEVDHIFPRSFIKDDSIDNKVLVIKKMNQTKGDQVPLQFIQQPYERIAYWKSLNKAGLISDSKLHKLMKPEFTAMDKEGFIQRQLVETRQISVHVRDFLKEEYPNTKVIPMKAKMVSEFRKKFDIPKIRQMNDAHHAIDAYLNGVVYHGAQLAYPNVDLFDFNFKWEKVREKWKALGEFNTKQKSRELFFFKKLEKMEVSQGERLISKIKLDMNHFKINYSRKLANIPQQFYNQTAVSPKTAELKYESNKSNEVVYKGLTPYQTYVVAIKSVNKKGKEKMEYQMIDHYVFDFYKFQNGNEKELALYLAQRENKDEVLDAQIVYSLNKGDLLYINNHPCYFVSRKEVINAKQFELTVEQQLSLYNVMNNKETNVEKLLIEYDFIAEKVINEYHHYLNSKLKEKRVRTFFSESNQTHEDFIKALDELFKVVTASATRSDKIGSRKNSMTHRAFLGKGKDVKIAYTSISGLKTTKPKSLFKLAESRNEL SEQ ID NO: 331MAKILGLDLGTNSIGWAVVERENIDFSLIDKGVRIFSEGVKSEKGIESSRAAERTGYRSARKIKYRRKLRKYETLKVLSLNRMCPLSIEEVEEWKKSGFKDYPLNPEFLKWLSTDEESNVNPYFFRDRASKHKVSLFELGRAFYHIAQRRGFLSNRLDQSAEGILEEHCPKIEAIVEDLISIDEISTNITDYFFETGILDSNEKNGYAKDLDEGDKKLVSLYKSLLAILKKNESDFENCKSEIIERLNKKDVLGKVKGKIKDISQAMLDGNYKTLGQYFYSLYSKEKIRNQYTSREEHYLSEFITICKVQGIDQINEEEKINEKKFDGLAKDLYKAIFFQRPLKSQKGLIGKCSFEKSKSRCAISHPDFEEYRMWTYLNTIKIGTQSDKKLRFLTQDEKLKLVPKFYRKNDFNFDVLAKELIEKGSSFGFYKSSKKNDFFYWFNYKPTDTVAACQVAASLKNAIGEDWKTKSFKYQTINSNKEQVSRTVDYKDLWHLLTVATSDVYLYEFAIDKLGLDEKNAKAFSKTKLKKDFASLSLSAINKILPYLKEGLLYSHAVFVANIENIVDENIWKDEKQRDYIKTQISEIIENYTLEKSRFEIINGLLKEYKSENEDGKRVYYSKEAEQSFENDLKKKLVLFYKSNEIENKEQQETIFNELLPIFIQQLKDYEFIKIQRLDQKVLIFLKGKNETGQIFCTEEKGTAEEKEKKIKNRLKKLYHPSDIEKFKKKIIKDEFGNEKIVLGSPLTPSIKNPMAMRALHQLRKVLNALILEGQIDEKTIIHIEMARELNDANKRKGIQDYQNDNKKFREDAIKEIKKLYFEDCKKEVEPTEDDILRYQLWMEQNRSEIYEEGKNISICDIIGSNPAYDIEHTIPRSRSQDNSQMNKTLCSQRFNREVKKQSMPIELNNHLEILPRIAHWKEEADNLTREIEIISRSIKAAATKEIKDKKIRRRHYLTLKRDYLQGKYDRFIWEEPKVGFKNSQIPDTGIITKYAQAYLKSYFKKVESVKGGMVAEFRKIWGIQESFIDENGMKHYKVKDRSKHTHHTIDAITIACMTKEKYDVLAHAWTLEDQQNKKEARSIIEASKPWKTFKEDLLKIEEEILVSHYTPDNVKKQAKKIVRVRGKKQFVAEVERDVNGKAVPKKAASGKTIYKLDGEGKKLPRLQQGDTIRGSLHQDSIYGAIKNPLNTDEIKYVIRKDLESIKGSDVESIVDEVVKEKIKEAIANKVLLLSSNAQQKNKLVGTVWMNEEKRIAINKVRIYANSVKNPLHIKEHSLLSKSKHVHKQKVYGQNDENYAMAIYELDGKRDFELINIFNLAKLIKQGQGFYPLHKKKEIKGKIVFVPIEKRNKRDVVLKRGQQVVFYDKEVENPKDISEIVDFKGRIYIIEGLSIQRIVRPSGKVDEYGVIMLRYFKEARKADDIKQDNFKPDGVFKLGENKPTRKMNHQFTAFVEGIDFKVLPSGKFEKISEQ ID NO: 332MEFKKVLGLDIGTNSIGCALLSLPKSIQDYGKGGRLEWLTSRVIPLDADYMKAFIDGKNGLPQVITPAGKRRQKRGSRRLKHRYKLRRSRLIRVFKTLNWLPEDFPLDNPKRIKETISTEGKFSFRISDYVPISDESYREFYREFGYPENEIEQVIEEINFRRKTKGKNKNPMIKLLPEDWVVYYLRKKALIKPTTKEELIRIIYLFNQRRGFKSSRKDLTETAILDYDEFAKRLAEKEKYSAENYETKFVSITKVKEVVELKTDGRKGKKRFKVILEDSRIEPYEIERKEKPDWEGKEYTFLVTQKLEKGKFKQNKPDLPKEEDWALCTTALDNRMGSKHPGEFFFDELLKAFKEKRGYKIRQYPVNRWRYKKELEFIWTKQCQLNPELNNLNINKEILRKLATVLYPSQSKFFGPKIKEFENSDVLHIISEDIIYYQRDLKSQKSLISECRYEKRKGIDGEIYGLKCIPKSSPLYQEFRIWQDIHNIKVIRKESEVNGKKKINIDETQLYINENIKEKLFELFNSKDSLSEKDILELISLNIINSGIKISKKEEETTHRINLFANRKELKGNETKSRYRKVFKKLGFDGEYILNHPSKLNRLWHSDYSNDYADKEKTEKSILSSLGWKNRNGKWEKSKNYDVFNLPLEVAKAIANLPPLKKEYGSYSALAIRKMLVVMRDGKYWQHPDQIAKDQENTSLMLFDKNLIQLTNNQRKVLNKYLLTLAEVQKRSTLIKQKLNEIEHNPYKLELVSDQDLEKQVLKSFLEKKNESDYLKGLKTYQAGYLIYGKHSEKDVPIVNSPDELGEYIRKKLPNNSLRNPIVEQVIRETIFIVRDVWKSFGIIDEIHIELGRELKNNSEERKKTSESQEKNFQEKERARKLLKELLNSSNFEHYDENGNKIFSSFTVNPNPDSPLDIEKFRIWKNQSGLTDEELNKKLKDEKIPTEIEVKKYILWLTQKCRSPYTGKIIPLSKLFDSNVYEIEHIIPRSKMKNDSTNNLVICELGVNKAKGDRLAANFISESNGKCKFGEVEYTLLKYGDYLQYCKDTFKYQKAKYKNLLATEPPEDFIERQINDTRYIGRKLAELLTPVVKDSKNIIFTIGSITSELKITWGLNGVWKDILRPRFKRLESIINKKLIFQDEDDPNKYHFDLSINPQLDKEGLKRLDHRHHALDATIIAATTREHVRYLNSLNAADNDEEKREYFLSLCNHKIRDFKLPWENFTSEVKSKLLSCVVSYKESKPILSDPFNKYLKWEYKNGKWQKVFAIQIKNDRWKAVRRSMFKEPIGTVWIKKIKEVSLKEAIKIQAIWEEVKNDPVRKKKEKYIYDDYAQKVIAKIVQELGLSSSMRKQDDEKLNKFINEAKVSAGVNKNLNTTNKTIYNLEGRFYEKIKVAEYVLYKAKRMPLNKKEYIEKLSLQKMFNDLPNFILEKSILDNYPEILKELESDNKYIIEPHKKNNPVNRLLLEHILEYHNNPKEAFSTEGLEKLNKKAINKIGKPIKYITRLDGDINEEEIFRGAVFETDKGSNVYFVMYENNQTKDREFLKPNPSISVLKAIEHKNKIDFFAPNRLGFSRIILSPGDLVYVPTNDQYVLIKDNSSNETIINWDDNEFISNRIYQVKKFTGNSCYFLKNDIASLILSYSASNGVGEFGSQNISEYSVDDPPIRIKDVCIKIRVDRLGNVRPL SEQ ID NO: 333MKHILGLDLGTNSIGWALIERNIEEKYGKIIGMGSRIVPMGAELSKFEQGQAQTKNADRRTNRGARRLNKRYKQRRNKLIYILQKLDMLPSQIKLKEDFSDPNKIDKITILPISKKQEQLTAFDLVSLRVKALTEKVGLEDLGKIIYKYNQLRGYAGGSLEPEKEDIFDEEQSKDKKNKSFIAFSKIVFLGEPQEEIFKNKKLNRRAIIVETEEGNFEGSTFLENIKVGDSLELLINISASKSGDTITIKLPNKTNWRKKMENIENQLKEKSKEMGREFYISEFLLELLKENRWAKIRNNTILRARYESEFEAIWNEQVKHYPFLENLDKKTLIEIVSFIFPGEKESQKKYRELGLEKGLKYIIKNQVVFYQRELKDQSHLISDCRYEPNEKAIAKSHPVFQEYKVWEQINKLIVNTKIEAGTNRKGEKKYKYIDRPIPTALKEWIFEELQNKKEITFSAIFKKLKAEFDLREGIDFLNGMSPKDKLKGNETKLQLQKSLGELWDVLGLDSINRQIELWNILYNEKGNEYDLTSDRTSKVLEFINKYGNNIVDDNAEETAIRISKIKFARAYSSLSLKAVERILPLVRAGKYFNNDFSQQLQSKILKLLNENVEDPFAKAAQTYLDNNQSVLSEGGVGNSIATILVYDKHTAKEYSHDELYKSYKEINLLKQGDLRNPLVEQIINEALVLIRDIWKNYGIKPNEIRVELARDLKNSAKERATIHKRNKDNQTINNKIKETLVKNKKELSLANIEKVKLWEAQRHLSPYTGQPIPLSDLFDKEKYDVDHIIPISRYFDDSFTNKVISEKSVNQEKANRTAMEYFEVGSLKYSIFTKEQFIAHVNEYFSGVKRKNLLATSIPEDPVQRQIKDTQYIAIRVKEELNKIVGNENVKTTTGSITDYLRNHWGLTDKFKLLLKERYEALLESEKFLEAEYDNYKKDFDSRKKEYEEKEVLFEEQELTREEFIKEYKENYIRYKKNKLIIKGWSKRIDHRHHAIDALIVACTEPAHIKRLNDLNKVLQDWLVEHKSEFMPNFEGSNSELLEEILSLPENERTEIFTQIEKFRAIEMPWKGFPEQVEQKLKEIIISHKPKDKLLLQYNKAGDRQIKLRGQLHEGTLYGISQGKEAYRIPLTKFGGSKFATEKNIQKIVSPFLSGFIANHLKEYNNKKEEAFSAEGIMDLNNKLAQYRNEKGELKPHTPISTVKIYYKDPSKNKKKKDEEDLSLQKLDREKAFNEKLYVKTGDNYLFAVLEGEIKTKKTSQIKRLYDIISFFDATNFLKEEFRNAPDKKTFDKDLLFRQYFEERNKAKLLFTLKQGDFVYLPNENEEVILDKESPLYNQYWGDLKERGKNIYVVQKFSKKQIYFIKHTIADIIKKDVEFGSQNCYETVEGRSIKENCFKLEIDRLGN IVKVIKRSEQ ID NO: 334MHVEIDFPHFSRGDSHLAMNKNEILRGSSVLYRLGLDLGSNSLGWFVTHLEKRGDRHEPVALGPGGVRIFPDGRDPQSGTSNAVDRRMARGARKRRDRFVERRKELIAALIKYNLLPDDARERRALEVLDPYALRKTALTDTLPAHHVGRALFHLNQRRGFQSNRKTDSKQSEDGAIKQAASRLATDKGNETLGVFFADMHLRKSYEDRQTAIRAELVRLGKDHLTGNARKKIWAKVRKRLFGDEVLPRADAPHGVRARATITGTKASYDYYPTRDMLRDEFNAIWAGQSAHHATITDEARTEIEHIIFYQRPLKPAIVGKCTLDPATRPFKEDPEGYRAPWSHPLAQRFRILSEARNLEIRDTGKGSRRLTKEQSDLVVAALLANREVKFDKLRTLLKLPAEARFNLESDRRAALDGDQTAARLSDKKGFNKAWRGFPPERQIAIVARLEETEDENELIAWLEKECALDGAAAARVANTTLPDGHCRLGLRAIKKIVPIMQDGLDEDGVAGAGYHIAAKRAGYDHAKLPTGEQLGRLPYYGQWLQDAVVGSGDARDQKEKQYGQFPNPTVHIGLGQLRRVVNDLIDKYGPPTEISIEFTRALKLSEQQKAERQREQRRNQDKNKARAEELAKFGRPANPRNLLKMRLWEELAHDPLDRKCVYTGEQISIERLLSDEVDIDHILPVAMTLDDSPANKIICMRYANRHKRKQTPSEAFGSSPTLQGHRYNWDDIAARATGLPRNKRWRFDANAREEFDKRGGFLARQLNETGWLARLAKQYLGAVTDPNQIWVVPGRLTSMLRGKWGLNGLLPSDNYAGVQDKAEEFLASTDDMEFSGVKNRADHRHHAIDGLVTALTDRSLLWKMANAYDEEHEKFVIEPPWPTMRDDLKAALEKMVVSHKPDHGIEGKLHEDSAYGFVKPLDATGLKEEEAGNLVYRKAIESLNENEVDRIRDIQLRTIVRDHVNVEKTKGVALADALRQLQAPSDDYPQFKHGLRHVRILKKEKGDYLVPIANRASGVAYKAYSAGENFCVEVFETAGGKWDGEAVRRFDANKKNAGPKIAHAPQWRDANEGAKLVMRIHKGDLIRLDHEGRARIMVVHRLDAAAGRFKLADHNETGNLDKRHATNNDIDPFRWLMASYNTLKKLAAVPVRVDELGRVWRVMPN SEQ ID NO: 335METTLGIDLGTNSIGLALVDQEEHQILYSGVRIFPEGINKDTIGLGEKEESRNATRRAKRQMRRQYFRKKLRKAKLLELLIAYDMCPLKPEDVRRWKNWDKQQKSTVRQFPDTPAFREWLKQNPYELRKQAVTEDVTRPELGRILYQMIQRRGFLSSRKGKEEGKIFTGKDRMVGIDETRKNLQKQTLGAYLYDIAPKNGEKYRFRTERVRARYTLRDMYIREFEIIWQRQAGHLGLAHEQATRKKNIFLEGSATNVRNSKLITHLQAKYGRGHVLIEDTRITVTFQLPLKEVLGGKIEIEEEQLKFKSNESVLFWQRPLRSQKSLLSKCVFEGRNFYDPVHQKWIIAGPTPAPLSHPEFEEFRAYQFINNIIYGKNEHLTAIQREAVFELMCTESKDFNFEKIPKHLKLFEKFNFDDTTKVPACTTISQLRKLFPHPVWEEKREEIWHCFYFYDDNTLLFEKLQKDYALQTNDLEKIKKIRLSESYGNVSLKAIRRINPYLKKGYAYSTAVLLGGIRNSFGKRFEYFKEYEPEIEKAVCRILKEKNAEGEVIRKIKDYLVHNRFGFAKNDRAFQKLYHHSQAITTQAQKERLPETGNLRNPIVQQGLNELRRTVNKLLATCREKYGPSFKFDHIHVEMGRELRSSKTEREKQSRQIRENEKKNEAAKVKLAEYGLKAYRDNIQKYLLYKEIEEKGGTVCCPYTGKTLNISHTLGSDNSVQIEHIIPYSISLDDSLANKTLCDATFNREKGELTPYDFYQKDPSPEKWGASSWEEIEDRAFRLLPYAKAQRFIRRKPQESNEFISRQLNDTRYISKKAVEYLSAICSDVKAFPGQLTAELRHLWGLNNILQSAPDITFPLPVSATENHREYYVITNEQNEVIRLFPKQGETPRTEKGELLLTGEVERKVFRCKGMQEFQTDVSDGKYWRRIKLSSSVTWSPLFAPKPISADGQIVLKGRIEKGVFVCNQLKQKLKTGLPDGSYWISLPVISQTFKEGESVNNSKLTSQQVQLFGRVREGIFRCHNYQCPASGADGNFWCTLDTDTAQPAFTPIKNAPPGVGGGQIILTGDVDDKGIFHADDDLHYELPASLPKGKYYGIFTVESCDPTLIPIELSAPKTSKGENLIEGNIWVDEHTGEVRFDPKKNREDQRHHAIDAIVIALSSQSLFQRLSTYNARRENKKRGLDSTEHFPSPWPGFAQDVRQSVVPLLVSYKQNPKTLCKISKTLYKDGKKIHSCGNAVRGQLHKETVYGQRTAPGATEKSYHIRKDIRELKTSKHIGKVVDITIRQMLLKHLQENYHIDITQEFNIPSNAFFKEGVYRIFLPNKHGEPVPIKKIRMKEELGNAERLKDNINQYVNPRNNHHVMIYQDADGNLKEEIVSFWSVIERQNQGQPIYQLPREGRNIVSILQINDTFLIGLKEEEPEVYRNDLSTLSKHLYRVQKLSGMYYTFRHHLASTLNNEREEFRIQSLEAWKRANPVKVQIDEIGRITFLNGPLC SEQ ID NO: 336MESSQILSPIGIDLGGKFTGVCLSHLEAFAELPNHANTKYSVILIDHNNFQLSQAQRRATRHRVRNKKRNQFVKRVALQLFQHILSRDLNAKEETALCHYLNNRGYTYVDTDLDEYIKDETTINLLKELLPSESEHNFIDWFLQKMQSSEFRKILVSKVEEKKDDKELKNAVKNIKNFITGFEKNSVEGHRHRKVYFENIKSDITKDNQLDSIKKKIPSVCLSNLLGHLSNLQWKNLHRYLAKNPKQFDEQTFGNEFLRMLKNFRHLKGSQESLAVRNLIQQLEQSQDYISILEKTPPEITIPPYEARTNTGMEKDQSLLLNPEKLNNLYPNWRNLIPGIIDAHPFLEKDLEHTKLRDRKRIISPSKQDEKRDSYILQRYLDLNKKIDKFKIKKQLSFLGQGKQLPANLIETQKEMETHFNSSLVSVLIQIASAYNKEREDAAQGIWFDNAFSLCELSNINPPRKQKILPLLVGAILSEDFINNKDKWAKFKIFWNTHKIGRTSLKSKCKEIEEARKNSGNAFKIDYEEALNHPEHSNNKALIKIIQTIPDIIQAIQSHLGHNDSQALIYHNPFSLSQLYTILETKRDGFHKNCVAVTCENYWRSQKTEIDPEISYASRLPADSVRPFDGVLARMMQRLAYEIAMAKWEQIKHIPDNSSLLIPIYLEQNRFEFEESFKKIKGSSSDKTLEQAIEKQNIQWEEKFQRIINASMNICPYKGASIGGQGEIDHIYPRSLSKKHFGVIFNSEVNLIYCSSQGNREKKEEHYLLEHLSPLYLKHQFGTDNVSDIKNFISQNVANIKKYISFHLLTPEQQKAARHALFLDYDDEAFKTITKFLMSQQKARVNGTQKFLGKQIMEFLSTLADSKQLQLEFSIKQITAEEVHDHRELLSKQEPKLVKSRQQSFPSHAIDATLTMSIGLKEFPQFSQELDNSWFINHLMPDEVHLNPVRSKEKYNKPNISSTPLFKDSLYAERFIPVWVKGETFAIGFSEKDLFEIKPSNKEKLFTLLKTYSTKNPGESLQELQAKSKAKWLYFPINKTLALEFLHHYFHKEIVTPDDTTVCHFINSLRYYTKKESITVKILKEPMPVLSVKFESSKKNVLGSFKHTIALPATKDWERLFNHPNFLALKANPAPNPKEFNEFIRKYFLSDNNPNSDIPNNGHNIKPQKHKAVRKVFSLPVIPGNAGTMMRIRRKDNKGQPLYQLQTIDDTPSMGIQINEDRLVKQEVLMDAYKTRNLSTIDGINNSEGQAYATFDNWLTLPVSTFKPEIIKLEMKPHSKTRRYIRITQSLADFIKTIDEALMIKPSDSIDDPLNMPNEIVCKNKLFGNELKPRDGKMKIVSTGKIVTYEFESDSTPQWIQTLYVTQLKKQP SEQ ID NO: 337MKKIVGLDLGTNSIGWALINAYINKEHLYGIEACGSRIIPMDAAILGNFDKGNSISQTADRTSYRGIRRLRERHLLRRERLHRILDLLGFLPKHYSDSLNRYGKFLNDIECKLPWVKDETGSYKFIFQESFKEMLANFTEHHPILIANNKKVPYDWTIYYLRKKALTQKISKEELAWILLNFNQKRGYYQLRGEEEETPNKLVEYYSLKVEKVEDSGERKGKDTWYNVHLENGMIYRRTSNIPLDWEGKTKEFIVTTDLEADGSPKKDKEGNIKRSFRAPKDDDWTLIKKKTEADIDKIKMTVGAYIYDTLLQKPDQKIRGKLVRTIERKYYKNELYQILKTQSEFHEELRDKQLYIACLNELYPNNEPRRNSISTRDFCHLFIEDIIFYQRPLKSKKSLIDNCPYEENRYIDKESGEIKHASIKCIAKSHPLYQEFRLWQFIVNLRIYRKETDVDVTQELLPTEADYVTLFEWLNEKKEIDQKAFFKYPPFGFKKTTSNYRWNYVEDKPYPCNETHAQIIARLGKAHIPKAFLSKEKEETLWHILYSIEDKQEIEKALHSFANKNNLSEEFIEQFKNFPPFKKEYGSYSAKAIKKLLPLMRMGKYWSIENIDNGTRIRINKIIDGEYDENIRERVRQKAINLTDITHFRALPLWLACYLVYDRHSEVKDIVKWKTPKDIDLYLKSFKQHSLRNPIVEQVITETLRTVRDIWQQVGHIDEIHIELGREMKNPADKRARMSQQMIKNENTNLRIKALLTEFLNPEFGIENVRPYSPSQQDLLRIYEEGVLNSILELPEDIGIILGKFNQTDTLKRPTRSEILRYKLWLEQKYRSPYTGEMIPLSKLFTPAYEIEHIIPQSRYFDDSLSNKVICESEINKLKDRSLGYEFIKNHHGEKVELAFDKPVEVLSVEAYEKLVHESYSHNRSKMKKLLMEDIPDQFIERQLNDSRYISKVVKSLLSNIVREENEQEAISKNVIPCTGGITDRLKKDWGINDVWNKIVLPRFIRLNELTESTRFTSINTNNTMIPSMPLELQKGFNKKRIDHRHHAMDAIIIACANRNIVNYLNNVSASKNTKITRRDLQTLLCHKDKTDNNGNYKWVIDKPWETFTQDTLTALQKITVSFKQNLRVINKTTNHYQHYENGKKIVSNQSKGDSWAIRKSMHKETVHGEVNLRMIKTVSFNEALKKPQAIVEMDLKKKILAMLELGYDTKRIKNYFEENKDTWQDINPSKIKVYYFTKETKDRYFAVRKPIDTSFDKKKIKESITDTGIQQIMLRHLETKDNDPTLAFSPDGIDEMNRNILILNKGKKHQPIYKVRVYEKAEKFTVGQKGNKRTKFVEAAKGTNLFFAIYETEEIDKDTKKVIRKRSYSTIPLNVVIERQKQGLSSAPEDENGNLPKYILSPNDLVYVPTQEEINKGEVVMPIDRDRIYKMVDSSGITANFIPASTANLIFALPKATAEIYCNGENCIQNEYGIGSPQSKNQKAITGEMVKEICFPIKVDRLGNIIQVGSCILTN SEQ ID NO: 338MSRSLTFSFDIGYASIGWAVIASASHDDADPSVCGCGTVLFPKDDCQAFKRREYRRLRRNIRSRRVRIERIGRLLVQAQIITPEMKETSGHPAPFYLASEALKGHRTLAPIELWHVLRWYAHNRGYDNNASWSNSLSEDGGNGEDTERVKHAQDLMDKHGTATMAETICRELKLEEGKADAPMEVSTPAYKNLNTAFPRLIVEKEVRRILELSAPLIPGLTAEIIELIAQHHPLTTEQRGVLLQHGIKLARRYRGSLLFGQLIPRFDNRIISRCPVTWAQVYEAELKKGNSEQSARERAEKLSKVPTANCPEFYEYRMARILCNIRADGEPLSAEIRRELMNQARQEGKLTKASLEKAISSRLGKETETNVSNYFTLHPDSEEALYLNPAVEVLQRSGIGQILSPSVYRIAANRLRRGKSVTPNYLLNLLKSRGESGEALEKKIEKESKKKEADYADTPLKPKYATGRAPYARTVLKKVVEEILDGEDPTRPARGEAHPDGELKAHDGCLYCLLDTDSSVNQHQKERRLDTMTNNHLVRHRMLILDRLLKDLIQDFADGQKDRISRVCVEVGKELTTFSAMDSKKIQRELTLRQKSHTDAVNRLKRKLPGKALSANLIRKCRIAMDMNWTCPFTGATYGDHELENLELEHIVPHSFRQSNALSSLVLTWPGVNRMKGQRTGYDFVEQEQENPVPDKPNLHICSLNNYRELVEKLDDKKGHEDDRRRKKKRKALLMVRGLSHKHQSQNHEAMKEIGMTEGMMTQSSHLMKLACKSIKTSLPDAHIDMIPGAVTAEVRKAWDVFGVFKELCPEAADPDSGKILKENLRSLTHLHHALDACVLGLIPYIIPAHHNGLLRRVLAMRRIPEKLIPQVRPVANQRHYVLNDDGRMMLRDLSASLKENIREQLMEQRVIQHVPADMGGALLKETMQRVLSVDGSGEDAMVSLSKKKDGKKEKNQVKASKLVGVFPEGPSKLKALKAAIEIDGNYGVALDPKPVVIRHIKVFKRIMALKEQNGGKPVRILKKGMLIHLTSSKDPKHAGVWRIESIQDSKGGVKLDLQRAHCAVPKNKTHECNWREVDLISLLKKYQMKRYPTSYTGTPR SEQ ID NO: 339MTQKVLGLDLGTNSIGSAVRNLDLSDDLQWQLEFFSSDIFRSSVNKESNGREYSLAAQRSAHRRSRGLNEVRRRRLWATLNLLIKHGFCPMSSESLMRWCTYDKRKGLFREYPIDDKDFNAWILLDFNGDGRPDYSSPYQLRRELVTRQFDFEQPIERYKLGRALYHIAQHRGFKSSKGETLSQQETNSKPSSTDEIPDVAGAMKASEEKLSKGLSTYMKEHNLLTVGAAFAQLEDEGVRVRNNNDYRAIRSQFQHEIETIFKFQQGLSVESELYERLISEKKNVGTIFYKRPLRSQRGNVGKCTLERSKPRCAIGHPLFEKFRAWTLINNIKVRMSVDTLDEQLPMKLRLDLYNECFLAFVRTEFKFEDIRKYLEKRLGIHFSYNDKTINYKDSTSVAGCPITARFRKMLGEEWESFRVEGQKERQAHSKNNISFHRVSYSIEDIWHFCYDAEEPEAVLAFAQETLRLERKKAEELVRIWSAMPQGYAMLSQKAIRNINKILMLGLKYSDAVILAKVPELVDVSDEELLSIAKDYYLVEAQVNYDKRINSIVNGLIAKYKSVSEEYRFADHNYEYLLDESDEKDIIRQIENSLGARRWSLMDANEQTDILQKVRDRYQDFFRSHERKFVESPKLGESFENYLTKKFPMVEREQWKKLYHPSQITIYRPVSVGKDRSVLRLGNPDIGAIKNPTVLRVLNTLRRRVNQLLDDGVISPDETRVVVETARELNDANRKWALDTYNRIRHDENEKIKKILEEFYPKRDGISTDDIDKARYVIDQREVDYFTGSKTYNKDIKKYKFWLEQGGQCMYTGRTINLSNLFDPNAFDIEHTIPESLSFDSSDMNLTLCDAHYNRFIKKNHIPTDMPNYDKAITIDGKEYPAITSQLQRWVERVERLNRNVEYWKGQARRAQNKDRKDQCMREMHLWKMELEYWKKKLERFTVTEVTDGFKNSQLVDTRVITRHAVLYLKSIFPHVDVQRGDVTAKFRKILGIQSVDEKKDRSLHSHHAIDATTLTIIPVSAKRDRMLELFAKIEEINKMLSFSGSEDRTGLIQELEGLKNKLQMEVKVCRIGHNVSEIGTFINDNIIVNHHIKNQALTPVRRRLRKKGYIVGGVDNPRWQTGDALRGEIHKASYYGAITQFAKDDEGKVLMKEGRPQVNPTIKFVIRRELKYKKSAADSGFASWDDLGKAIVDKELFALMKGQFPAETSFKDACEQGIYMIKKGKNGMPDIKLHHIRHVRCEAPQSGLKIKEQTYKSEKEYKRYFYAAVGDLYAMCCYTNGKIREFRIYSLYDVSCHRKSDIEDIPEFITDKKGNRLMLDYKLRTGDMILLYKDNPAELYDLDNVNLSRRLYKINRFESQSNLVLMTHHLSTSKERGRSLGKTVDYQNLPESIRSSVKSLNFLIMGENRDFVIKNGKIIFNHR SEQ ID NO: 340MLVSPISVDLGGKNTGFFSFTDSLDNSQSGTVIYDESFVLSQVGRRSKRHSKRNNLRNKLVKRLFLLILQEHHGLSIDVLPDEIRGLFNKRGYTYAGFELDEKKKDALESDTLKEFLSEKLQSIDRDSDVEDFLNQIASNAESFKDYKKGFEAVFASATHSPNKKLELKDELKSEYGENAKELLAGLRVTKEILDEFDKQENQGNLPRAKYFEELGEYIATNEKVKSFFDSNSLKLTDMTKLIGNISNYQLKELRRYFNDKEMEKGDIWIPNKLHKITERFVRSWHPKNDADRQRRAELMKDLKSKEIMELLTTTEPVMTIPPYDDMNNRGAVKCQTLRLNEEYLDKHLPNWRDIAKRLNHGKFNDDLADSTVKGYSEDSTLLHRLLDTSKEIDIYELRGKKPNELLVKTLGQSDANRLYGFAQNYYELIRQKVRAGIWVPVKNKDDSLNLEDNSNMLKRCNHNPPHKKNQIHNLVAGILGVKLDEAKFAEFEKELWSAKVGNKKLSAYCKNIEELRKTHGNTFKIDIEELRKKDPAELSKEEKAKLRLTDDVILNEWSQKIANFFDIDDKHRQRFNNLFSMAQLHTVIDTPRSGFSSTCKRCTAENRFRSETAFYNDETGEFHKKATATCQRLPADTQRPFSGKIERYIDKLGYELAKIKAKELEGMEAKEIKVPIILEQNAFEYEESLRKSKTGSNDRVINSKKDRDGKKLAKAKENAEDRLKDKDKRIKAFSSGICPYCGDTIGDDGEIDHILPRSHTLKIYGTVFNPEGNLIYVHQKCNQAKADSIYKLSDIKAGVSAQWIEEQVANIKGYKTFSVLSAEQQKAFRYALFLQNDNEAYKKVVDWLRTDQSARVNGTQKYLAKKIQEKLTKMLPNKHLSFEFILADATEVSELRRQYARQNPLLAKAEKQAPSSHAIDAVMAFVARYQKVFKDGTPPNADEVAKLAMLDSWNPASNEPLTKGLSTNQKIEKMIKSGDYGQKNMREVFGKSIFGENAIGERYKPIVVQEGGYYIGYPATVKKGYELKNCKVVTSKNDIAKLEKIIKNQDLISLKENQYIKIFSINKQTISELSNRYFNMNYKNLVERDKEIVGLLEFIVENCRYYTKKVDVKFAPKYIHETKYPFYDDWRRFDEAWRYLQENQNKTSSKDRFVIDKSSLNEYYQPDKNEYKLDVDTQPIWDDFCRWYFLDRYKTANDKKSIRIKARKTFSLLAESGVQGKVFRAKRKIPTGYAYQALPMDNNVIAGDYANILLEANSKTLSLVPKSGISIEKQLDKKLDVIKKTDVRGLAIDNNSFFNADFDTHGIRLIVENTSVKVGNFPISAIDKSAKRMIFRALFEKEKGKRKKKTTISFKESGPVQDYLKVFLKKIVKIQLRTDGSISNIVVRKNAADFTLSFRSEHIQKLL KSEQ ID NO: 341MAYRLGLDIGITSVGWAVVALEKDESGLKPVRIQDLGVRIFDKAEDSKTGASLALPRREARSARRRTRRRRHRLWRVKRLLEQHGILSMEQIEALYAQRTSSPDVYALRVAGLDRCLIAEEIARVLIHIAHRRGFQSNRKSEIKDSDAGKLLKAVQENENLMQSKGYRTVAEMLVSEATKTDAEGKLVHGKKHGYVSNVRNKAGEYRHTVSRQAIVDEVRKIFAAQRALGNDVMSEELEDSYLKILCSQRNFDDGPGGDSPYGHGSVSPDGVRQSIYERMVGSCTFETGEKRAPRSSYSFERFQLLTKVVNLRIYRQQEDGGRYPCELTQTERARVIDCAYEQTKITYGKLRKLLDMKDTESFAGLTYGLNRSRNKTEDTVFVEMKFYHEVRKALQRAGVFIQDLSIETLDQIGWILSVWKSDDNRRKKLSTLGLSDNVIEELLPLNGSKFGHLSLKAIRKILPFLEDGYSYDVACELAGYQFQGKTEYVKQRLLPPLGEGEVTNPVVRRALSQAIKVVNAVIRKHGSPESIHIELARELSKNLDERRKIEKAQKENQKNNEQIKDEIREILGSAHVTGRDIVKYKLFKQQQEFCMYSGEKLDVTRLFEPGYAEVDHIIPYGISFDDSYDNKVLVKTEQNRQKGNRTPLEYLRDKPEQKAKFIALVESIPLSQKKKNHLLMDKRAIDLEQEGFRERNLSDTRYITRALMNHIQAWLLFDETASTRSKRVVCVNGAVTAYMRARWGLTKDRDAGDKHHAADAVVVACIGDSLIQRVTKYDKFKRNALADRNRYVQQVSKSEGITQYVDKETGEVFTWESFDERKFLPNEPLEPWPFFRDELLARLSDDPSKNIRAIGLLTYSETEQIDPIFVSRMPTRKVTGAAHKETIRSPRIVKVDDNKGTEIQVVVSKVALTELKLTKDGEIKDYFRPEDDPRLYNTLRERLVQFGGDAKAAFKEPVYKISKDGSVRTPVRKVKIQEKLTLGVPVHGGRGIAENGGMVRIDVFAKGGKYYFVPIYVADVLKRELPNRLATAHKPYSEWRVVDDSYQFKFSLYPNDAVMIKPSREVDITYKDRKEPVGCRIMYFVSANIASASISLRTHDNSGELEGLGIQGLEVFEKYVVGPLGDTHPVYKERRMPFRVERKMNSEQ ID NO: 342MPVLSPLSPNAAQGRRRWSLALDIGEGSIGWAVAEVDAEGRVLQLTGTGVTLFPSAWSNENGTYVAHGAADRAVRGQQQRHDSRRRRLAGLARLCAPVLERSPEDLKDLTRTPPKADPRAIFFLRADAARRPLDGPELFRVLHHMAAHRGIRLAELQEVDPPPESDADDAAPAATEDEDGTRRAAADERAFRRLMAEHMHRHGTQPTCGEIMAGRLRETPAGAQPVTRARDGLRVGGGVAVPTRALIEQEFDAIRAIQAPRHPDLPWDSLRRLVLDQAPIAVPPATPCLFLEELRRRGETFQGRTITREAIDRGLTVDPLIQALRIRETVGNLRLHERITEPDGRQRYVPRAMPELGLSHGELTAPERDTLVRALMHDPDGLAAKDGRIPYTRLRKLIGYDNSPVCFAQERDTSGGGITVNPTDPLMARWIDGWVDLPLKARSLYVRDVVARGADSAALARLLAEGAHGVPPVAAAAVPAATAAILESDIMQPGRYSVCPWAAEAILDAWANAPTEGFYDVTRGLFGFAPGEIVLEDLRRARGALLAHLPRTMAAARTPNRAAQQRGPLPAYESVIPSQLITSLRRAHKGRAADWSAADPEERNPFLRTWTGNAATDHILNQVRKTANEVITKYGNRRGWDPLPSRITVELAREAKHGVIRRNEIAKENRENEGRRKKESAALDTFCQDNTVSWQAGGLPKERAALRLRLAQRQEFFCPYCAERPKLRATDLFSPAETEIDHVIERRMGGDGPDNLVLAHKDCNNAKGKKTPHEHAGDLLDSPALAALWQGWRKENADRLKGKGHKARTPREDKDFMDRVGWRFEEDARAKAEENQERRGRRMLHDTARATRLARLYLAAAVMPEDPAEIGAPPVETPPSPEDPTGYTAIYRTISRVQPVNGSVTHMLRQRLLQRDKNRDYQTHHAEDACLLLLAGPAVVQAFNTEAAQHGADAPDDRPVDLMPTSDAYHQQRRARALGRVPLATVDAALADIVMPESDRQDPETGRVHWRLTRAGRGLKRRIDDLTRNCVILSRPRRPSETGTPGALHNATHYGRREITVDGRTDTVVTQRMNARDLVALLDNAKIVPAARLDAAAPGDTILKEICTEIADRHDRVVDPEGTHARRWISARLAALVPAHAEAVARDIAELADLDALADADRTPEQEARRSALRQSPYLGRAISAKKADGRARAREQEILTRALLDPHWGPRGLRHLIMREARAPSLVRIRANKTDAFGRPVPDAAVWVKTDGNAVSQLWRLTSVVTDDGRRIPLPKPIEKRIEISNLEYARLNGLDEGAGVTGNNAPPRPLRQDIDRLTPLWRDHGTAPGGYLGTAVGELEDKARSALRGKAMRQTLTDAGITAEAGWRLDSEGAVCDLEVAKGDTVKKDGKTYKVGVITQGIFGMPVDAAGSAPRTPEDCEKFEEQYGIKPWKAKGIPLA SEQ ID NO: 343MNYTEKEKLFMKYILALDIGIASVGWAILDKESETVIEAGSNIFPEASAADNQLRRDMRGAKRNNRRLKTRINDFIKLWENNNLSIPQFKSTEIVGLKVRAITEEITLDELYLILYSYLKHRGISYLEDALDDTVSGSSAYANGLKLNAKELETHYPCEIQQERLNTIGKYRGQSQIINENGEVLDLSNVFTIGAYRKEIQRVFEIQKKYHPELTDEFCDGYMLIFNRKRKYYEGPGNEKSRTDYGRFTTKLDANGNYITEDNIFEKLIGKCSVYPDELRAAAASYTAQEYNVLNDLNNLTINGRKLEENEKHEIVERIKSSNTINMRKIISDCMGENIDDFAGARIDKSGKEIFHKFEVYNKMRKALLEIGIDISNYSREELDEIGYIMTINTDKEAMMEAFQKSWIDLSDDVKQCLINMRKTNGALFNKWQSFSLKIMNELIPEMYAQPKEQMTLLTEMGVTKGTQEEFAGLKYIPVDVVSEDIFNPVVRRSVRISFKILNAVLKKYKALDTIVIEMPRDRNSEEQKKRINDSQKLNEKEMEYIEKKLAVTYGIKLSPSDFSSQKQLSLKLKLWNEQDGICLYSGKTIDPNDIINNPQLFEIDHIIPRSISFDDARSNKVLVYRSENQKKGNQTPYYYLTHSHSEWSFEQYKATVMNLSKKKEYAISRKKIQNLLYSEDITKMDVLKGFINRNINDTSYASRLVLNTIQNFFMANEADTKVKVIKGSYTHQMRCNLKLDKNRDESYSHHAVDAMLIGYSELGYEAYHKLQGEFIDFETGEILRKDMWDENMSDEVYADYLYGKKWANIRNEVVKAEKNVKYWHYVMRKSNRGLCNQTIRGTREYDGKQYKINKLDIRTKEGIKVFAKLAFSKKDSDRERLLVYLNDRRTFDDLCKIYEDYSDAANPFVQYEKETGDIIRKYSKKHNGPRIDKLKYKDGEVGACIDISHKYGFEKGSKKVILESLVPYRMDVYYKEENHSYYLVGVKQSDIKFEKGRNVIDEEAYARILVNEKMIQPGQSRADLENLGFKFKLSFYKNDIIEYEKDGKIYTERLVSRTMPKQRNYIETKPIDKAKFEKQNLVGLGKTKFIKKYRYDILGNKYSCSEEKFTSFC SEQ ID NO: 344MLRLYCANNLVLNNVQNLWKYLLLLIFDKKIIFLFKIKVILIRRYMENNNKEKIVIGFDLGVASVGWSIVNAETKEVIDLGVRLFSEPEKADYRRAKRTTRRLLRRKKFKREKFHKLILKNAEIFGLQSRNEILNVYKDQSSKYRNILKLKINALKEEIKPSELVWILRDYLQNRGYFYKNEKLTDEFVSNSFPSKKLHEHYEKYGFFRGSVKLDNKLDNKKDKAKEKDEEEESDAKKESEELIFSNKQWINEIVKVFENQSYLTESFKEEYLKLFNYVRPFNKGPGSKNSRTAYGVFSTDIDPETNKFKDYSNIWDKTIGKCSLFEEEIRAPKNLPSALIFNLQNEICTIKNEFTEFKNWWLNAEQKSEILKFVFTELFNWKDKKYSDKKFNKNLQDKIKKYLLNFALENFNLNEEILKNRDLENDTVLGLKGVKYYEKSNATADAALEFSSLKPLYVFIKFLKEKKLDLNYLLGLENTEILYFLDSIYLAISYSSDLKERNEWFKKLLKELYPKIKNNNLEIIENVEDIFEITDQEKFESFSKTHSLSREAFNHIIPLLLSNNEGKNYESLKHSNEELKKRTEKAELKAQQNQKYLKDNFLKEALVPLSVKTSVLQAIKIFNQIIKNFGKKYEISQVVIEMARELTKPNLEKLLNNATNSNIKILKEKLDQTEKFDDFTKKKFIDKIENSVVFRNKLFLWFEQDRKDPYTQLDIKINEIEDETEIDHVIPYSKSADDSWFNKLLVKKSTNQLKKNKTVWEYYQNESDPEAKWNKFVAWAKRIYLVQKSDKESKDNSEKNSIFKNKKPNLKFKNITKKLFDPYKDLGFLARNLNDTRYATKVFRDQLNNYSKHHSKDDENKLFKVVCMNGSITSFLRKSMWRKNEEQVYRFNFWKKDRDQFFHHAVDASIIAIFSLLTKTLYNKLRVYESYDVQRREDGVYLINKETGEVKKADKDYWKDQHNFLKIRENAIEIKNVLNNVDFQNQVRYSRKANTKLNTQLFNETLYGVKEFENNFYKLEKVNLFSRKDLRKFILEDLNEESEKNKKNENGSRKRILTEKYIVDEILQILENEEFKDSKSDINALNKYMDSLPSKFSEFFSQDFINKCKKENSLILTFDAIKHNDPKKVIKIKNLKFFREDATLKNKQAVHKDSKNQIKSFYESYKCVGFIWLKNKNDLEESIFVPINSRVIHFGDKDKDIFDFDSYNKEKLLNEINLKRPENKKFNSINEIEFVKFVKPGALLLNFENQQIYYISTLESSSLRAKIKLLNKMDKGKAVSMKKITNPDEYKIIEHVNPLGINLNWTKKLENNN SEQ ID NO: 345MLMSKHVLGLDLGVGSIGWCLIALDAQGDPAEILGMGSRVVPLNNATKAIEAFNAGAAFTASQERTARRTMRRGFARYQLRRYRLRRELEKVGMLPDAALIQLPLLELWELRERAATAGRRLTLPELGRVLCHINQKRGYRHVKSDAAAIVGDEGEKKKDSNSAYLAGIRANDEKLQAEHKTVGQYFAEQLRQNQSESPTGGISYRIKDQIFSRQCYIDEYDQIMAVQRVHYPDILTDEFIRMLRDEVIFMQRPLKSCKHLVSLCEFEKQERVMRVQQDDGKGGWQLVERRVKFGPKVAPKSSPLFQLCCIYEAVNNIRLTRPNGSPCDITPEERAKIVAHLQSSASLSFAALKKLLKEKALIADQLTSKSGLKGNSTRVALASALQPYPQYHHLLDMELETRMMTVQLTDEETGEVTEREVAVVTDSYVRKPLYRLWHILYSIEEREAMRRALITQLGMKEEDLDGGLLDQLYRLDFVKPGYGNKSAKFICKLLPQLQQGLGYSEACAAVGYRHSNSPTSEEITERTLLEKIPLLQRNELRQPLVEKILNQMINLVNALKAEYGIDEVRVELARELKMSREERERMARNNKDREERNKGVAAKIRECGLYPTKPRIQKYMLWKEAGRQCLYCGRSIEEEQCLREGGMEVEHIIPKSVLYDDSYGNKTCACRRCNKEKGNRTALEYIRAKGREAEYMKRINDLLKEKKISYSKHQRLRWLKEDIPSDFLERQLRLTQYISRQAMAILQQGIRRVSASEGGVTARLRSLWGYGKILHTLNLDRYDSMGETERVSREGEATEELHITNWSKRMDHRHHAIDALVVACTRQSYIQRLNRLSSEFGREDKKKEDQEAQEQQATETGRLSNLERWLTQRPHFSVRTVSDKVAEILISYRPGQRVVTRGRNIYRKKMADGREVSCVQRGVLVPRGELMEASFYGKILSQGRVRIVKRYPLHDLKGEVVDPHLRELITTYNQELKSREKGAPIPPLCLDKDKKQEVRSVRCYAKTLSLDKAIPMCFDEKGEPTAFVKSASNHHLALYRTPKGKLVESIVTFWDAVDRARYGIPLVITHPREVMEQVLQRGDIPEQVLSLLPPSDWVFVDSLQQDEMVVIGLSDEELQRALEAQNYRKISEHLYRVQKMSSSYYVFRYHLETSVADDKNTSGRIPKFHRVQSLKAYEERNIRKVRVDLLGRISLL SEQ ID NO: 346MSDLVLGLDIGIGSVGVGILNKVTGEIIHKNSRIFPAAQAENNLVRRTNRQGRRLARRKKHRRVRLNRLFEESGLITDFTKISINLNPYQLRVKGLTDELSNEELFIALKNMVKHRGISYLDDASDDGNSSVGDYAQIVKENSKQLETKTPGQIQLERYQTYGQLRGDFTVEKDGKKHRLINVFPTSAYRSEALRILQTQQEFNPQITDEFINRYLEILTGKRKYYHGPGNEKSRTDYGRYRTSGETLDNIFGILIGKCTFYPDEFRAAKASYTAQEFNLLNDLNNLTVPTETKKLSKEQKNQIINYVKNEKAMGPAKLFKYIAKLLSCDVADIKGYRIDKSGKAEIHTFEAYRKMKTLETLDIEQMDRETLDKLAYVLTLNTEREGIQEALEHEFADGSFSQKQVDELVQFRKANSSIFGKGWHNFSVKLMMELIPELYETSEEQMTILTRLGKQKTTSSSNKTKYIDEKLLTEEIYNPVVAKSVRQAIKIVNAAIKEYGDFDNIVIEMARETNEDDEKKAIQKIQKANKDEKDAAMLKAANQYNGKAELPHSVFHGHKQLATKIRLWHQQGERCLYTGKTISIHDLINNSNQFEVDHILPLSITFDDSLANKVLVYATANQEKGQRTPYQALDSMDDAWSFRELKAFVRESKTLSNKKKEYLLTEEDISKFDVRKKFIERNLVDTRYASRVVLNALQEHFRAHKIDTKVSVVRGQFTSQLRRHWGIEKTRDTYHHHAVDALIIAASSQLNLWKKQKNTLVSYSEDQLLDIETGELISDDEYKESVFKAPYQHFVDTLKSKEFEDSILFSYQVDSKFNRKISDATIYATRQAKVGKDKADETYVLGKIKDIYTQDGYDAFMKIYKKDKSKFLMYRHDPQTFEKVIEPILENYPNKQINEKGKEVPCNPFLKYKEEHGYIRKYSKKGNGPEIKSLKYYDSKLGNHIDITPKDSNNKVVLQSVSPWRADVYFNKTTGKYEILGLKYADLQFEKGTGTYKISQEKYNDIKKKEGVDSDSEFKFTLYKNDLLLVKDTETKEQQLFRFLSRTMPKQKHYVELKPYDKQKFEGGEALIKVLGNVANSGQCKKGLGKSNISIYKVRTDVLGNQHIIKNEGDKPKLDF SEQ ID NO: 347MNAEHGKEGLLIMEENFQYRIGLDIGITSVGWAVLQNNSQDEPVRITDLGVRIFDVAENPKNGDALAAPRRDARTTRRRLRRRRHRLERIKFLLQENGLIEMDSFMERYYKGNLPDVYQLRYEGLDRKLKDEELAQVLIHIAKHRGFRSTRKAETKEKEGGAVLKATTENQKIMQEKGYRTVGEMLYLDEAFHTECLWNEKGYVLTPRNRPDDYKHTILRSMLVEEVHAIFAAQRAHGNQKATEGLEEAYVEIMTSQRSFDMGPGLQPDGKPSPYAMEGFGDRVGKCTFEKDEYRAPKATYTAELFVALQKINHTKLIDEFGTGRFFSEEERKTIIGLLLSSKELKYGTIRKKLNIDPSLKFNSLNYSAKKEGETEEERVLDTEKAKFASMFWTYEYSKCLKDRTEEMPVGEKADLFDRIGEILTAYKNDDSRSSRLKELGLSGEEIDGLLDLSPAKYQRVSLKAMRKMQPYLEDGLIYDKACEAAGYDFRALNDGNKKHLLKGEEINAIVNDITNPVVKRSVSQTIKVINAIIQKYGSPQAVNIELAREMSKNFQDRTNLEKEMKKRQQENERAKQQIIELGKQNPTGQDILKYRLWNDQGGYCLYSGKKIPLEELFDGGYDIDHILPYSITFDDSYRNKVLVTAQENRQKGNRTPYEYFGADEKRWEDYEASVRLLVRDYKKQQKLLKKNFTEEERKEFKERNLNDTKYITRVVYNMIRQNLELEPFNHPEKKKQVWAVNGAVTSYLRKRWGLMQKDRSTDRHHAMDAVVIACCTDGMIHKISRYMQGRELAYSRNFKFPDEETGEILNRDNFTREQWDEKFGVKVPLPWNSFRDELDIRLLNEDPKNFLLTHADVQRELDYPGWMYGEEESPIEEGRYINYIRPLFVSRMPNHKVTGSAHDATIRSARDYETRGVVITKVPLTDLKLNKDNEIEGYYDKDSDRLLYQALVRQLLLHGNDGKKAFAEDFHKPKADGTEGPVVRKVKIEKKQTSGVMVRGGTGIAANGEMVRIDVFRENGKYYFVPVYTADVVRKVLPNRAATHTKPYSEWRVMDDANFVFSLYSRDLIHVKSKKDIKTNLVNGGLLLQKEIFAYYTGADIATASIAGFANDSNFKFRGLGIQSLEIFEKCQVDILGNISVVRHENRQEFHSEQ ID NO: 348MRVLGLDAGIASLGWALIEIEESNRGELSQGTIIGAGTWMFDAPEEKTQAGAKLKSEQRRTFRGQRRVVRRRRQRMNEVRRILHSHGLLPSSDRDALKQPGLDPWRIRAEALDRLLGPVELAVALGHIARHRGFKSNSKGAKTNDPADDTSKMKRAVNETREKLARFGSAAKMLVEDESFVLRQTPTKNGASEIVRRFRNREGDYSRSLLRDDLAAEMRALFTAQARFQSAIATADLQTAFTKAAFFQRPLQDSEKLVGPCPFEVDEKRAPKRGYSFELFRFLSRLNHVTLRDGKQERTLTRDELALAAADFGAAAKVSFTALRKKLKLPETTVFVGVKADEESKLDVVARSGKAAEGTARLRSVIVDALGELAWGALLCSPEKLDKIAEVISFRSDIGRISEGLAQAGCNAPLVDALTAAASDGRFDPFTGAGHISSKAARNILSGLRQGMTYDKACCAADYDHTASRERGAFDVGGHGREALKRILQEERISRELVGSPTARKALIESIKQVKAIVERYGVPDRIHVELARDVGKSIEEREEITRGIEKRNRQKDKLRGLFEKEVGRPPQDGARGKEELLRFELWSEQMGRCLYTDDYISPSQLVATDDAVQVDHILPWSRFADDSYANKTLCMAKANQDKKGRTPYEWFKAEKTDTEWDAFIVRVEALADMKGFKKRNYKLRNAEEAAAKFRNRNLNDTRWACRLLAEALKQLYPKGEKDKDGKERRRVFSRPGALTDRLRRAWGLQWMKKSTKGDRIPDDRHHALDAIVIAATTESLLQRATREVQEIEDKGLHYDLVKNVTPPWPGFREQAVEAVEKVFVARAERRRARGKAHDATIRHIAVREGEQRVYERRKVAELKLADLDRVKDAERNARLIEKLRNWIEAGSPKDDPPLSPKGDPIFKVRLVTKSKVNIALDTGNPKRPGTVDRGEMARVDVFRKASKKGKYEYYLVPIYPHDIATMKTPPIRAVQAYKPEDEWPEMDSSYEFCWSLVPMTYLQVISSKGEIFEGYYRGMNRSVGAIQLSAHSNSSDVVQGIGARTLTEFKKFNVDRFGRKHEVERELRTWRGETWRGKAYISEQ ID NO: 349MGNYYLGLDVGIGSIGWAVINIEKKRIEDFNVRIFKSGEIQEKNRNSRASQQCRRSRGLRRLYRRKSHRKLRLKNYLSIIGLTTSEKIDYYYETADNNVIQLRNKGLSEKLTPEEIAACLIHICNNRGYKDFYEVNVEDIEDPDERNEYKEEHDSIVLISNLMNEGGYCTPAEMICNCREFDEPNSVYRKFHNSAASKNHYLITRHMLVKEVDLILENQSKYYGILDDKTIAKIKDIIFAQRDFEIGPGKNERFRRFTGYLDSIGKCQFFKDQERGSRFTVIADIYAFVNVLSQYTYTNNRGESVFDTSFANDLINSALKNGSMDKRELKAIAKSYHIDISDKNSDTSLTKCFKYIKVVKPLFEKYGYDWDKLIENYTDTDNNVLNRIGIVLSQAQTPKRRREKLKALNIGLDDGLINELTKLKLSGTANVSYKYMQGSIEAFCEGDLYGKYQAKFNKEIPDIDENAKPQKLPPFKNEDDCEFFKNPVVFRSINETRKLINAIIDKYGYPAAVNIETADELNKTFEDRAIDTKRNNDNQKENDRIVKEIIECIKCDEVHARHLIEKYKLWEAQEGKCLYSGETITKEDMLRDKDKLFEVDHIVPYSLILDNTINNKALVYAEENQKKGQRTPLMYMNEAQAADYRVRVNTMFKSKKCSKKKYQYLMLPDLNDQELLGGWRSRNLNDTRYICKYLVNYLRKNLRFDRSYESSDEDDLKIRDHYRVFPVKSRFTSMFRRWWLNEKTWGRYDKAELKKLTYLDHAADAIIIANCRPEYVVLAGEKLKLNKMYHQAGKRITPEYEQSKKACIDNLYKLFRMDRRTAEKLLSGHGRLTPIIPNLSEEVDKRLWDKNIYEQFWKDDKDKKSCEELYRENVASLYKGDPKFASSLSMPVISLKPDHKYRGTITGEEAIRVKEIDGKLIKLKRKSISEITAESINSIYTDDKILIDSLKTIFEQADYKDVGDYLKKTNQHFFTTSSGKRVNKVTVIEKVPSRWLRKEIDDNNFSLLNDSSYYCIELYKDSKGDNNLQGIAMSDIVHDRKTKKLYLKPDFNYPDDYYTHVMYIFPGDYLRIKSTSKKSGEQLKFEGYFISVKNVNENSFRFISDNKPCAKDKRVSITKKDIVIKLAVDLMGKVQGENNGKGISCGEPLSLL KEKNSEQ ID NO: 350MLSRQLLGASHLARPVSYSYNVQDNDVHCSYGERCFMRGKRYRIGIDVGLNSVGLAAVEVSDENSPVRLLNAQSVIHDGGVDPQKNKEAITRKNMSGVARRTRRMRRRKRERLHKLDMLLGKFGYPVIEPESLDKPFEEWHVRAELATRYIEDDELRRESISIALRHMARHRGWRNPYRQVDSLISDNPYSKQYGELKEKAKAYNDDATAAEEESTPAQLVVAMLDAGYAEAPRLRWRTGSKKPDAEGYLPVRLMQEDNANELKQIFRVQRVPADEWKPLFRSVFYAVSPKGSAEQRVGQDPLAPEQARALKASLAFQEYRIANVITNLRIKDASAELRKLTVDEKQSIYDQLVSPSSEDITWSDLCDFLGFKRSQLKGVGSLTEDGEERISSRPPRLTSVQRIYESDNKIRKPLVAWWKSASDNEHEAMIRLLSNTVDIDKVREDVAYASAIEFIDGLDDDALTKLDSVDLPSGRAAYSVETLQKLTRQMLTTDDDLHEARKTLFNVTDSWRPPADPIGEPLGNPSVDRVLKNVNRYLMNCQQRWGNPVSVNIEHVRSSFSSVAFARKDKREYEKNNEKRSIFRSSLSEQLRADEQMEKVRESDLRRLEAIQRQNGQCLYCGRTITFRTCEMDHIVPRKGVGSTNTRTNFAAVCAECNRMKSNTPFAIWARSEDAQTRGVSLAEAKKRVTMFTFNPKSYAPREVKAFKQAVIARLQQTEDDAAIDNRSIESVAWMADELHRRIDWYFNAKQYVNSASIDDAEAETMKTTVSVFQGRVTASARRAAGIEGKIHFIGQQSKTRLDRRHHAVDASVIAMMNTAAAQTLMERESLRESQRLIGLMPGERSWKEYPYEGTSRYESFHLWLDNMDVLLELLNDALDNDRIAVMQSQRYVLGNSIAHDATIHPLEKVPLGSAMSADLIRRASTPALWCALTRLPDYDEKEGLPEDSHREIRVHDTRYSADDEMGFFASQAAQIAVQEGSADIGSAIHHARVYRCWKTNAKGVRKYFYGMIRVFQTDLLRACHDDLFTVPLPPQSISMRYGEPRVVQALQSGNAQYLGSLVVGDEIEMDFSSLDVDGQIGEYLQFFSQFSGGNLAWKHWVVDGFFNQTQLRIRPRYLAAEGLAKAFSDDVVPDGVQKIVTKQGWLPPVNTASKTAVRIVRRNAFGEPRLSSAHHMPCSWQWRHE SEQ ID NO: 351MYSIGLDLGISSVGWSVIDERTGNVIDLGVRLFSAKNSEKNLERRTNRGGRRLIRRKTNRLKDAKKILAAVGFYEDKSLKNSCPYQLRVKGLTEPLSRGEIYKVTLHILKKRGISYLDEVDTEAAKESQDYKEQVRKNAQLLTKYTPGQIQLQRLKENNRVKTGINAQGNYQLNVFKVSAYANELATILKTQQAFYPNELTDDWIALFVQPGIAEEAGLIYRKRPYYHGPGNEANNSPYGRWSDFQKTGEPATNIFDKLIGKDFQGELRASGLSLSAQQYNLLNDLTNLKIDGEVPLSSEQKEYILTELMTKEFTRFGVNDVVKLLGVKKERLSGWRLDKKGKPEIHTLKGYRNWRKIFAEAGIDLATLPTETIDCLAKVLTLNTEREGIENTLAFELPELSESVKLLVLDRYKELSQSISTQSWHRFSLKTLHLLIPELMNATSEQNTLLEQFQLKSDVRKRYSEYKKLPTKDVLAEIYNPTVNKTVSQAFKVIDALLVKYGKEQIRYITIEMPRDDNEEDEKKRIKELHAKNSQRKNDSQSYFMQKSGWSQEKFQTTIQKNRRFLAKLLYYYEQDGICAYTGLPISPELLVSDSTEIDHIIPISISLDDSINNKVLVLSKANQVKGQQTPYDAWMDGSFKKINGKFSNWDDYQKWVESRHFSHKKENNLLETRNIFDSEQVEKFLARNLNDTRYASRLVLNTLQSFFTNQETKVRVVNGSFTHTLRKKWGADLDKTRETHHHHAVDATLCAVTSFVKVSRYHYAVKEETGEKVMREIDFETGEIVNEMSYWEFKKSKKYERKTYQVKWPNFREQLKPVNLHPRIKFSHQVDRKANRKLSDATIYSVREKTEVKTLKSGKQKITTDEYTIGKIKDIYTLDGWEAFKKKQDKLLMKDLDEKTYERLLSIAETTPDFQEVEEKNGKVKRVKRSPFAVYCEENDIPAIQKYAKKNNGPLIRSLKYYDGKLNKHINITKDSQGRPVEKTKNGRKVTLQSLKPYRYDIYQDLETKAYYTVQLYYSDLRFVEGKYGITEKEYMKKVAEQTKGQVVRFCFSLQKNDGLEIEWKDSQRYDVRFYNFQSANSINFKGLEQEMMPAENQFKQKPYNNGAINLNIAKYGKEGKKLRKFNTDILGKKHYLFYEKEPKNIIKSEQ ID NO: 352MYFYKNKENKLNKKVVLGLDLGIASVGWCLTDISQKEDNKFPIILHGVRLFETVDDSDDKLLNETRRKKRGQRRRNRRLFTRKRDFIKYLIDNNIIELEFDKNPKILVRNFIEKYINPFSKNLELKYKSVTNLPIGFHNLRKAAINEKYKLDKSELIVLLYFYLSLRGAFFDNPEDTKSKEMNKNEIEIFDKNESIKNAEFPIDKIIEFYKISGKIRSTINLKFGHQDYLKEIKQVFEKQNIDFMNYEKFAMEEKSFFSRIRNYSEGPGNEKSFSKYGLYANENGNPELIINEKGQKIYTKIFKTLWESKIGKCSYDKKLYRAPKNSFSAKVFDITNKLTDWKHKNEYISERLKRKILLSRFLNKDSKSAVEKILKEENIKFENLSEIAYNKDDNKINLPIINAYHSLTTIFKKHLINFENYLISNENDLSKLMSFYKQQSEKLFVPNEKGSYEINQNNNVLHIFDAISNILNKFSTIQDRIRILEGYFEFSNLKKDVKSSEIYSEIAKLREFSGTSSLSFGAYYKFIPNLISEGSKNYSTISYEEKALQNQKNNFSHSNLFEKTWVEDLIASPTVKRSLRQTMNLLKEIFKYSEKNNLEIEKIVVEVTRSSNNKHERKKIEGINKYRKEKYEELKKVYDLPNENTTLLKKLWLLRQQQGYDAYSLRKIEANDVINKPWNYDIDHIVPRSISFDDSFSNLVIVNKLDNAKKSNDLSAKQFIEKIYGIEKLKEAKENWGNWYLRNANGKAFNDKGKFIKLYTIDNLDEFDNSDFINRNLSDTSYITNALVNHLTFSNSKYKYSVVSVNGKQTSNLRNQIAFVGIKNNKETEREWKRPEGFKSINSNDFLIREEGKNDVKDDVLIKDRSFNGHHAEDAYFITIISQYFRSFKRIERLNVNYRKETRELDDLEKNNIKFKEKASFDNFLLINALDELNEKLNQMRFSRMVITKKNTQLFNETLYSGKYDKGKNTIKKVEKLNLLDNRTDKIKKIEEFFDEDKLKENELTKLHIFNHDKNLYETLKIIWNEVKIEIKNKNLNEKNYFKYFVNKKLQEGKISFNEWVPILDNDFKIIRKIRYIKFSSEEKETDEIIFSQSNFLKIDQRQNFSFHNTLYWVQIWVYKNQKDQYCFISIDARNSKFEKDEIKINYEKLKTQKEKLQIINEEPILKINKGDLFENEEKELFYIVGRDEKPQKLEIKYILGKKIKDQKQIQKPVKKYFPNWKKVNLTYMGEIFKK SEQ ID NO: 353MDNKNYRIGIDVGLNSIGFCAVEVDQHDTPLGFLNLSVYRHDAGIDPNGKKTNTTRLAMSGVARRTRRLFRKRKRRLAALDRFIEAQGWTLPDHADYKDPYTPWLVRAELAQTPIRDENDLHEKLAIAVRHIARHRGWRSPWVPVRSLHVEQPPSDQYLALKERVEAKTLLQMPEGATPAEMVVALDLSVDVNLRPKNREKTDTRPENKKPGFLGGKLMQSDNANELRKIAKIQGLDDALLRELIELVFAADSPKGASGELVGYDVLPGQHGKRRAEKAHPAFQRYRIASIVSNLRIRHLGSGADERLDVETQKRVFEYLLNAKPTADITWSDVAEEIGVERNLLMGTATQTADGERASAKPPVDVTNVAFATCKIKPLKEWWLNADYEARCVMVSALSHAEKLTEGTAAEVEVAEFLQNLSDEDNEKLDSFSLPIGRAAYSVDSLERLTKRMIENGEDLFEARVNEFGVSEDWRPPAEPIGARVGNPAVDRVLKAVNRYLMAAEAEWGAPLSVNIEHVREGFISKRQAVEIDRENQKRYQRNQAVRSQIADHINATSGVRGSDVTRYLAIQRQNGECLYCGTAITFVNSEMDHIVPRAGLGSTNTRDNLVATCERCNKSKSNKPFAVWAAECGIPGVSVAEALKRVDFWIADGFASSKEHRELQKGVKDRLKRKVSDPEIDNRSMESVAWMARELAHRVQYYFDEKHTGTKVRVFRGSLTSAARKASGFESRVNFIGGNGKTRLDRRHHAMDAATVAMLRNSVAKTLVLRGNIRASERAIGAAETWKSFRGENVADRQIFESWSENMRVLVEKFNLALYNDEVSIFSSLRLQLGNGKAHDDTITKLQMHKVGDAWSLTEIDRASTPALWCALTRQPDFTWKDGLPANEDRTIIVNGTHYGPLDKVGIFGKAAASLLVRGGSVDIGSAIHHARIYRIAGKKPTYGMVRVFAPDLLRYRNEDLFNVELPPQSVSMRYAEPKVREAIREGKAEYLGWLVVGDELLLDLSSETSGQIAELQQDFPGTTHWTVAGFFSPSRLRLRPVYLAQEGLGEDVSEGSKSIIAGQGWRPAVNKVFGSAMPEVIRRDGLGRKRRFSYSGLPVSWQG SEQ ID NO: 354MRLGLDIGTSSIGWWLYETDGAGSDARITGVVDGGVRIFSDGRDPKSGASLAVDRRAARAMRRRRDRYLRRRATLMKVLAETGLMPADPAEAKALEALDPFALRAAGLDEPLPLPHLGRALFHLNQRRGFKSNRKTDRGDNESGKIKDATARLDMEMMANGARTYGEFLHKRRQKATDPRHVPSVRTRLSIANRGGPDGKEEAGYDFYPDRRHLEEEFHKLWAAQGAHHPELTETLRDLLFEKIFFQRPLKEPEVGLCLFSGHHGVPPKDPRLPKAHPLTQRRVLYETVNQLRVTADGREARPLTREERDQVIHALDNKKPTKSLSSMVLKLPALAKVLKLRDGERFTLETGVRDAIACDPLRASPAHPDRFGPRWSILDADAQWEVISRIRRVQSDAEHAALVDWLTEAHGLDRAHAEATAHAPLPDGYGRLGLTATTRILYQLTADVVTYADAVKACGWHHSDGRTGECFDRLPYYGEVLERHVIPGSYHPDDDDITRFGRITNPTVHIGLNQLRRLVNRIIETHGKPHQIVVELARDLKKSEEQKRADIKRIRDTTEAAKKRSEKLEELEIEDNGRNRMLLRLWEDLNPDDAMRRFCPYTGTRISAAMIFDGSCDVDHILPYSRTLDDSFPNRTLCLREANRQKRNQTPWQAWGDTPHWHAIAANLKNLPENKRWRFAPDAMTRFEGENGFLDRALKDTQYLARISRSYLDTLFTKGGHVWVVPGRFTEMLRRHWGLNSLLSDAGRGAVKAKNRTDHRHHAIDAAVIAATDPGLLNRISRAAGQGEAAGQSAELIARDTPPPWEGFRDDLRVRLDRIIVSHRADHGRIDHAARKQGRDSTAGQLHQETAYSIVDDIHVASRTDLLSLKPAQLLDEPGRSGQVRDPQLRKALRVATGGKTGKDFENALRYFASKPGPYQAIRRVRIIKPLQAQARVPVPAQDPIKAYQGGSNHLFEIWRLPDGEIEAQVITSFEAHTLEGEKRPHPAAKRLLRVHKGDMVALERDGRRVVGHVQKMDIANGLFIVPHNEANADTRNNDKSDPFKWIQIGARPAIASGIRRVSVDEIGRLRDGGTRPI SEQ ID NO: 355MLHCIAVIRVPPSEEPGFFETHADSCALCHHGCMTYAANDKAIRYRVGIDVGLRSIGFCAVEVDDEDHPIRILNSVVHVHDAGTGGPGETESLRKRSGVAARARRRGRAEKQRLKKLDVLLEELGWGVSSNELLDSHAPWHIRKRLVSEYIEDETERRQCLSVAMAHIARHRGWRNSFSKVDTLLLEQAPSDRMQGLKERVEDRTGLQFSEEVTQGELVATLLEHDGDVTIRGFVRKGGKATKVHGVLEGKYMQSDLVAELRQICRTQRVSETTFEKLVLSIFHSKEPAPSAARQRERVGLDELQLALDPAAKQPRAERAHPAFQKFKVVATLANMRIREQSAGERSLTSEELNRVARYLLNHTESESPTWDDVARKLEVPRHRLRGSSRASLETGGGLTYPPVDDTTVRVMSAEVDWLADWWDCANDESRGHMIDAISNGCGSEPDDVEDEEVNELISSATAEDMLKLELLAKKLPSGRVAYSLKTLREVTAAILETGDDLSQAITRLYGVDPGWVPTPAPIEAPVGNPSVDRVLKQVARWLKFASKRWGVPQTVNIEHTREGLKSASLLEEERERWERFEARREIRQKEMYKRLGISGPFRRSDQVRYEILDLQDCACLYCGNEINFQTFEVDHIIPRVDASSDSRRTNLAAVCHSCNSAKGGLAFGQWVKRGDCPSGVSLENAIKRVRSWSKDRLGLTEKAMGKRKSEVISRLKTEMPYEEFDGRSMESVAWMAIELKKRIEGYFNSDRPEGCAAVQVNAYSGRLTACARRAAHVDKRVRLIRLKGDDGHHKNRFDRRNHAMDALVIALMTPAIARTIAVREDRREAQQLTRAFESWKNFLGSEERMQDRWESWIGDVEYACDRLNELIDADKIPVTENLRLRNSGKLHADQPESLKKARRGSKRPRPQRYVLGDALPADVINRVTDPGLWTALVRAPGFDSQLGLPADLNRGLKLRGKRISADFPIDYFPTDSPALAVQGGYVGLEFHHARLYRIIGPKEKVKYALLRVCAIDLCGIDCDDLFEVELKPSSISMRTADAKLKEAMGNGSAKQIGWLVLGDEIQIDPTKFPKQSIGKFLKECGPVSSWRVSALDTPSKITLKPRLLSNEPLLKTSRVGGHESDLVVAECVEKIMKKTGWVVEINALCQSGLIRVIRRNALGEVRTSPKSGLPISLNLR SEQ ID NO: 356MRYRVGLDLGTASVGAAVFSMDEQGNPMELIWHYERLFSEPLVPDMGQLKPKKAARRLARQQRRQIDRRASRLRRIAIVSRRLGIAPGRNDSGVHGNDVPTLRAMAVNERIELGQLRAVLLRMGKKRGYGGTFKAVRKVGEAGEVASGASRLEEEMVALASVQNKDSVTVGEYLAARVEHGLPSKLKVAANNEYYAPEYALFRQYLGLPAIKGRPDCLPNMYALRHQIEHEFERIWATQSQFHDVMKDHGVKEEIRNAIFFQRPLKSPADKVGRCSLQTNLPRAPRAQIAAQNFRIEKQMADLRWGMGRRAEMLNDHQKAVIRELLNQQKELSFRKIYKELERAGCPGPEGKGLNMDRAALGGRDDLSGNTTLAAWRKLGLEDRWQELDEVTQIQVINFLADLGSPEQLDTDDWSCRFMGKNGRPRNFSDEFVAFMNELRMTDGFDRLSKMGFEGGRSSYSIKALKALTEWMIAPHWRETPETHRVDEEAAIRECYPESLATPAQGGRQSKLEPPPLTGNEVVDVALRQVRHTINMMIDDLGSVPAQIVVEMAREMKGGVTRRNDIEKQNKRFASERKKAAQSIEENGKTPTPARILRYQLWIEQGHQCPYCESNISLEQALSGAYTNFEHILPRTLTQIGRKRSELVLAHRECNDEKGNRTPYQAFGHDDRRWRIVEQRANALPKKSSRKTRLLLLKDFEGEALTDESIDEFADRQLHESSWLAKVTTQWLSSLGSDVYVSRGSLTAELRRRWGLDTVIPQVRFESGMPVVDEEGAEITPEEFEKFRLQWEGHRVTREMRTDRRPDKRIDHRHHLVDAIVTALTSRSLYQQYAKAWKVADEKQRHGRVDVKVELPMPILTIRDIALEAVRSVRISHKPDRYPDGRFFEATAYGIAQRLDERSGEKVDWLVSRKSLTDLAPEKKSIDVDKVRANISRIVGEAIRLHISNIFEKRVSKGMTPQQALREPIEFQGNILRKVRCFYSKADDCVRIEHSSRRGHHYKMLLNDGFAYMEVPCKEGILYGVPNLVRPSEAVGIKRAPESGDFIRFYKGDTVKNIKTGRVYTIKQILGDGGGKLILTPVTETKPADLLSAKWGRLKVGGRNIHLLRLCAE SEQ ID NO: 357MIGEHVRGGCLFDDHWTPNWGAFRLPNTVRTFTKAENPKDGSSLAEPRRQARGLRRRLRRKTQRLEDLRRLLAKEGVLSLSDLETLFRETPAKDPYQLRAEGLDRPLSFPEWVRVLYHITKHRGFQSNRRNPVEDGQERSRQEEEGKLLSGVGENERLLREGGYRTAGEMLARDPKFQDHRRNRAGDYSHTLSRSLLLEEARRLFQSQRTLGNPHASSNLEEAFLHLVAFQNPFASGEDIRNKAGHCSLEPDQIRAPRRSASAETFMLLQKTGNLRLIHRRTGEERPLTDKEREQIHLLAWKQEKVTHKTLRRHLEIPEEWLFTGLPYHRSGDKAEEKLFVHLAGIHEIRKALDKGPDPAVWDTLRSRRDLLDSIADTLTFYKNEDEILPRLESLGLSPENARALAPLSFSGTAHLSLSALGKLLPHLEEGKSYTQARADAGYAAPPPDRHPKLPPLEEADWRNPVVFRALTQTRKVVNALVRRYGPPWCIHLETARELSQPAKVRRRIETEQQANEKKKQQAEREFLDIVGTAPGPGDLLKMRLWREQGGFCPYCEEYLNPTRLAEPGYAEMDHILPYSRSLDNGWHNRVLVHGKDNRDKGNRTPFEAFGGDTARWDRLVAWVQASHLSAPKKRNLLREDFGEEAERELKDRNLTDTRFITKTAATLLRDRLTFHPEAPKDPVMTLNGRLTAFLRKQWGLHKNRKNGDLHHALDAAVLAVASRSFVYRLSSHNAAWGELPRGREAENGFSLPYPAFRSEVLARLCPTREEILLRLDQGGVGYDEAFRNGLRPVFVSRAPSRRLRGKAHMETLRSPKWKDHPEGPRTASRIPLKDLNLEKLERMVGKDRDRKLYEALRERLAAFGGNGKKAFVAPFRKPCRSGEGPLVRSLRIFDSGYSGVELRDGGEVYAVADHESMVRVDVYAKKNRFYLVPVYVADVARGIVKNRAIVAHKSEEEWDLVDGSFDFRFSLFPGDLVEIEKKDGAYLGYYKSCHRGDGRLLLDRHDRMPRESDCGTFYVSTRKDVLSMSKYQVDPLGEIRLVGSEKPPFVL SEQ ID NO: 358MEKKRKVTLGFDLGIASVGWAIVDSETNQVYKLGSRLFDAPDTNLERRTQRGTRRLLRRRKYRNQKFYNLVKRTEVFGLSSREAIENRFRELSIKYPNIIELKTKALSQEVCPDEIAWILHDYLKNRGYFYDEKETKEDFDQQTVESMPSYKLNEFYKKYGYFKGALSQPTESEMKDNKDLKEAFFFDFSNKEWLKEINYFFNVQKNILSETFIEEFKKIFSFTRDISKGPGSDNMPSPYGIFGEFGDNGQGGRYEHIWDKNIGKCSIFTNEQRAPKYLPSALIFNFLNELANIRLYSTDKKNIQPLWKLSSVDKLNILLNLFNLPISEKKKKLTSTNINDIVKKESIKSIMISVEDIDMIKDEWAGKEPNVYGVGLSGLNIEESAKENKFKFQDLKILNVLINLLDNVGIKFEFKDRNDIIKNLELLDNLYLFLIYQKESNNKDSSIDLFIAKNESLNIENLKLKLKEFLLGAGNEFENHNSKTHSLSKKAIDEILPKLLDNNEGWNLEAIKNYDEEIKSQIEDNSSLMAKQDKKYLNDNFLKDAILPPNVKVTFQQAILIFNKIIQKFSKDFEIDKVVIELAREMTQDQENDALKGIAKAQKSKKSLVEERLEANNIDKSVFNDKYEKLIYKIFLWISQDFKDPYTGAQISVNEIVNNKVEIDHIIPYSLCFDDSSANKVLVHKQSNQEKSNSLPYEYIKQGHSGWNWDEFTKYVKRVFVNNVDSILSKKERLKKSENLLTASYDGYDKLGFLARNLNDTRYATILFRDQLNNYAEHHLIDNKKMFKVIAMNGAVTSFIRKNMSYDNKLRLKDRSDFSHHAYDAAIIALFSNKTKTLYNLIDPSLNGIISKRSEGYWVIEDRYTGEIKELKKEDWTSIKNNVQARKIAKEIEEYLIDLDDEVFFSRKTKRKTNRQLYNETIYGIATKTDEDGITNYYKKEKFSILDDKDIYLRLLREREKFVINQSNPEVIDQIIEIIESYGKENNIPSRDEAINIKYTKNKINYNLYLKQYMRSLTKSLDQFSEEFINQMIANKTFVLYNPTKNTTRKIKFLRLVNDVKINDIRKNQVINKFNGKNNEPKAFYENINSLGAIVFKNSANNFKTLSINTQIAIFGDKNWDIEDFKTYNMEKIEKYKEIYGIDKTYNFHSFIFPGTILLDKQNKEFYYISSIQTVRDIIEIKFLNKIEFKDENKNQDTSKTPKRLMFGIKSIMNNYEQVDISPFGINKKIFE SEQ ID NO: 359MGYRIGLDVGITSTGYAVLKTDKNGLPYKILTLDSVIYPRAENPQTGASLAEPRRIKRGLRRRTRRTKFRKQRTQQLFIHSGLLSKPEIEQILATPQAKYSVYELRVAGLDRRLTNSELFRVLYFFIGHRGFKSNRKAELNPENEADKKQMGQLLNSIEEIRKAIAEKGYRTVGELYLKDPKYNDHKRNKGYIDGYLSTPNRQMLVDEIKQILDKQRELGNEKLTDEFYATYLLGDENRAGIFQAQRDFDEGPGAGPYAGDQIKKMVGKDIFEPTEDRAAKATYTFQYFNLLQKMTSLNYQNTTGDTWHTLNGLDRQAIIDAVFAKAEKPTKTYKPTDFGELRKLLKLPDDARFNLVNYGSLQTQKEIETVEKKTRFVDFKAYHDLVKVLPEEMWQSRQLLDHIGTALTLYSSDKRRRRYFAEELNLPAELIEKLLPLNFSKFGHLSIKSMQNIIPYLEMGQVYSEATTNTGYDFRKKQISKDTIREEITNPVVRRAVTKTIKIVEQIIRRYGKPDGINIELARELGRNFKERGDIQKRQDKNRQTNDKIAAELTELGIPVNGQNIIRYKLHKEQNGVDPYTGDQIPFERAFSEGYEVDHIIPYSISWDDSYTNKVLTSAKCNREKGNRIPMVYLANNEQRLNALTNIADNIIRNSRKRQKLLKQKLSDEELKDWKQRNINDTRFITRVLYNYFRQAIEFNPELEKKQRVLPLNGEVTSKIRSRWGFLKVREDGDLHHAIDATVIAAITPKFIQQVTKYSQHQEVKNNQALWHDAEIKDAEYAAEAQRMDADLFNKIFNGFPLPWPEFLDELLARISDNPVEMMKSRSWNTYTPIEIAKLKPVFVVRLANHKISGPAHLDTIRSAKLFDEKGIVLSRVSITKLKINKKGQVATGDGIYDPENSNNGDKVVYSAIRQALEAHNGSGELAFPDGYLEYVDHGTKKLVRKVRVAKKVSLPVRLKNKAAADNGSMVRIDVFNTGKKFVFVPIYIKDTVEQVLPNKAIARGKSLWYQITESDQFCFSLYPGDMVHIESKTGIKPKYSNKENNTSVVPIKNFYGYFDGADIATASILVRAHDSSYTARSIGIAGLLKFEKYQVDYFGRYHKVHEKKRQLFVKRDE SEQ ID NO: 360MQKNINTKQNHIYIKQAQKIKEKLGDKPYRIGLDLGVGSIGFAIVSMEENDGNVLLPKEIIMVGSRIFKASAGAADRKLSRGQRNNHRHTRERMRYLWKVLAEQKLALPVPADLDRKENSSEGETSAKRFLGDVLQKDIYELRVKSLDERLSLQELGYVLYHIAGHRGSSAIRTFENDSEEAQKENTENKKIAGNIKRLMAKKNYRTYGEYLYKEFFENKEKHKREKISNAANNHKFSPTRDLVIKEAEAILKKQAGKDGFHKELTEEYIEKLTKAIGYESEKLIPESGFCPYLKDEKRLPASHKLNEERRLWETLNNARYSDPIVDIVTGEITGYYEKQFTKEQKQKLFDYLLTGSELTPAQTKKLLGLKNTNFEDIILQGRDKKAQKIKGYKLIKLESMPFWARLSEAQQDSFLYDWNSCPDEKLLTEKLSNEYHLTEEEIDNAFNEIVLSSSYAPLGKSAMLIILEKIKNDLSYTEAVEEALKEGKLTKEKQAIKDRLPYYGAVLQESTQKIIAKGFSPQFKDKGYKTPHTNKYELEYGRIANPVVHQTLNELRKLVNEIIDILGKKPCEIGLETARELKKSAEDRSKLSREQNDNESNRNRIYEIYIRPQQQVIITRRENPRNYILKFELLEEQKSQCPFCGGQISPNDIINNQADIEHLFPIAESEDNGRNNLVISHSACNADKAKRSPWAAFASAAKDSKYDYNRILSNVKENIPHKAWRFNQGAFEKFIENKPMAARFKTDNSYISKVAHKYLACLFEKPNIICVKGSLTAQLRMAWGLQGLMIPFAKQLITEKESESFNKDVNSNKKIRLDNRHHALDAIVIAYASRGYGNLLNKMAGKDYKINYSERNWLSKILLPPNNIVWENIDADLESFESSVKTALKNAFISVKHDHSDNGELVKGTMYKIFYSERGYTLTTYKKLSALKLTDPQKKKTPKDFLETALLKFKGRESEMKNEKIKSAIENNKRLFDVIQDNLEKAKKLLEEENEKSKAEGKKEKNINDASIYQKAISLSGDKYVQLSKKEPGKFFAISKPTPTTTGYGYDTGDSLCVDLYYDNKGKLCGEIIRKIDAQQKNPLKYKEQGFTLFERIYGGDILEVDFDIHSDKNSFRNNTGSAPENRVFIKVGTFTEITNNNIQIWFGNIIKSTGGQDDSFTINSMQQYNPRKLILSSCGFIKYRSPILKNKEG SEQ ID NO: 361MAAFKPNPINYILGLDIGIASVGWAMVEIDEDENPICLIDLGVRVFERAEVPKTGDSLAMARRLARSVRRLTRRRAHRLLRARRLLKREGVLQAADFDENGLIKSLPNTPWQLRAAALDRKLTPLEWSAVLLHLIKHRGYLSQRKNEGETADKELGALLKGVADNAHALQTGDFRTPAELALNKFEKESGHIRNQRGDYSHTFSRKDLQAELILLFEKQKEFGNPHVSGGLKEGIETLLMTQRPALSGDAVQKMLGHCTFEPAEPKAAKNTYTAERFIWLTKLNNLRILEQGSERPLTDTERATLMDEPYRKSKLTYAQARKLLGLEDTAFFKGLRYGKDNAEASTLMEMKAYHAISRALEKEGLKDKKSPLNLSPELQDEIGTAFSLFKTDEDITGRLKDRIQPEILEALLKHISFDKFVQISLKALRRIVPLMEQGKRYDEACAEIYGDHYGKKNTEEKIYLPPIPADEIRNPVVLRALSQARKVINGVVRRYGSPARIHIETAREVGKSFKDRKEIEKRQEENRKDREKAAAKFREYFPNFVGEPKSKDILKLRLYEQQHGKCLYSGKEINLGRLNEKGYVEIDHALPFSRTWDDSFNNKVLVLGSENQNKGNQTPYEYFNGKDNSREWQEFKARVETSRFPRSKKQRILLQKFDEDGFKERNLNDTRYVNRFLCQFVADRMRLTGKGKKRVFASNGQITNLLRGFWGLRKVRAENDRHHALDAVVVACSTVAMQQKITRFVRYKEMNAFDGKTIDKETGEVLHQKTHFPQPWEFFAQEVMIRVFGKPDGKPEFEEADTPEKLRTLLAEKLSSRPEAVHEYVTPLFVSRAPNRKMSGQGHMETVKSAKRLDEGVSVLRVPLTQLKLKDLEKMVNREREPKLYEALKARLEAHKDDPAKAFAEPFYKYDKAGNRTQQVKAVRVEQVQKTGVWVRNHNGIADNATMVRVDVFEKGDKYYLVPIYSWQVAKGILPDRAVVQGKDEEDWQLIDDSFNFKFSLHPNDLVEVITKKARMFGYFASCHRGTGNINIRIHDLDHKIGKNGILEGIGVKTALSFQKYQIDELGKEIRPCRLKKRPPVRSEQ ID NO: 362MQTTNLSYILGLDLGIASVGWAVVEINENEDPIGLIDVGVRIFERAEVPKTGESLALSRRLARSTRRLIRRRAHRLLLAKRFLKREGILSTIDLEKGLPNQAWELRVAGLERRLSAIEWGAVLLHLIKHRGYLSKRKNESQTNNKELGALLSGVAQNHQLLQSDDYRTPAELALKKFAKEEGHIRNQRGAYTHTFNRLDLLAELNLLFAQQHQFGNPHCKEHIQQYMTELLMWQKPALSGEAILKMLGKCTHEKNEFKAAKHTYSAERFVWLTKLNNLRILEDGAERALNEEERQLLINHPYEKSKLTYAQVRKLLGLSEQAIFKHLRYSKENAESATFMELKAWHAIRKALENQGLKDTWQDLAKKPDLLDEIGTAFSLYKTDEDIQQYLTNKVPNSVINALLVSLNFDKFIELSLKSLRKILPLMEQGKRYDQACREIYGHHYGEANQKTSQLLPAIPAQEIRNPVVLRTLSQARKVINAIIRQYGSPARVHIETGRELGKSFKERREIQKQQEDNRTKRESAVQKFKELFSDFSSEPKSKDILKFRLYEQQHGKCLYSGKEINIHRLNEKGYVEIDHALPFSRTWDDSFNNKVLVLASENQNKGNQTPYEWLQGKINSERWKNFVALVLGSQCSAAKKQRLLTQVIDDNKFIDRNLNDTRYIARFLSNYIQENLLLVGKNKKNVFTPNGQITALLRSRWGLIKARENNNRHHALDAIVVACATPSMQQKITRFIRFKEVHPYKIENRYEMVDQESGEIISPHFPEPWAYFRQEVNIRVFDNHPDTVLKEMLPDRPQANHQFVQPLFVSRAPTRKMSGQGHMETIKSAKRLAEGISVLRIPLTQLKPNLLENMVNKEREPALYAGLKARLAEFNQDPAKAFATPFYKQGGQQVKAIRVEQVQKSGVLVRENNGVADNASIVRTDVFIKNNKFFLVPIYTWQVAKGILPNKAIVAHKNEDEWEEMDEGAKFKFSLFPNDLVELKTKKEYFFGYYIGLDRATGNISLKEHDGEISKGKDGVYRVGVKLALSFEKYQVDELGKNRQICRPQQRQPVR SEQ ID NO: 363MGIRFAFDLGTNSIGWAVWRTGPGVFGEDTAASLDGSGVLIFKDGRNPKDGQSLATMRRVPRQSRKRRDRFVLRRRDLLAALRKAGLFPVDVEEGRRLAATDPYHLRAKALDESLTPHEMGRVIFHLNQRRGFRSNRKADRQDREKGKIAEGSKRLAETLAATNCRTLGEFLWSRHRGTPRTRSPTRIRMEGEGAKALYAFYPTREMVRAEFERLWTAQSRFAPDLLTPERHEEIAGILFRQRDLAPPKIGCCTFEPSERRLPRALPSVEARGIYERLAHLRITTGPVSDRGLTRPERDVLASALLAGKSLTFKAVRKTLKILPHALVNFEEAGEKGLDGALTAKLLSKPDHYGAAWHGLSFAEKDTFVGKLLDEADEERLIRRLVTENRLSEDAARRCASIPLADGYGRLGRTANTEILAALVEETDETGTVVTYAEAVRRAGERTGRNWHHSDERDGVILDRLPYYGEILQRHVVPGSGEPEEKNEAARWGRLANPTVHIGLNQLRKVVNRLIAAHGRPDQIVVELARELKLNREQKERLDRENRKNREENERRTAILAEHGQRDTAENKIRLRLFEEQARANAGIALCPYTGRAIGIAELFTSEVEIDHILPVSLTLDDSLANRVLCRREANREKRRQTPFQAFGATPAWNDIVARAAKLPPNKRWRFDPAALERFEREGGFLGRQLNETKYLSRLAKIYLGKICDPDRVYVTPGTLTGLLRARWGLNSILSDSNFKNRSDHRHHAVDAVVIGVLTRGMIQRIAHDAARAEDQDLDRVFRDVPVPFEDFRDHVRERVSTITVAVKPEHGKGGALHEDTSYGLVPDTDPNAALGNLVVRKPIRSLTAGEVDRVRDRALRARLGALAAPFRDESGRVRDAKGLAQALEAFGAENGIRRVRILKPDASVVTIADRRTGVPYRAVAPGENHHVDIVQMRDGSWRGFAASVFEVNRPGWRPEWEVKKLGGKLVMRLHKGDMVELSDKDGQRRVKVVQQIEISANRVRLSPHNDGGKLQDRHADADDPFRWDLATIPLLKDRGCVAVRVDPIGVVTLRRSNV SEQ ID NO: 364MMEVFMGRLVLGLDIGITSVGFGIIDLDESEIVDYGVRLFKEGTAAENETRRTKRGGRRLKRRRVTRREDMLHLLKQAGIISTSFHPLNNPYDVRVKGLNERLNGEELATALLHLCKHRGSSVETIEDDEAKAKEAGETKKVLSMNDQLLKSGKYVCEIQKERLRTNGHIRGHENNFKTRAYVDEAFQILSHQDLSNELKSAIITIISRKRMYYDGPGGPLSPTPYGRYTYFGQKEPIDLIEKMRGKCSLFPNEPRAPKLAYSAELFNLLNDLNNLSIEGEKLTSEQKAMILKIVHEKGKITPKQLAKEVGVSLEQIRGFRIDTKGSPLLSELTGYKMIREVLEKSNDEHLEDHVFYDEIAEILTKTKDIEGRKKQISELSSDLNEESVHQLAGLTKFTAYHSLSFKALRLINEEMLKTELNQMQSITLFGLKQNNELSVKGMKNIQADDTAILSPVAKRAQRETFKVVNRLREIYGEFDSIVVEMAREKNSEEQRKAIRERQKFFEMRNKQVADIIGDDRKINAKLREKLVLYQEQDGKTAYSLEPIDLKLLIDDPNAYEVDHIIPISISLDDSITNKVLVTHRENQEKGNLTPISAFVKGRFTKGSLAQYKAYCLKLKEKNIKTNKGYRKKVEQYLLNENDIYKYDIQKEFINRNLVDTSYASRVVLNTLTTYFKQNEIPTKVFTVKGSLTNAFRRKINLKKDRDEDYGHHAIDALIIASMPKMRLLSTIFSRYKIEDIYDESTGEVFSSGDDSMYYDDRYFAFIASLKAIKVRKFSHKIDTKPNRSVADETIYSTRVIDGKEKVVKKYKDIYDPKFTALAEDILNNAYQEKYLMALHDPQTFDQIVKVVNYYFEEMSKSEKYFTKDKKGRIKISGMNPLSLYRDEHGMLKKYSKKGDGPAITQMKYFDGVLGNHIDISAHYQVRDKKVVLQQISPYRTDFYYSKENGYKFVTIRYKDVRWSEKKKKYVIDQQDYAMKKAEKKIDDTYEFQFSMHRDELIGITKAEGEALIYPDETWHNFNFFFHAGETPEILKFTATNNDKSNKIEVKPIHCYCKMRLMPTISKKIVRIDKYATDVVGNLYKVKKNTLKFEFD SEQ ID NO: 365MKKILGVDLGITSFGYAILQETGKDLYRCLDNSVVMRNNPYDEKSGESSQSIRSTQKSMRRLIEKRKKRIRCVAQTMERYGILDYSETMKINDPKNNPIKNRWQLRAVDAWKRPLSPQELFAIFAHMAKHRGYKSIATEDLIYELELELGLNDPEKESEKKADERRQVYNALRHLEELRKKYGGETIAQTIHRAVEAGDLRSYRNHDDYEKMIRREDIEEEIEKVLLRQAELGALGLPEEQVSELIDELKACITDQEMPTIDESLFGKCTFYKDELAAPAYSYLYDLYRLYKKLADLNIDGYEVTQEDREKVIEWVEKKIAQGKNLKKITHKDLRKILGLAPEQKIFGVEDERIVKGKKEPRTFVPFFFLADIAKFKELFASIQKHPDALQIFRELAEILQRSKTPQEALDRLRALMAGKGIDTDDRELLELFKNKRSGTRELSHRYILEALPLFLEGYDEKEVQRILGFDDREDYSRYPKSLRHLHLREGNLFEKEENPINNHAVKSLASWALGLIADLSWRYGPFDEIILETTRDALPEKIRKEIDKAMREREKALDKIIGKYKKEFPSIDKRLARKIQLWERQKGLDLYSGKVINLSQLLDGSADIEHIVPQSLGGLSTDYNTIVTLKSVNAAKGNRLPGDWLAGNPDYRERIGMLSEKGLIDWKKRKNLLAQSLDEIYTENTHSKGIRATSYLEALVAQVLKRYYPFPDPELRKNGIGVRMIPGKVTSKTRSLLGIKSKSRETNFHHAEDALILSTLTRGWQNRLHRMLRDNYGKSEAELKELWKKYMPHIEGLTLADYIDEAFRRFMSKGEESLFYRDMFDTIRSISYWVDKKPLSASSHKETVYSSRHEVPTLRKNILEAFDSLNVIKDRHKLTTEEFMKRYDKEIRQKLWLHRIGNTNDESYRAVEERATQIAQILTRYQLMDAQNDKEIDEKFQQALKELITSPIEVTGKLLRKMRFVYDKLNAMQIDRGLVETDKNMLGIHISKGPNEKLIFRRMDVNNAHELQKERSGILCYLNEMLFIFNKKGLIHYGCLRSYLEKGQGSKYIALFNPRFPANPKAQPSKFTSDSKIKQVGIGSATGIIKAHLDLDGHVRSYEVFGTLPEGSIEWFKEESGYGRVEDDPHH SEQ ID NO: 366MRPIEPWILGLDIGTDSLGWAVFSCEEKGPPTAKELLGGGVRLFDSGRDAKDHTSRQAERGAFRRARRQTRTWPWRRDRLIALFQAAGLTPPAAETRQIALALRREAVSRPLAPDALWAALLHLAHHRGFRSNRIDKRERAAAKALAKAKPAKATAKATAPAKEADDEAGFWEGAEAALRQRMAASGAPTVGALLADDLDRGQPVRMRYNQSDRDGVVAPTRALIAEELAEIVARQSSAYPGLDWPAVTRLVLDQRPLRSKGAGPCAFLPGEDRALRALPTVQDFIIRQTLANLRLPSTSADEPRPLTDEEHAKALALLSTARFVEWPALRRALGLKRGVKFTAETERNGAKQAARGTAGNLTEAILAPLIPGWSGWDLDRKDRVFSDLWAARQDRSALLALIGDPRGPTRVTEDETAEAVADAIQIVLPTGRASLSAKAARAIAQAMAPGIGYDEAVTLALGLHHSHRPRQERLARLPYYAAALPDVGLDGDPVGPPPAEDDGAAAEAYYGRIGNISVHIALNETRKIVNALLHRHGPILRLVMVETTRELKAGADERKRMIAEQAERERENAEIDVELRKSDRWMANARERRQRVRLARRQNNLCPYTSTPIGHADLLGDAYDIDHVIPLARGGRDSLDNMVLCQSDANKTKGDKTPWEAFHDKPGWIAQRDDFLARLDPQTAKALAWRFADDAGERVARKSAEDEDQGFLPRQLTDTGYIARVALRYLSLVTNEPNAVVATNGRLTGLLRLAWDITPGPAPRDLLPTPRDALRDDTAARRFLDGLTPPPLAKAVEGAVQARLAALGRSRVADAGLADALGLTLASLGGGGKNRADHRHHFIDAAMIAVTTRGLINQINQASGAGRILDLRKWPRTNFEPPYPTFRAEVMKQWDHIHPSIRPAHRDGGSLHAATVFGVRNRPDARVLVQRKPVEKLFLDANAKPLPADKIAEIIDGFASPRMAKRFKALLARYQAAHPEVPPALAALAVARDPAFGPRGMTANTVIAGRSDGDGEDAGLITPFRANPKAAVRTMGNAVYEVWEIQVKGRPRWTHRVLTRFDRTQPAPPPPPENARLVMRLRRGDLVYWPLESGDRLFLVKKMAVDGRLALWPARLATGKATALYAQLSCPNINLNGDQGYCVQSAEGIRKEKIRTTSCTALGRLRLSKKAT SEQ ID NO: 367MKYTLGLDVGIASVGWAVIDKDNNKIIDLGVRCFDKAEESKTGESLATARRIARGMRRRISRRSQRLRLVKKLFVQYEIIKDSSEFNRIFDTSRDGWKDPWELRYNALSRILKPYELVQVLTHITKRRGFKSNRKEDLSTTKEGVVITSIKNNSEMLRTKNYRTIGEMIFMETPENSNKRNKVDEYIHTIAREDLLNEIKYIFSIQRKLGSPFVTEKLEHDFLNIWEFQRPFASGDSILSKVGKCTLLKEELRAPTSCYTSEYFGLLQSINNLVLVEDNNTLTLNNDQRAKIIEYAHFKNEIKYSEIRKLLDIEPEILFKAHNLTHKNPSGNNESKKFYEMKSYHKLKSTLPTDIWGKLHSNKESLDNLFYCLTVYKNDNEIKDYLQANNLDYLIEYIAKLPTFNKFKHLSLVAMKRIIPFMEKGYKYSDACNMAELDFTGSSKLEKCNKLTVEPIIENVTNPVVIRALTQARKVINAIIQKYGLPYMVNIELAREAGMTRQDRDNLKKEHENNRKAREKISDLIRQNGRVASGLDILKWRLWEDQGGRCAYSGKPIPVCDLLNDSLTQIDHIYPYSRSMDDSYMNKVLVLTDENQNKRSYTPYEVWGSTEKWEDFEARIYSMHLPQSKEKRLLNRNFITKDLDSFISRNLNDTRYISRFLKNYIESYLQFSNDSPKSCVVCVNGQCTAQLRSRWGLNKNREESDLHHALDAAVIACADRKIIKEITNYYNERENHNYKVKYPLPWHSFRQDLMETLAGVFISRAPRRKITGPAHDETIRSPKHFNKGLTSVKIPLTTVTLEKLETMVKNTKGGISDKAVYNVLKNRLIEHNNKPLKAFAEKIYKPLKNGTNGAIIRSIRVETPSYTGVFRNEGKGISDNSLMVRVDVFKKKDKYYLVPIYVAHMIKKELPSKAIVPLKPESQWELIDSTHEFLFSLYQNDYLVIKTKKGITEGYYRSCHRGTGSLSLMPHFANNKNVKIDIGVRTAISIEKYNVDILGNKSIVKGEPRRGMEKYNSFKSNSEQ ID NO: 368MIRTLGIDIGIASIGWAVIEGEYTDKGLENKEIVASGVRVFTKAENPKNKESLALPRTLARSARRRNARKKGRIQQVKHYLSKALGLDLECFVQGEKLATLFQTSKDFLSPWELRERALYRVLDKEELARVILHIAKRRGYDDITYGVEDNDSGKIKKAIAENSKRIKEEQCKTIGEMMYKLYFQKSLNVRNKKESYNRCVGRSELREELKTIFQIQQELKSPWVNEELIYKLLGNPDAQSKQEREGLIFYQRPLKGFGDKIGKCSHIKKGENSPYRACKHAPSAEEFVALTKSINFLKNLTNRHGLCFSQEDMCVYLGKILQEAQKNEKGLTYSKLKLLLDLPSDFEFLGLDYSGKNPEKAVFLSLPSTFKLNKITQDRKTQDKIANILGANKDWEAILKELESLQLSKEQIQTIKDAKLNFSKHINLSLEALYHLLPLMREGKRYDEGVEILQERGIFSKPQPKNRQLLPPLSELAKEESYFDIPNPVLRRALSEFRKVVNALLEKYGGFHYFHIELTRDVCKAKSARMQLEKINKKNKSENDAASQLLEVLGLPNTYNNRLKCKLWKQQEEYCLYSGEKITIDHLKDQRALQIDHAFPLSRSLDDSQSNKVLCLTSSNQEKSNKTPYEWLGSDEKKWDMYVGRVYSSNFSPSKKRKLTQKNFKERNEEDFLARNLVDTGYIGRVTKEYIKHSLSFLPLPDGKKEHIRIISGSMTSTMRSFWGVQEKNRDHHLHHAQDAIIIACIEPSMIQKYTTYLKDKETHRLKSHQKAQILREGDHKLSLRWPMSNFKDKIQESIQNIIPSHHVSHKVTGELHQETVRTKEFYYQAFGGEEGVKKALKFGKIREINQGIVDNGAMVRVDIFKSKDKGKFYAVPIYTYDFAIGKLPNKAIVQGKKNGIIKDWLEMDENYEFCFSLFKNDCIKIQTKEMQEAVLAIYKSTNSAKATIELEHLSKYALKNEDEEKMFTDTDKEKNKTMTRESCGIQGLKVFQKVKLSVLGEVLEHKPRNRQNIALKTTPKHVSEQ ID NO: 369MKYSIGLDIGIASVGWSVINKDKERIEDMGVRIFQKAENPKDGSSLASSRREKRGSRRRNRRKKHRLDRIKNILCESGLVKKNEIEKIYKNAYLKSPWELRAKSLEAKISNKEIAQILLHIAKRRGFKSFRKTDRNADDTGKLLSGIQENKKIMEEKGYLTIGDMVAKDPKFNTHVRNKAGSYLFSFSRKLLEDEVRKIQAKQKELGNTHFTDDVLEKYIEVFNSQRNFDEGPSKPSPYYSEIGQIAKMIGNCTFESSEKRTAKNTWSGERFVFLQKLNNFRIVGLSGKRPLTEEERDIVEKEVYLKKEVRYEKLRKILYLKEEERFGDLNYSKDEKQDKKTEKTKFISLIGNYTIKKLNLSEKLKSEIEEDKSKLDKIIEILTFNKSDKTIESNLKKLELSREDIEILLSEEFSGTLNLSLKAIKKILPYLEKGLSYNEACEKADYDYKNNGIKFKRGELLPVVDKDLIANPVVLRAISQTRKVVNAIIRKYGTPHTIHVEVARDLAKSYDDRQTIIKENKKRELENEKTKKFISEEFGIKNVKGKLLLKYRLYQEQEGRCAYSRKELSLSEVILDESMTDIDHIIPYSRSMDDSYSNKVLVLSGENRKKSNLLPKEYFDRQGRDWDTFVLNVKAMKIHPRKKSNLLKEKFTREDNKDWKSRALNDTRYISRFVANYLENALEYRDDSPKKRVFMIPGQLTAQLRARWRLNKVRENGDLHHALDAAVVAVTDQKAINNISNISRYKELKNCKDVIPSIEYHADEETGEVYFEEVKDTRFPMPWSGFDLELQKRLESENPREEFYNLLSDKRYLGWFNYEEGFIEKLRPVFVSRMPNRGVKGQAHQETIRSSKKISNQIAVSKKPLNSIKLKDLEKMQGRDTDRKLYEALKNRLEEYDDKPEKAFAEPFYKPTNSGKRGPLVRGIKVEEKQNVGVYVNGGQASNGSMVRIDVFRKNGKFYTVPIYVHQTLLKELPNRAINGKPYKDWDLIDGSFEFLYSFYPNDLIEIEFGKSKSIKNDNKLTKTEIPEVNLSEVLGYYRGMDTSTGAATIDTQDGKIQMRIGIKTVKNIKKYQVDVLGNVYKVKREK RQTFSEQ ID NO: 370MSKKVSRRYEEQAQEICQRLGSRPYSIGLDLGVGSIGVAVAAYDPIKKQPSDLVFVSSRIFIPSTGAAERRQKRGQRNSLRHRANRLKFLWKLLAERNLMLSYSEQDVPDPARLRFEDAVVRANPYELRLKGLNEQLTLSELGYALYHIANHRGSSSVRTFLDEEKSSDDKKLEEQQAMTEQLAKEKGISTFIEVLTAFNTNGLIGYRNSESVKSKGVPVPTRDIISNEIDVLLQTQKQFYQEILSDEYCDRIVSAILFENEKIVPEAGCCPYFPDEKKLPRCHFLNEERRLWEAINNARIKMPMQEGAAKRYQSASFSDEQRHILFHIARSGTDITPKLVQKEFPALKTSIIVLQGKEKAIQKIAGFRFRRLEEKSFWKRLSEEQKDDFFSAWTNTPDDKRLSKYLMKHLLLTENEVVDALKTVSLIGDYGPIGKTATQLLMKHLEDGLTYTEALERGMETGEFQELSVWEQQSLLPYYGQILTGSTQALMGKYWHSAFKEKRDSEGFFKPNTNSDEEKYGRIANPVVHQTLNELRKLMNELITILGAKPQEITVELARELKVGAEKREDIIKQQTKQEKEAVLAYSKYCEPNNLDKRYIERFRLLEDQAFVCPYCLEHISVADIAAGRADVDHIFPRDDTADNSYGNKVVAHRQCNDIKGKRTPYAAFSNTSAWGPIMHYLDETPGMWRKRRKFETNEEEYAKYLQSKGFVSRFESDNSYIAKAAKEYLRCLFNPNNVTAVGSLKGMETSILRKAWNLQGIDDLLGSRHWSKDADTSPTMRKNRDDNRHHGLDAIVALYCSRSLVQMINTMSEQGKRAVEIEAMIPIPGYASEPNLSFEAQRELFRKKILEFMDLHAFVSMKTDNDANGALLKDTVYSILGADTQGEDLVFVVKKKIKDIGVKIGDYEEVASAIRGRITDKQPKWYPMEMKDKIEQLQSKNEAALQKYKESLVQAAAVLEESNRKLIESGKKPIQLSEKTISKKALELVGGYYYLISNNKRTKTFVVKEPSNEVKGFAFDTGSNLCLDFYHDAQGKLCGEIIRKIQAMNPSYKPAYMKQGYSLYVRLYQGDVCELRASDLTEAESNLAKTTHVRLPNAKPGRTFVIIITFTEMGSGYQIYFSNLAKSKKGQDTSFTLTTIKNYDVRKVQLSSAGLVRYVSPLLVDKIEKDEVALCGE SEQ ID NO: 371MNQKFILGLDIGITSVGYGLIDYETKNIIDAGVRLFPEANVENNEGRRSKRGSRRLKRRRIHRLERVKKLLEDYNLLDQSQIPQSTNPYAIRVKGLSEALSKDELVIALLHIAKRRGIHKIDVIDSNDDVGNELSTKEQLNKNSKLLKDKFVCQIQLERMNEGQVRGEKNRFKTADIIKEIIQLLNVQKNFHQLDENFINKYIELVEMRREYFEGPGKGSPYGWEGDPKAWYETLMGHCTYFPDELRSVKYAYSADLFNALNDLNNLVIQRDGLSKLEYHEKYHIIENVFKQKKKPTLKQIANEINVNPEDIKGYRITKSGKPQFTEFKLYHDLKSVLFDQSILENEDVLDQIAEILTIYQDKDSIKSKLTELDILLNEEDKENIAQLTGYTGTHRLSLKCIRLVLEEQWYSSRNQMEIFTHLNIKPKKINLTAANKIPKAMIDEFILSPVVKRTFGQAINLINKIIEKYGVPEDIIIELARENNSKDKQKFINEMQKKNENTRKRINEIIGKYGNQNAKRLVEKIRLHDEQEGKCLYSLESIPLEDLLNNPNHYEVDHIIPRSVSFDNSYHNKVLVKQSENSKKSNLTPYQYFNSGKSKLSYNQFKQHILNLSKSQDRISKKKKEYLLEERDINKFEVQKEFINRNLVDTRYATRELTNYLKAYFSANNMNVKVKTINGSFTDYLRKVWKFKKERNHGYKHHAEDALIIANADFLFKENKKLKAVNSVLEKPEIESKQLDIQVDSEDNYSEMFIIPKQVQDIKDFRNFKYSHRVDKKPNRQLINDTLYSTRKKDNSTYIVQTIKDIYAKDNTTLKKQFDKSPEKFLMYQHDPRTFEKLEVIMKQYANEKNPLAKYHEETGEYLTKYSKKNNGPIVKSLKYIGNKLGSHLDVTHQFKSSTKKLVKLSIKPYRFDVYLTDKGYKFITISYLDVLKKDNYYYIPEQKYDKLKLGKAIDKNAKFIASFYKNDLIKLDGEIYKIIGVNSDTRNMIELDLPDIRYKEYCELNNIKGEPRIKKTIGKKVNSIEKLTTDVLGNVFTNTQYTKPQLLFKRGN SEQ ID NO: 372MIMKLEKWRLGLDLGTNSIGWSVFSLDKDNSVQDLIDMGVRIFSDGRDPKTKEPLAVARRTARSQRKLIYRRKLRRKQVFKFLQEQGLFPKTKEECMTLKSLNPYELRIKALDEKLEPYELGRALFNLAVRRGFKSNRKDGSREEVSEKKSPDEIKTQADMQTHLEKAIKENGCRTITEFLYKNQGENGGIRFAPGRMTYYPTRKMYEEEFNLIRSKQEKYYPQVDWDDIYKAIFYQRPLKPQQRGYCIYENDKERTFKAMPCSQKLRILQDIGNLAYYEGGSKKRVELNDNQDKVLYELLNSKDKVTFDQMRKALCLADSNSFNLEENRDFLIGNPTAVKMRSKNRFGKLWDEIPLEEQDLIIETIITADEDDAVYEVIKKYDLTQEQRDFIVKNTILQSGTSMLCKEVSEKLVKRLEEIADLKYHEAVESLGYKFADQTVEKYDLLPYYGKVLPGSTMEIDLSAPETNPEKHYGKISNPTVHVALNQTRVVVNALIKEYGKPSQIAIELSRDLKNNVEKKAEIARKQNQRAKENIAINDTISALYHTAFPGKSFYPNRNDRMKYRLWSELGLGNKCIYCGKGISGAELFTKEIEIEHILPFSRTLLDAESNLTVAHSSCNAFKAERSPFEAFGTNPSGYSWQEIIQRANQLKNTSKKNKFSPNAMDSFEKDSSFIARQLSDNQYIAKAALRYLKCLVENPSDVWTTNGSMTKLLRDKWEMDSILCRKFTEKEVALLGLKPEQIGNYKKNRFDHRHHAIDAVVIGLTDRSMVQKLATKNSHKGNRIEIPEFPILRSDLIEKVKNIVVSFKPDHGAEGKLSKETLLGKIKLHGKETFVCRENIVSLSEKNLDDIVDEIKSKVKDYVAKHKGQKIEAVLSDFSKENGIKKVRCVNRVQTPIEITSGKISRYLSPEDYFAAVIWEIPGEKKTFKAQYIRRNEVEKNSKGLNVVKPAVLENGKPHPAAKQVCLLHKDDYLEFSDKGKMYFCRIAGYAATNNKLDIRPVYAVSYCADWINSTNETMLTGYWKPTPTQNWVSVNVLFDKQKARLVTVSPIGRVFRK SEQ ID NO: 373MSSKAIDSLEQLDLFKPQEYTLGLDLGIKSIGWAILSGERIANAGVYLFETAEELNSTGNKLISKAAERGRKRRIRRMLDRKARRGRHIRYLLEREGLPTDELEEVVVHQSNRTLWDVRAEAVERKLTKQELAAVLFHLVRHRGYFPNTKKLPPDDESDSADEEQGKINRATSRLREELKASDCKTIGQFLAQNRDRQRNREGDYSNLMARKLVFEEALQILAFQRKQGHELSKDFEKTYLDVLMGQRSGRSPKLGNCSLIPSELRAPSSAPSTEWFKFLQNLGNLQISNAYREEWSIDAPRRAQIIDACSQRSTSSYWQIRRDFQIPDEYRFNLVNYERRDPDVDLQEYLQQQERKTLANFRNWKQLEKIIGTGHPIQTLDEAARLITLIKDDEKLSDQLADLLPEASDKAITQLCELDFTTAAKISLEAMYRILPHMNQGMGFFDACQQESLPEIGVPPAGDRVPPFDEMYNPVVNRVLSQSRKLINAVIDEYGMPAKIRVELARDLGKGRELRERIKLDQLDKSKQNDQRAEDFRAEFQQAPRGDQSLRYRLWKEQNCTCPYSGRMIPVNSVLSEDTQIDHILPISQSFDNSLSNKVLCFTEENAQKSNRTPFEYLDAADFQRLEAISGNWPEAKRNKLLHKSFGKVAEEWKSRALNDTRYLTSALADHLRHHLPDSKIQTVNGRITGYLRKQWGLEKDRDKHTHHAVDAIVVACTTPAIVQQVTLYHQDIRRYKKLGEKRPTPWPETFRQDVLDVEEEIFITRQPKKVSGGIQTKDTLRKHRSKPDRQRVALTKVKLADLERLVEKDASNRNLYEHLKQCLEESGDQPTKAFKAPFYMPSGPEAKQRPILSKVTLLREKPEPPKQLTELSGGRRYDSMAQGRLDIYRYKPGGKRKDEYRVVLQRMIDLMRGEENVHVFQKGVPYDQGPEIEQNYTFLFSLYFDDLVEFQRSADSEVIRGYYRTFNIANGQLKISTYLEGRQDFDFFGANRLAHFAKVQVNLLGKVIK SEQ ID NO: 374MRSLRYRLALDLGSTSLGWALFRLDACNRPTAVIKAGVRIFSDGRNPKDGSSLAVTRRAARAMRRRRDRLLKRKTRMQAKLVEHGFFPADAGKRKALEQLNPYALRAKGLQEALLPGEFARALFHINQRRGFKSNRKTDKKDNDSGVLKKAIGQLRQQMAEQGSRTVGEYLWTRLQQGQGVRARYREKPYTTEEGKKRIDKSYDLYIDRAMIEQEFDALWAAQAAFNPTLFHEAARADLKDTLLHQRPLRPVKPGRCTLLPEEERAPLALPSTQRFRIHQEVNHLRLLDENLREVALTLAQRDAVVTALETKAKLSFEQIRKLLKLSGSVQFNLEDAKRTELKGNATSAALARKELFGAAWSGFDEALQDEIVWQLVTEEGEGALIAWLQTHTGVDEARAQAIVDVSLPEGYGNLSRKALARIVPALRAAVITYDKAVQAAGFDHHSQLGFEYDASEVEDLVHPETGEIRSVFKQLPYYGKALQRHVAFGSGKPEDPDEKRYGKIANPTVHIGLNQVRMVVNALIRRYGRPTEVVIELARDLKQSREQKVEAQRRQADNQRRNARIRRSIAEVLGIGEERVRGSDIQKWICWEELSFDAADRRCPYSGVQISAAMLLSDEVEVEHILPFSKTLDDSLNNRTVAMRQANRIKRNRTPWDARAEFEAQGWSYEDILQRAERMPLRKRYRFAPDGYERWLGDDKDFLARALNDTRYLSRVAAEYLRLVCPGTRVIPGQLTALLRGKFGLNDVLGLDGEKNRNDHRHHAVDACVIGVTDQGLMQRFATASAQARGDGLTRLVDGMPMPWPTYRDHVERAVRHIWVSHRPDHGFEGAMMEETSYGIRKDGSIKQRRKADGSAGREISNLIRIHEATQPLRHGVSADGQPLAYKGYVGGSNYCIEITVNDKGKWEGEVISTFRAYGVVRAGGMGRLRNPHEGQNGRKLIMRLVIGDSVRLEVDGAERTMRIVKISGSNGQIFMAPIHEANVDARNTDKQDAFTYTSKYAGSLQKAKTRRVTISPIGEVRD PGFKGSEQ ID NO: 375MARPAFRAPRREHVNGWTPDPHRISKPFFILVSWHLLSRVVIDSSSGCFPGTSRDHTDKFAEWECAVQPYRLSFDLGTNSIGWGLLNLDRQGKPREIRALGSRIFSDGRDPQDKASLAVARRLARQMRRRRDRYLTRRTRLMGALVRFGLMPADPAARKRLEVAVDPYLARERATRERLEPFEIGRALFHLNQRRGYKPVRTATKPDEEAGKVKEAVERLEAAIAAAGAPTLGAWFAWRKTRGETLRARLAGKGKEAAYPFYPARRMLEAEFDTLWAEQARHHPDLLTAEAREILRHRIFHQRPLKPPPVGRCTLYPDDGRAPRALPSAQRLRLFQELASLRVIHLDLSERPLTPAERDRIVAFVQGRPPKAGRKPGKVQKSVPFEKLRGLLELPPGTGFSLESDKRPELLGDETGARIAPAFGPGWTALPLEEQDALVELLLTEAEPERAIAALTARWALDEATAAKLAGATLPDFHGRYGRRAVAELLPVLERETRGDPDGRVRPIRLDEAVKLLRGGKDHSDFSREGALLDALPYYGAVLERHVAFGTGNPADPEEKRVGRVANPTVHIALNQLRHLVNAILARHGRPEEIVIELARDLKRSAEDRRREDKRQADNQKRNEERKRLILSLGERPTPRNLLKLRLWEEQGPVENRRCPYSGETISMRMLLSEQVDIDHILPFSVSLDDSAANKVVCLREANRIKRNRSPWEAFGHDSERWAGILARAEALPKNKRWRFAPDALEKLEGEGGLRARHLNDTRHLSRLAVEYLRCVCPKVRVSPGRLTALLRRRWGIDAILAEADGPPPEVPAETLDPSPAEKNRADHRHHALDAVVIGCIDRSMVQRVQLAAASAEREAAAREDNIRRVLEGFKEEPWDGFRAELERRARTIVVSHRPEHGIGGALHKETAYGPVDPPEEGFNLVVRKPIDGLSKDEINSVRDPRLRRALIDRLAIRRRDANDPATALAKAAEDLAAQPASRGIRRVRVLKKESNPIRVEHGGNPSGPRSGGPFHKLLLAGEVHHVDVALRADGRRWVGHWVTLFEAHGGRGADGAAAPPRLGDGERFLMRLHKGDCLKLEHKGRVRVMQVVKLEPSSNSVVVVEPHQVKTDRSKHVKISCDQLRARGARRVTVDPLGRVRVHAPGARVGIGGDAGRTAMEPAEDIS SEQ ID NO: 376MKRTSLRAYRLGVDLGANSLGWFVVWLDDHGQPEGLGPGGVRIFPDGRNPQSKQSNAAGRRLARSARRRRDRYLQRRGKLMGLLVKHGLMPADEPARKRLECLDPYGLRAKALDEVLPLHHVGRALFHLNQRRGLFANRAIEQGDKDASAIKAAAGRLQTSMQACGARTLGEFLNRRHQLRATVRARSPVGGDVQARYEFYPTRAMVDAEFEAIWAAQAPHHPTMTAEAHDTIREAIFSQRAMKRPSIGKCSLDPATSQDDVDGFRCAWSHPLAQRFRIWQDVRNLAVVETGPTSSRLGKEDQDKVARALLQTDQLSFDEIRGLLGLPSDARFNLESDRRDHLKGDATGAILSARRHFGPAWHDRSLDRQIDIVALLESALDEAAIIASLGTTHSLDEAAAQRALSALLPDGYCRLGLRAIKRVLPLMEAGRTYAEAASAAGYDHALLPGGKLSPTGYLPYYGQWLQNDVVGSDDERDTNERRWGRLPNPTVHIGIGQLRRVVNELIRWHGPPAEITVELTRDLKLSPRRLAELEREQAENQRKNDKRTSLLRKLGLPASTHNLLKLRLWDEQGDVASECPYTGEAIGLERLVSDDVDIDHLIPFSISWDDSAANKVVCMRYANREKGNRTPFEAFGHRQGRPYDWADIAERAARLPRGKRWRFGPGARAQFEELGDFQARLLNETSWLARVAKQYLAAVTHPHRIHVLPGRLTALLRATWELNDLLPGSDDRAAKSRKDHRHHAIDALVAALTDQALLRRMANAHDDTRRKIEVLLPWPTFRIDLETRLKAMLVSHKPDHGLQARLHEDTAYGTVEHPETEDGANLVYRKTFVDISEKEIDRIRDRRLRDLVRAHVAGERQQGKTLKAAVLSFAQRRDIAGHPNGIRHVRLTKSIKPDYLVPIRDKAGRIYKSYNAGENAFVDILQAESGRWIARATTVFQANQANESHDAPAAQPIMRVFKGDMLRIDHAGAEKFVKIVRLSPSNNLLYLVEHHQAGVFQTRHDDPEDSFRWLFASFDKLREWNAELVRIDTLGQPWRRKRGLETGSEDATRIGWTRPKKWP SEQ ID NO: 377MERIFGFDIGTTSIGFSVIDYSSTQSAGNIQRLGVRIFPEARDPDGTPLNQQRRQKRMMRRQLRRRRIRRKALNETLHEAGFLPAYGSADWPVVMADEPYELRRRGLEEGLSAYEFGRAIYHLAQHRHFKGRELEESDTPDPDVDDEKEAANERAATLKALKNEQTTLGAWLARRPPSDRKRGIHAHRNVVAEEFERLWEVQSKFHPALKSEEMRARISDTIFAQRPVFWRKNTLGECRFMPGEPLCPKGSWLSQQRRMLEKLNNLAIAGGNARPLDAEERDAILSKLQQQASMSWPGVRSALKALYKQRGEPGAEKSLKFNLELGGESKLLGNALEAKLADMFGPDWPAHPRKQEIRHAVHERLWAADYGETPDKKRVIILSEKDRKAHREAAANSFVADFGITGEQAAQLQALKLPTGWEPYSIPALNLFLAELEKGERFGALVNGPDWEGWRRTNFPHRNQPTGEILDKLPSPASKEERERISQLRNPTVVRTQNELRKVVNNLIGLYGKPDRIRIEVGRDVGKSKREREEIQSGIRRNEKQRKKATEDLIKNGIANPSRDDVEKWILWKEGQERCPYTGDQIGFNALFREGRYEVEHIWPRSRSFDNSPRNKTLCRKDVNIEKGNRMPFEAFGHDEDRWSAIQIRLQGMVSAKGGTGMSPGKVKRFLAKTMPEDFAARQLNDTRYAAKQILAQLKRLWPDMGPEAPVKVEAVTGQVTAQLRKLWTLNNILADDGEKTRADHRHHAIDALTVACTHPGMTNKLSRYWQLRDDPRAEKPALTPPWDTIRADAEKAVSEIVVSHRVRKKVSGPLHKETTYGDTGTDIKTKSGTYRQFVTRKKIESLSKGELDEIRDPRIKEIVAAHVAGRGGDPKKAFPPYPCVSPGGPEIRKVRLTSKQQLNLMAQTGNGYADLGSNHHIAIYRLPDGKADFEIVSLFDASRRLAQRNPIVQRTRADGASFVMSLAAGEAIMIPEGSKKGIWIVQGVWASGQVVLERDTDADHSTTTRPMPNPILKDDAKKVSIDPIGRVRPSND SEQ ID NO: 378MNKRILGLDTGTNSLGWAVVDWDEHAQSYELIKYGDVIFQEGVKIEKGIESSKAAERSGYKAIRKQYFRRRLRKIQVLKVLVKYHLCPYLSDDDLRQWHLQKQYPKSDELMLWQRTSDEEGKNPYYDRHRCLHEKLDLTVEADRYTLGRALYHLTQRRGFLSNRLDTSADNKEDGVVKSGISQLSTEMEEAGCEYLGDYFYKLYDAQGNKVRIRQRYTDRNKHYQHEFDAICEKQELSSELIEDLQRAIFFQLPLKSQRHGVGRCTFERGKPRCADSHPDYEEFRMLCFVNNIQVKGPHDLELRPLTYEEREKIEPLFFRKSKPNFDFEDIAKALAGKKNYAWIHDKEERAYKFNYRMTQGVPGCPTIAQLKSIFGDDWKTGIAETYTLIQKKNGSKSLQEMVDDVWNVLYSFSSVEKLKEFAHHKLQLDEESAEKFAKIKLSHSFAALSLKAIRKFLPFLRKGMYYTHASFFANIPTIVGKEIWNKEQNRKYIMENVGELVFNYQPKHREVQGTIEMLIKDFLANNFELPAGATDKLYHPSMIETYPNAQRNEFGILQLGSPRTNAIRNPMAMRSLHILRRVVNQLLKESIIDENTEVHVEYARELNDANKRRAIADRQKEQDKQHKKYGDEIRKLYKEETGKDIEPTQTDVLKFQLWEEQNHHCLYTGEQIGITDFIGSNPKFDIEHTIPQSVGGDSTQMNLTLCDNRFNREVKKAKLPTELANHEEILTRIEPWKNKYEQLVKERDKQRTFAGMDKAVKDIRIQKRHKLQMEIDYWRGKYERFTMTEVPEGFSRRQGTGIGLISRYAGLYLKSLFHQADSRNKSNVYVVKGVATAEFRKMWGLQSEYEKKCRDNHSHHCMDAITIACIGKREYDLMAEYYRMEETFKQGRGSKPKFSKPWATFTEDVLNIYKNLLVVHDTPNNMPKHTKKYVQTSIGKVLAQGDTARGSLHLDTYYGAIERDGEIRYVVRRPLSSFTKPEELENIVDETVKRTIKEAIADKNFKQAIAEPIYMNEEKGILIKKVRCFAKSVKQPINIRQHRDLSKKEYKQQYHVMNENNYLLAIYEGLVKNKVVREFEIVSYIEAAKYYKRSQDRNIFSSIVPTHSTKYGLPLKTKLLMGQLVLMFEENPDEIQVDNTKDLVKRLYKVVGIEKDGRIKFKYHQEARKEGLPIFSTPYKNNDDYAPIFRQSINNINILVDGIDFTIDILGKVTL KESEQ ID NO: 379MNYKMGLDIGIASVGWAVINLDLKRIEDLGVRIFDKAEHPQNGESLALPRRIARSARRRLRRRKHRLERIRRLLVSENVLTKEEMNLLFKQKKQIDVWQLRVDALERKLNNDELARVLLHLAKRRGFKSNRKSERNSKESSEFLKNIEENQSILAQYRSVGEMIVKDSKFAYHKRNKLDSYSNMIARDDLEREIKLIFEKQREFNNPVCTERLEEKYLNIWSSQRPFASKEDIEKKVGFCTFEPKEKRAPKATYTFQSFIVWEHINKLRLVSPDETRALTEIERNLLYKQAFSKNKMTYYDIRKLLNLSDDIHFKGLLYDPKSSLKQIENIRFLELDSYHKIRKCIENVYGKDGIRMFNETDIDTFGYALTIFKDDEDIVAYLQNEYITKNGKRVSNLANKVYDKSLIDELLNLSFSKFAHLSMKAIRNILPYMEQGEIYSKACELAGYNFTGPKKKEKALLLPVIPNIANPVVMRALTQSRKVVNAIIKKYGSPVSIHIELARDLSHSFDERKKIQKDQTENRKKNETAIKQLIEYELTKNPTGLDIVKFKLWSEQQGRCMYSLKPIELERLLEPGYVEVDHILPYSRSLDDSYANKVLVLTKENREKGNHTPVEYLGLGSERWKKFEKFVLANKQFSKKKKQNLLRLRYEETEEKEFKERNLNDTRYISKFFANFIKEHLKFADGDGGQKVYTINGKITAHLRSRWDFNKNREESDLHHAVDAVIVACATQGMIKKITEFYKAREQNKESAKKKEPIFPQPWPHFADELKARLSKFPQESIEAFALGNYDRKKLESLRPVFVSRMPKRSVTGAAHQETLRRCVGIDEQSGKIQTAVKTKLSDIKLDKDGHFPMYQKESDPRTYEAIRQRLLEHNNDPKKAFQEPLYKPKKNGEPGPVIRTVKIIDTKNKVVHLDGSKTVAYNSNIVRTDVFEKDGKYYCVPVYTMDIMKGTLPNKAIEANKPYSEWKEMTEEYTFQFSLFPNDLVRIVLPREKTIKTSTNEEIIIKDIFAYYKTIDSATGGLELISHDRNFSLRGVGSKTLKRFEKYQVDVLGNIHKVKGEKRVGLAAPTNQKKGKTVDSLQSVSDSEQ ID NO: 380MRRLGLDLGTNSIGWCLLDLGDDGEPVSIFRTGARIFSDGRDPKSLGSLKATRREARLTRRRRDRFIQRQKNLINALVKYGLMPADEIQRQALAYKDPYPIRKKALDEAIDPYEMGRAIFHINQRRGFKSNRKSADNEAGVVKQSIADLEMKLGEAGARTIGEFLADRQATNDTVRARRLSGTNALYEFYPDRYMLEQEFDTLWAKQAAFNPSLYIEAARERLKEIVFFQRKLKPQEVGRCIFLSDEDRISKALPSFQRFRIYQELSNLAWIDHDGVAHRITASLALRDHLFDELEHKKKLTFKAMRAILRKQGVVDYPVGFNLESDNRDHLIGNLTSCIMRDAKKMIGSAWDRLDEEEQDSFILMLQDDQKGDDEVRSILTQQYGLSDDVAEDCLDVRLPDGHGSLSKKAIDRILPVLRDQGLIYYDAVKEAGLGEANLYDPYAALSDKLDYYGKALAGHVMGASGKFEDSDEKRYGTISNPTVHIALNQVRAVVNELIRLHGKPDEVVIEIGRDLPMGADGKRELERFQKEGRAKNERARDELKKLGHIDSRESRQKFQLWEQLAKEPVDRCCPFTGKMMSISDLFSDKVEIEHLLPFSLTLDDSMANKTVCFRQANRDKGNRAPFDAFGNSPAGYDWQEILGRSQNLPYAKRWRFLPDAMKRFEADGGFLERQLNDTRYISRYTTEYISTIIPKNKIWVVTGRLTSLLRGFWGLNSILRGHNTDDGTPAKKSRDDHRHHAIDAIVVGMTSRGLLQKVSKAARRSEDLDLTRLFEGRIDPWDGFRDEVKKHIDAIIVSHRPRKKSQGALHNDTAYGIVEHAENGASTVVHRVPITSLGKQSDIEKVRDPLIKSALLNETAGLSGKSFENAVQKWCADNSIKSLRIVETVSIIPITDKEGVAYKGYKGDGNAYMDIYQDPTSSKWKGEIVSRFDANQKGFIPSWQSQFPTARLIMRLRINDLLKLQDGEIEEIYRVQRLSGSKILMAPHTEANVDARDRDKNDTFKLTSKSPGKLQSASARKVHISPTGLIREG SEQ ID NO: 381MKNILGLDLGLSSIGWSVIRENSEEQELVAMGSRVVSLTAAELSSFTQGNGVSINSQRTQKRTQRKGYDRYQLRRTLLRNKLDTLGMLPDDSLSYLPKLQLWGLRAKAVTQRIELNELGRVLLHLNQKRGYKSIKSDFSGDKKITDYVKTVKTRYDELKEMRLTIGELFFRRLTENAFFRCKEQVYPRQAYVEEFDCIMNCQRKFYPDILTDETIRCIRDEIIYYQRPLKSCKYLVSRCEFEKRFYLNAAGKKTEAGPKVSPRTSPLFQVCRLWESINNIVVKDRRNEIVFISAEQRAALFDFLNTHEKLKGSDLLKLLGLSKTYGYRLGEQFKTGIQGNKTRVEIERALGNYPDKKRLLQFNLQEESSSMVNTETGEIIPMISLSFEQEPLYRLWHVLYSIDDREQLQSVLRQKFGIDDDEVLERLSAIDLVKAGFGNKSSKAIRRILPFLQLGMNYAEACEAAGYNHSNNYTKAENEARALLDRLPAIKKNELRQPVVEKILNQMVNVVNALMEKYGRFDEIRVELARELKQSKEERSNTYKSINKNQRENEQIAKRIVEYGVPTRSRIQKYKMWEESKHCCIYCGQPVDVGDFLRGFDVEVEHIIPKSLYFDDSFANKVCSCRSCNKEKNNRTAYDYMKSKGEKALSDYVERVNTMYTNNQISKTKWQNLLTPVDKISIDFIDRQLRESQYIARKAKEILTSICYNVTATSGSVTSFLRHVWGWDTVLHDLNFDRYKKVGLTEVIEVNHRGSVIRREQIKDWSKRFDHRHHAIDALTIACTKQAYIQRLNNLRAEEGPDFNKMSLERYIQSQPHFSVAQVREAVDRILVSFRAGKRAVTPGKRYIRKNRKRISVQSVLIPRGALSEESVYGVIHVWEKDEQGHVIQKQRAVMKYPITSINREMLDKEKVVDKRIHRILSGRLAQYNDNPKEAFAKPVYIDKECRIPIRTVRCFAKPAINTLVPLKKDDKGNPVAWVNPGNNHHVAIYRDEDGKYKERTVTFWEAVDRCRVGIPAIVTQPDTIWDNILQRNDISENVLESLPDVKWQFVLSLQQNEMFILGMNEEDYRYAMDQQDYALLNKYLYRVQKLSKSDYSFRYHTETSVEDKYDGKPNLKLSMQMGKLKRVSIKSLLGLNPHKVHISVLGEIKEI SSEQ ID NO: 382MAEKQHRWGLDIGTNSIGWAVIALIEGRPAGLVATGSRIFSDGRNPKDGSSLAVERRGPRQMRRRRDRYLRRRDRFMQALINVGLMPGDAAARKALVTENPYVLRQRGLDQALTLPEFGRALFHLNQRRGFQSNRKTDRATAKESGKVKNAIAAFRAGMGNARTVGEALARRLEDGRPVRARMVGQGKDEHYELYIAREWIAQEFDALWASQQRFHAEVLADAARDRLRAILLFQRKLLPVPVGKCFLEPNQPRVAAALPSAQRFRLMQELNHLRVMTLADKRERPLSFQERNDLLAQLVARPKCGFDMLRKIVFGANKEAYRFTIESERRKELKGCDTAAKLAKVNALGTRWQALSLDEQDRLVCLLLDGENDAVLADALREHYGLTDAQIDTLLGLSFEDGHMRLGRSALLRVLDALESGRDEQGLPLSYDKAVVAAGYPAHTADLENGERDALPYYGELLWRYTQDAPTAKNDAERKFGKIANPTVHIGLNQLRKLVNALIQRYGKPAQIVVELARNLKAGLEEKERIKKQQTANLERNERIRQKLQDAGVPDNRENRLRMRLFEELGQGNGLGTPCIYSGRQISLQRLFSNDVQVDHILPFSKTLDDSFANKVLAQHDANRYKGNRGPFEAFGANRDGYAWDDIRARAAVLPRNKRNRFAETAMQDWLHNETDFLARQLTDTAYLSRVARQYLTAICSKDDVYVSPGRLTAMLRAKWGLNRVLDGVMEEQGRPAVKNRDDHRHHAIDAVVIGATDRAMLQQVATLAARAREQDAERLIGDMPTPWPNFLEDVRAAVARCVVSHKPDHGPEGGLHNDTAYGIVAGPFEDGRYRVRHRVSLFDLKPGDLSNVRCDAPLQAELEPIFEQDDARAREVALTALAERYRQRKVWLEELMSVLPIRPRGEDGKTLPDSAPYKAYKGDSNYCYELFINERGRWDGELISTFRANQAAYRRFRNDPARFRRYTAGGRPLLMRLCINDYIAVGTAAERTIFRVVKMSENKITLAEHFEGGTLKQRDADKDDPFKYLTKSPGALRDLGARRIFVDLIGRVLDPGIKGD SEQ ID NO: 383MIERILGVDLGISSLGWAIVEYDKDDEAANRIIDCGVRLFTAAETPKKKESPNKARREARGIRRVLNRRRVRMNMIKKLFLRAGLIQDVDLDGEGGMFYSKANRADVWELRHDGLYRLLKGDELARVLIHIAKHRGYKFIGDDEADEESGKVKKAGVVLRQNFEAAGCRTVGEWLWRERGANGKKRNKHGDYEISIHRDLLVEEVEAIFVAQQEMRSTIATDALKAAYREIAFFVRPMQRIEKMVGHCTYFPEERRAPKSAPTAEKFIAISKFFSTVIIDNEGWEQKIIERKTLEELLDFAVSREKVEFRHLRKFLDLSDNEIFKGLHYKGKPKTAKKREATLFDPNEPTELEFDKVEAEKKAWISLRGAAKLREALGNEFYGRFVALGKHADEATKILTYYKDEGQKRRELTKLPLEAEMVERLVKIGFSDFLKLSLKAIRDILPAMESGARYDEAVLMLGVPHKEKSAILPPLNKTDIDILNPTVIRAFAQFRKVANALVRKYGAFDRVHFELAREINTKGEIEDIKESQRKNEKERKEAADWIAETSFQVPLTRKNILKKRLYIQQDGRCAYTGDVIELERLFDEGYCEIDHILPRSRSADDSFANKVLCLARANQQKTDRTPYEWFGHDAARWNAFETRTSAPSNRVRTGKGKIDRLLKKNFDENSEMAFKDRNLNDTRYMARAIKTYCEQYWVFKNSHTKAPVQVRSGKLTSVLRYQWGLESKDRESHTHHAVDAIIIAFSTQGMVQKLSEYYRFKETHREKERPKLAVPLANFRDAVEEATRIENTETVKEGVEVKRLLISRPPRARVTGQAHEQTAKPYPRIKQVKNKKKWRLAPIDEEKFESFKADRVASANQKNFYETSTIPRVDVYHKKGKFHLVPIYLHEMVLNELPNLSLGTNPEAMDENFFKFSIFKDDLISIQTQGTPKKPAKIIMGYFKNMHGANMVLSSINNSPCEGFTCTPVSMDKKHKDKCKLCPEENRIAGRCLQGFLDYWSQEGLRPPRKEFECDQGVKFALDVKKYQIDPLGYYYEVKQEKRLGTIPQMRSAKKLVKK SEQ ID NO: 384MNNSIKSKPEVTIGLDLGVGSVGWAIVDNETNIIHHLGSRLFSQAKTAEDRRSFRGVRRLIRRRKYKLKRFVNLIWKYNSYFGFKNKEDILNNYQEQQKLHNTVLNLKSEALNAKIDPKALSWILHDYLKNRGHFYEDNRDFNVYPTKELAKYFDKYGYYKGIIDSKEDNDNKLEEELTKYKFSNKHWLEEVKKVLSNQTGLPEKFKEEYESLFSYVRNYSEGPGSINSVSPYGIYHLDEKEGKVVQKYNNIWDKTIGKCNIFPDEYRAPKNSPIAMIFNEINELSTIRSYSIYLTGWFINQEFKKAYLNKLLDLLIKTNGEKPIDARQFKKLREETIAESIGKETLKDVENEEKLEKEDHKWKLKGLKLNTNGKIQYNDLSSLAKFVHKLKQHLKLDFLLEDQYATLDKINFLQSLFVYLGKHLRYSNRVDSANLKEFSDSNKLFERILQKQKDGLFKLFEQTDKDDEKILAQTHSLSTKAMLLAITRMTNLDNDEDNQKNNDKGWNFEAIKNFDQKFIDITKKNNNLSLKQNKRYLDDRFINDAILSPGVKRILREATKVFNAILKQFSEEYDVTKVVIELARELSEEKELENTKNYKKLIKKNGDKISEGLKALGISEDEIKDILKSPTKSYKFLLWLQQDHIDPYSLKEIAFDDIFTKTEKFEIDHIIPYSISFDDSSSNKLLVLAESNQAKSNQTPYEFISSGNAGIKWEDYEAYCRKFKDGDSSLLDSTQRSKKFAKMMKTDTSSKYDIGFLARNLNDTRYATIVFRDALEDYANNHLVEDKPMFKVVCINGSVTSFLRKNFDDSSYAKKDRDKNIHHAVDASIISIFSNETKTLFNQLTQFADYKLFKNTDGSWKKIDPKTGVVTEVTDENWKQIRVRNQVSEIAKVIEKYIQDSNIERKARYSRKIENKTNISLFNDTVYSAKKVGYEDQIKRKNLKTLDIHESAKENKNSKVKRQFVYRKLVNVSLLNNDKLADLFAEKEDILMYRANPWVINLAEQIFNEYTENKKIKSQNVFEKYMLDLTKEFPEKFSEFLVKSMLRNKTAIIYDDKKNIVHRIKRLKMLSSELKENKLSNVIIRSKNQSGTKLSYQDTINSLALMIMRSIDPTAKKQYIRVPLNTLNLHLGDHDFDLHNMDAYLKKPKFVKYLKANEIGDEYKPWRVLTSGTLLIHKKDKKLMYISSFQNLNDVIEIKNLIETEYKENDDSDSKKKKKANRFLMTLSTILNDYILLDAKDNFDILGLSKNRIDEILNSKLGLDKIVK SEQ ID NO: 385MGGSEVGTVPVTWRLGVDVGERSIGLAAVSYEEDKPKEILAAVSWIHDGGVGDERSGASRLALRGMARRARRLRRFRRARLRDLDMLLSELGWTPLPDKNVSPVDAWLARKRLAEEYVVDETERRRLLGYAVSHMARHRGWRNPWTTIKDLKNLPQPSDSWERTRESLEARYSVSLEPGTVGQWAGYLLQRAPGIRLNPTQQSAGRRAELSNATAFETRLRQEDVLWELRCIADVQGLPEDVVSNVIDAVFCQKRPSVPAERIGRDPLDPSQLRASRACLEFQEYRIVAAVANLRIRDGSGSRPLSLEERNAVIEALLAQTERSLTWSDIALEILKLPNESDLTSVPEEDGPSSLAYSQFAPFDETSARIAEFIAKNRRKIPTFAQWWQEQDRTSRSDLVAALADNSIAGEEEQELLVHLPDAELEALEGLALPSGRVAYSRLTLSGLTRVMRDDGVDVHNARKTCFGVDDNWRPPLPALHEATGHPVVDRNLAILRKFLSSATMRWGPPQSIVVELARGASESRERQAEEEAARRAHRKANDRIRAELRASGLSDPSPADLVRARLLELYDCHCMYCGAPISWENSELDHIVPRTDGGSNRHENLAITCGACNKEKGRRPFASWAETSNRVQLRDVIDRVQKLKYSGNMYWTRDEFSRYKKSVVARLKRRTSDPEVIQSIESTGYAAVALRDRLLSYGEKNGVAQVAVFRGGVTAEARRWLDISIERLFSRVAIFAQSTSTKRLDRRHHAVDAVVLTTLTPGVAKTLADARSRRVSAEFWRRPSDVNRHSTEEPQSPAYRQWKESCSGLGDLLISTAARDSIAVAAPLRLRPTGALHEETLRAFSEHTVGAAWKGAELRRIVEPEVYAAFLALTDPGGRFLKVSPSEDVLPADENRHIVLSDRVLGPRDRVKLFPDDRGSIRVRGGAAYIASFHHARVFRWGSSHSPSFALLRVSLADLAVAGLLRDGVDVFTAELPPWTPAWRYASIALVKAVESGDAKQVGWLVPGDELDFGPEGVTTAAGDLSMFLKYFPERHWVVTGFEDDKRINLKPAFLSAEQAEVLRTERSDRPDTLTEAGEILAQFFPRCWRATVAKVLCHPGLTVIRRTALGQPRWRRGHLPYSWRPWSADPWSGGTP SEQ ID NO: 386MHNKKNITIGFDLGIASIGWAIIDSTTSKILDWGTRTFEERKTANERRAFRSTRRNIRRKAYRNQRFINLILKYKDLFELKNISDIQRANKKDTENYEKIISFFTEIYKKCAAKHSNILEVKVKALDSKIEKLDLIWILHDYLENRGFFYDLEEENVADKYEGIEHPSILLYDFFKKNGFFKSNSSIPKDLGGYSFSNLQWVNEIKKLFEVQEINPEFSEKFLNLFTSVRDYAKGPGSEHSASEYGIFQKDEKGKVFKKYDNIWDKTIGKCSFFVEENRSPVNYPSYEIFNLLNQLINLSTDLKTTNKKIWQLSSNDRNELLDELLKVKEKAKIISISLKKNEIKKIILKDFGFEKSDIDDQDTIEGRKIIKEEPTTKLEVTKHLLATIYSHSSDSNWININNILEFLPYLDAICIILDREKSRGQDEVLKKLTEKNIFEVLKIDREKQLDFVKSIFSNTKFNFKKIGNFSLKAIREFLPKMFEQNKNSEYLKWKDEEIRRKWEEQKSKLGKTDKKTKYLNPRIFQDEIISPGTKNTFEQAVLVLNQIIKKYSKENIIDAIIIESPREKNDKKTIEEIKKRNKKGKGKTLEKLFQILNLENKGYKLSDLETKPAKLLDRLRFYHQQDGIDLYTLDKINIDQLINGSQKYEIEHIIPYSMSYDNSQANKILTEKAENLKKGKLIASEYIKRNGDEFYNKYYEKAKELFINKYKKNKKLDSYVDLDEDSAKNRFRFLTLQDYDEFQVEFLARNLNDTRYSTKLFYHALVEHFENNEFFTYIDENSSKHKVKISTIKGHVTKYFRAKPVQKNNGPNENLNNNKPEKIEKNRENNEHHAVDAAIVAIIGNKNPQIANLLTLADNKTDKKFLLHDENYKENIETGELVKIPKFEVDKLAKVEDLKKIIQEKYEEAKKHTAIKFSRKTRTILNGGLSDETLYGFKYDEKEDKYFKIIKKKLVTSKNEELKKYFENPFGKKADGKSEYTVLMAQSHLSEFNKLKEIFEKYNGFSNKTGNAFVEYMNDLALKEPTLKAEIESAKSVEKLLYYNFKPSDQFTYHDNINNKSFKRFYKNIRIIEYKSIPIKFKILSKHDGGKSFKDTLFSLYSLVYKVYENGKESYKSIPVTSQMRNFGIDEFDFLDENLYNKEKLDIYKSDFAKPIPVNCKPVFVLKKGSILKKKSLDIDDFKETKETEEGNYYFISTISKRFNRDTAYGLKPLKLSVVKPVAEPSTNPIFKEYIPIHLDELGNEYPVKIKEHTDDEKLMCTIK

Nucleic Acids Encoding Cas9 Molecules

Nucleic acids encoding the Cas9 molecules or Cas9 polypeptides, e.g., aneaCas9 molecule or eaCas9 polypeptide are provided herein.

Exemplary nucleic acids encoding Cas9 molecules are described in Cong etal., SCIENCE 2013, 399(6121):819-823; Wang et al., CELL 2013,153(4):910-918; Mali et al., SCIENCE 2013, 399(6121):823-826; Jinek etal., SCIENCE 2012, 337(6096):816-821. Another exemplary nucleic acidencoding a Cas9 molecule or Cas9 polypeptide is shown in FIG. 8.

In an embodiment, a nucleic acid encoding a Cas9 molecule or Cas9polypeptide can be a synthetic nucleic acid sequence. For example, thesynthetic nucleic acid molecule can be chemically modified, e.g., asdescribed in Section VIII. In an embodiment, the Cas9 mRNA has one ormore (e.g., all of the following properties: it is capped,polyadenylated, substituted with 5-methylcytidine and/or pseudouridine.

In addition, or alternatively, the synthetic nucleic acid sequence canbe codon optimized, e.g., at least one non-common codon or less-commoncodon has been replaced by a common codon. For example, the syntheticnucleic acid can direct the synthesis of an optimized messenger mRNA,e.g., optimized for expression in a mammalian expression system, e.g.,described herein.

In addition, or alternatively, a nucleic acid encoding a Cas9 moleculeor Cas9 polypeptide may comprise a nuclear localization sequence (NLS).Nuclear localization sequences are known in the art.

Provided below is an exemplary codon optimized nucleic acid sequenceencoding a Cas9 molecule of S. pyogenes.

(SEQ ID NO: 22) ATGGATAAAA AGTACAGCAT CGGGCTGGAC ATCGGTACAA ACTCAGTGGG GTGGGCCGTG ATTACGGACG AGTACAAGGT ACCCTCCAAA AAATTTAAAG TGCTGGGTAA CACGGACAGA CACTCTATAA AGAAAAATCT TATTGGAGCC TTGCTGTTCG ACTCAGGCGA GACAGCCGAA GCCACAAGGT TGAAGCGGAC CGCCAGGAGG CGGTATACCA GGAGAAAGAA CCGCATATGCTACCTGCAAG AAATCTTCAG TAACGAGATG GCAAAGGTTG ACGATAGCTT TTTCCATCGC CTGGAAGAAT CCTTTCTTGT TGAGGAAGAC AAGAAGCACG AACGGCACCC CATCTTTGGC AATATTGTCG ACGAAGTGGC ATATCACGAA AAGTACCCGA CTATCTACCA CCTCAGGAAG AAGCTGGTGG ACTCTACCGA TAAGGCGGAC CTCAGACTTA TTTATTTGGC ACTCGCCCAC ATGATTAAAT TTAGAGGACA TTTCTTGATC GAGGGCGACC TGAACCCGGA CAACAGTGAC GTCGATAAGC TGTTCATCCA ACTTGTGCAG ACCTACAATC AACTGTTCGA AGAAAACCCTATAAATGCTT CAGGAGTCGA CGCTAAAGCA ATCCTGTCCG CGCGCCTCTC AAAATCTAGA AGACTTGAGA ATCTGATTGC TCAGTTGCCC GGGGAAAAGA AAAATGGATT GTTTGGCAAC CTGATCGCCC TCAGTCTCGG ACTGACCCCA AATTTCAAAA GTAACTTCGA CCTGGCCGAA GACGCTAAGC TCCAGCTGTCCAAGGACACA TACGATGACG ACCTCGACAA TCTGCTGGCC CAGATTGGGG ATCAGTACGC CGATCTCTTT TTGGCAGCAA AGAACCTGTC CGACGCCATC CTGTTGAGCG ATATCTTGAG AGTGAACACC GAAATTACTA AAGCACCCCT TAGCGCATCT ATGATCAAGC GGTACGACGA GCATCATCAG GATCTGACCCTGCTGAAGGC TCTTGTGAGG CAACAGCTCC CCGAAAAATA CAAGGAAATC TTCTTTGACC AGAGCAAAAA CGGCTACGCT GGCTATATAG ATGGTGGGGC CAGTCAGGAG GAATTCTATA AATTCATCAA GCCCATTCTC GAGAAAATGG ACGGCACAGA GGAGTTGCTG GTCAAACTTA ACAGGGAGGA CCTGCTGCGGAAGCAGCGGA CCTTTGACAA CGGGTCTATC CCCCACCAGA TTCATCTGGG CGAACTGCAC GCAATCCTGA GGAGGCAGGA GGATTTTTAT CCTTTTCTTA AAGATAACCG CGAGAAAATA GAAAAGATTC TTACATTCAG GATCCCGTAC TACGTGGGAC CTCTCGCCCG GGGCAATTCA CGGTTTGCCT GGATGACAAG GAAGTCAGAG GAGACTATTA CACCTTGGAA CTTCGAAGAA GTGGTGGACA AGGGTGCATC TGCCCAGTCT TTCATCGAGC GGATGACAAA TTTTGACAAG AACCTCCCTA ATGAGAAGGT GCTGCCCAAA CATTCTCTGC TCTACGAGTA CTTTACCGTC TACAATGAAC TGACTAAAGT CAAGTACGTC ACCGAGGGAATGAGGAAGCC GGCATTCCTT AGTGGAGAAC AGAAGAAGGC GATTGTAGAC CTGTTGTTCA AGACCAACAG GAAGGTGACT GTGAAGCAAC TTAAAGAAGA CTACTTTAAG AAGATCGAAT GTTTTGACAG TGTGGAAATT TCAGGGGTTG AAGACCGCTT CAATGCGTCA TTGGGGACTT ACCATGATCT TCTCAAGATCATAAAGGACA AAGACTTCCT GGACAACGAA GAAAATGAGG ATATTCTCGA AGACATCGTC CTCACCCTGA CCCTGTTCGA AGACAGGGAA ATGATAGAAG AGCGCTTGAA AACCTATGCC CACCTCTTCG ACGATAAAGT TATGAAGCAG CTGAAGCGCA GGAGATACAC AGGATGGGGA AGATTGTCAA GGAAGCTGATCAATGGAATT AGGGATAAAC AGAGTGGCAA GACCATACTG GATTTCCTCA AATCTGATGG CTTCGCCAAT AGGAACTTCA TGCAACTGAT TCACGATGAC TCTCTTACCT TCAAGGAGGA CATTCAAAAG GCTCAGGTGA GCGGGCAGGG AGACTCCCTT CATGAACACA TCGCGAATTT GGCAGGTTCC CCCGCTATTAAAAAGGGCAT CCTTCAAACT GTCAAGGTGG TGGATGAATT GGTCAAGGTA ATGGGCAGAC ATAAGCCAGA AAATATTGTG ATCGAGATGG CCCGCGAAAA CCAGACCACA CAGAAGGGCC AGAAAAATAG TAGAGAGCGG ATGAAGAGGA TCGAGGAGGG CATCAAAGAG CTGGGATCTC AGATTCTCAA AGAACACCCC GTAGAAAACA CACAGCTGCA GAACGAAAAA TTGTACTTGT ACTATCTGCA GAACGGCAGA GACATGTACG TCGACCAAGA ACTTGATATT AATAGACTGT CCGACTATGA CGTAGACCAT ATCGTGCCCC AGTCCTTCCT GAAGGACGAC TCCATTGATA ACAAAGTCTT GACAAGAAGC GACAAGAACA GGGGTAAAAGTGATAATGTG CCTAGCGAGG AGGTGGTGAA AAAAATGAAG AACTACTGGC GACAGCTGCT TAATGCAAAG CTCATTACAC AACGGAAGTT CGATAATCTG ACGAAAGCAG AGAGAGGTGG CTTGTCTGAG TTGGACAAGG CAGGGTTTAT TAAGCGGCAG CTGGTGGAAA CTAGGCAGAT CACAAAGCAC GTGGCGCAGATTTTGGACAG CCGGATGAAC ACAAAATACG ACGAAAATGA TAAACTGATA CGAGAGGTCA AAGTTATCAC GCTGAAAAGC AAGCTGGTGT CCGATTTTCG GAAAGACTTC CAGTTCTACA AAGTTCGCGA GATTAATAAC TACCATCATG CTCACGATGC GTACCTGAAC GCTGTTGTCG GGACCGCCTT GATAAAGAAGTACCCAAAGC TGGAATCCGA GTTCGTATAC GGGGATTACA AAGTGTACGA TGTGAGGAAA ATGATAGCCA AGTCCGAGCA GGAGATTGGA AAGGCCACAG CTAAGTACTT CTTTTATTCT AACATCATGA ATTTTTTTAA GACGGAAATT ACCCTGGCCA ACGGAGAGAT CAGAAAGCGG CCCCTTATAG AGACAAATGGTGAAACAGGT GAAATCGTCT GGGATAAGGG CAGGGATTTC GCTACTGTGA GGAAGGTGCT GAGTATGCCA CAGGTAAATA TCGTGAAAAA AACCGAAGTA CAGACCGGAG GATTTTCCAA GGAAAGCATT TTGCCTAAAA GAAACTCAGA CAAGCTCATC GCCCGCAAGA AAGATTGGGA CCCTAAGAAA TACGGGGGATTTGACTCACC CACCGTAGCC TATTCTGTGC TGGTGGTAGC TAAGGTGGAA AAAGGAAAGT CTAAGAAGCT GAAGTCCGTG AAGGAACTCT TGGGAATCAC TATCATGGAA AGATCATCCT TTGAAAAGAA CCCTATCGAT TTCCTGGAGG CTAAGGGTTA CAAGGAGGTC AAGAAAGACC TCATCATTAA ACTGCCAAAA TACTCTCTCT TCGAGCTGGA AAATGGCAGG AAGAGAATGT TGGCCAGCGC CGGAGAGCTG CAAAAGGGAA ACGAGCTTGC TCTGCCCTCC AAATATGTTA ATTTTCTCTA TCTCGCTTCC CACTATGAAA AGCTGAAAGG GTCTCCCGAA GATAACGAGC AGAAGCAGCT GTTCGTCGAA CAGCACAAGC ACTATCTGGATGAAATAATC GAACAAATAA GCGAGTTCAG CAAAAGGGTT ATCCTGGCGG ATGCTAATTT GGACAAAGTA CTGTCTGCTT ATAACAAGCA CCGGGATAAG CCTATTAGGG AACAAGCCGA GAATATAATT CACCTCTTTA CACTCACGAA TCTCGGAGCC CCCGCCGCCT TCAAATACTT TGATACGACT ATCGACCGGAAACGGTATAC CAGTACCAAA GAGGTCCTCG ATGCCACCCT CATCCACCAG TCAATTACTG GCCTGTACGA AACACGGATC GACCTCTCTC AACTGGGCGG CGACTAG

Provided below is the corresponding amino acid sequence of a S. pyogenesCas9 molecule.

(SEQ ID NO: 23) MDKKYSIGLDIGTNSVGWAVITDEYKVPSKKFKVLGNTDRHSIKKNLIGALLFDSGETAEATRLKRTARRRYTRRKNRICYLQEIFSNEMAKVDDSFFHRLEESFLVEEDKKHERHPIFGNIVDEVAYHEKYPTIYHLRKKLVDSTDKADLRLIYLALAHMIKFRGHFLIEGDLNPDNSDVDKLFIQLVQTYNQLFEENPINASGVDAKAILSARLSKSRRLENLIAQLPGEKKNGLFGNLIALSLGLTPNFKSNFDLAEDAKLQLSKDTYDDDLDNLLAQIGDQYADLFLAAKNLSDAILLSDILRVNTEITKAPLSASMIKRYDEHHQDLTLLKALVRQQLPEKYKEIFFDQSKNGYAGYIDGGASQEEFYKFIKPILEKMDGTEELLVKLNREDLLRKQRTFDNGSIPHQIHLGELHAILRRQEDFYPFLKDNREKIEKILTFRIPYYVGPLARGNSRFAWMTRKSEETITPWNFEEVVDKGASAQSFIERMTNFDKNLPNEKVLPKHSLLYEYFTVYNELTKVKYVTEGMRKPAFLSGEQKKAIVDLLFKTNRKVIVKQLKEDYFKKIECFDSVEISGVEDRFNASLGTYHDLLKIIKDKDFLDNEENEDILEDIVLTLTLFEDREMIEERLKTYAHLFDDKVMKQLKRRRYTGWGRLSRKLINGIRDKQSGKTILDFLKSDGFANRNFMQLIHDDSLTFKEDIQKAQVSGQGDSLHEHIANLAGSPAIKKGILQTVKVVDELVKVMGRHKPENIVIEMARENQTTQKGQKNSRERMKRIEEGIKELGSQILKEHPVENTQLQNEKLYLYYLQNGRDMYVDQELDINRLSDYDVDHIVPQSFLKDDSIDNKVLTRSDKNRGKSDNVPSEEVVKKMKNYWRQLLNAKLITQRKFDNLTKAERGGLSELDKAGFIKRQLVETRQITKHVAQILDSRMNTKYDENDKLIREVKVITLKSKLVSDFRKDFQFYKVREINNYHHAHDAYLNAVVGTALIKKYPKLESEFVYGDYKVYDVRKMIAKSEQEIGKATAKYFFYSNIMNFFKTEITLANGEIRKRPLIETNGETGEIVWDKGRDFATVRKVLSMPQVNIVKKTEVQTGGFSKESILPKRNSDKLIARKKDWDPKKYGGFDSPTVAYSVLVVAKVEKGKSKKLKSVKELLGITIMERSSFEKNPIDFLEAKGYKEVKKDLIIKLPKYSLFELENGRKRMLASAGELQKGNELALPSKYVNFLYLASHYEKLKGSPEDNEQKQLFVEQHKHYLDEIIEQISEFSKRVILADANLDKVLSAYNKHRDKPIREQAENIIHLFTLTNLGAPAAFKYFDTTIDRKRYTSTKEVLDATLIHQSITGLYETRIDLSQLGGD*

Provided below is an exemplary codon optimized nucleic acid sequenceencoding a Cas9 molecule of N. meningitidis.

(SEQ ID NO: 24) ATGGCCGCCTTCAAGCCCAACCCCATCAACTACATCCTGGGCCTGGACATCGGCATCGCCAGCGTGGGCTGGGCCATGGTGGAGATCGACGAGGACGAGAACCCCATCTGCCTGATCGACCTGGGTGTGCGCGTGTTCGAGCGCGCTGAGGTGCCCAAGACTGGTGACAGTCTGGCTATGGCTCGCCGGCTTGCTCGCTCTGTTCGGCGCCTTACTCGCCGGCGCGCTCACCGCCTTCTGCGCGCTCGCCGCCTGCTGAAGCGCGAGGGTGTGCTGCAGGCTGCCGACTTCGACGAGAACGGCCTGATCAAGAGCCTGCCCAACACTCCTTGGCAGCTGCGCGCTGCCGCTCTGGACCGCAAGCTGACTCCTCTGGAGTGGAGCGCCGTGCTGCTGCACCTGATCAAGCACCGCGGCTACCTGAGCCAGCGCAAGAACGAGGGCGAGACCGCCGACAAGGAGCTGGGTGCTCTGCTGAAGGGCGTGGCCGACAACGCCCACGCCCTGCAGACTGGTGACTTCCGCACTCCTGCTGAGCTGGCCCTGAACAAGTTCGAGAAGGAGAGCGGCCACATCCGCAACCAGCGCGGCGACTACAGCCACACCTTCAGCCGCAAGGACCTGCAGGCCGAGCTGATCCTGCTGTTCGAGAAGCAGAAGGAGTTCGGCAACCCCCACGTGAGCGGCGGCCTGAAGGAGGGCATCGAGACCCTGCTGATGACCCAGCGCCCCGCCCTGAGCGGCGACGCCGTGCAGAAGATGCTGGGCCACTGCACCTTCGAGCCAGCCGAGCCCAAGGCCGCCAAGAACACCTACACCGCCGAGCGCTTCATCTGGCTGACCAAGCTGAACAACCTGCGCATCCTGGAGCAGGGCAGCGAGCGCCCCCTGACCGACACCGAGCGCGCCACCCTGATGGACGAGCCCTACCGCAAGAGCAAGCTGACCTACGCCCAGGCCCGCAAGCTGCTGGGTCTGGAGGACACCGCCTTCTTCAAGGGCCTGCGCTACGGCAAGGACAACGCCGAGGCCAGCACCCTGATGGAGATGAAGGCCTACCACGCCATCAGCCGCGCCCTGGAGAAGGAGGGCCTGAAGGACAAGAAGAGTCCTCTGAACCTGAGCCCCGAGCTGCAGGACGAGATCGGCACCGCCTTCAGCCTGTTCAAGACCGACGAGGACATCACCGGCCGCCTGAAGGACCGCATCCAGCCCGAGATCCTGGAGGCCCTGCTGAAGCACATCAGCTTCGACAAGTTCGTGCAGATCAGCCTGAAGGCCCTGCGCCGCATCGTGCCCCTGATGGAGCAGGGCAAGCGCTACGACGAGGCCTGCGCCGAGATCTACGGCGACCACTACGGCAAGAAGAACACCGAGGAGAAGATCTACCTGCCTCCTATCCCCGCCGACGAGATCCGCAACCCCGTGGTGCTGCGCGCCCTGAGCCAGGCCCGCAAGGTGATCAACGGCGTGGTGCGCCGCTACGGCAGCCCCGCCCGCATCCACATCGAGACCGCCCGCGAGGTGGGCAAGAGCTTCAAGGACCGCAAGGAGATCGAGAAGCGCCAGGAGGAGAACCGCAAGGACCGCGAGAAGGCCGCCGCCAAGTTCCGCGAGTACTTCCCCAACTTCGTGGGCGAGCCCAAGAGCAAGGACATCCTGAAGCTGCGCCTGTACGAGCAGCAGCACGGCAAGTGCCTGTACAGCGGCAAGGAGATCAACCTGGGCCGCCTGAACGAGAAGGGCTACGTGGAGATCGACCACGCCCTGCCCTTCAGCCGCACCTGGGACGACAGCTTCAACAACAAGGTGCTGGTGCTGGGCAGCGAGAACCAGAACAAGGGCAACCAGACCCCCTACGAGTACTTCAACGGCAAGGACAACAGCCGCGAGTGGCAGGAGTTCAAGGCCCGCGTGGAGACCAGCCGCTTCCCCCGCAGCAAGAAGCAGCGCATCCTGCTGCAGAAGTTCGACGAGGACGGCTTCAAGGAGCGCAACCTGAACGACACCCGCTACGTGAACCGCTTCCTGTGCCAGTTCGTGGCCGACCGCATGCGCCTGACCGGCAAGGGCAAGAAGCGCGTGTTCGCCAGCAACGGCCAGATCACCAACCTGCTGCGCGGCTTCTGGGGCCTGCGCAAGGTGCGCGCCGAGAACGACCGCCACCACGCCCTGGACGCCGTGGTGGTGGCCTGCAGCACCGTGGCCATGCAGCAGAAGATCACCCGCTTCGTGCGCTACAAGGAGATGAACGCCTTCGACGGTAAAACCATCGACAAGGAGACCGGCGAGGTGCTGCACCAGAAGACCCACTTCCCCCAGCCCTGGGAGTTCTTCGCCCAGGAGGTGATGATCCGCGTGTTCGGCAAGCCCGACGGCAAGCCCGAGTTCGAGGAGGCCGACACCCCCGAGAAGCTGCGCACCCTGCTGGCCGAGAAGCTGAGCAGCCGCCCTGAGGCCGTGCACGAGTACGTGACTCCTCTGTTCGTGAGCCGCGCCCCCAACCGCAAGATGAGCGGTCAGGGTCACATGGAGACCGTGAAGAGCGCCAAGCGCCTGGACGAGGGCGTGAGCGTGCTGCGCGTGCCCCTGACCCAGCTGAAGCTGAAGGACCTGGAGAAGATGGTGAACCGCGAGCGCGAGCCCAAGCTGTACGAGGCCCTGAAGGCCCGCCTGGAGGCCCACAAGGACGACCCCGCCAAGGCCTTCGCCGAGCCCTTCTACAAGTACGACAAGGCCGGCAACCGCACCCAGCAGGTGAAGGCCGTGCGCGTGGAGCAGGTGCAGAAGACCGGCGTGTGGGTGCGCAACCACAACGGCATCGCCGACAACGCCACCATGGTGCGCGTGGACGTGTTCGAGAAGGGCGACAAGTACTACCTGGTGCCCATCTACAGCTGGCAGGTGGCCAAGGGCATCCTGCCCGACCGCGCCGTGGTGCAGGGCAAGGACGAGGAGGACTGGCAGCTGATCGACGACAGCTTCAACTTCAAGTTCAGCCTGCACCCCAACGACCTGGTGGAGGTGATCACCAAGAAGGCCCGCATGTTCGGCTACTTCGCCAGCTGCCACCGCGGCACCGGCAACATCAACATCCGCATCCACGACCTGGACCACAAGATCGGCAAGAACGGCATCCTGGAGGGCATCGGCGTGAAGACCGCCCTGAGCTTCCAGAAGTACCAGATCGACGAGCTGGGCAAGGAGATCCGCCCCTGCCGCCTGAAGAAGCGC CCTCCTGTGCGCTAA

Provided below is the corresponding amino acid sequence of a N.meningitidis Cas9 molecule.

(SEQ ID NO: 25) MAAFKPNPINYILGLDIGIASVGWAMVEIDEDENPICLIDLGVRVFERAEVPKTGDSLAMARRLARSVRRLTRRRAHRLLRARRLLKREGVLQAADFDENGLIKSLPNTPWQLRAAALDRKLTPLEWSAVLLHLIKHRGYLSQRKNEGETADKELGALLKGVADNAHALQTGDFRTPAELALNKFEKESGHIRNQRGDYSHTFSRKDLQAELILLFEKQKEFGNPHVSGGLKEGIETLLMTQRPALSGDAVQKMLGHCTFEPAEPKAAKNTYTAERFIWLTKLNNLRILEQGSERPLTDTERATLMDEPYRKSKLTYAQARKLLGLEDTAFFKGLRYGKDNAEASTLMEMKAYHAISRALEKEGLKDKKSPLNLSPELQDEIGTAFSLFKTDEDITGRLKDRIQPEILEALLKHISFDKFVQISLKALRRIVPLMEQGKRYDEACAEIYGDHYGKKNTEEKIYLPPIPADEIRNPVVLRALSQARKVINGVVRRYGSPARIHIETAREVGKSFKDRKEIEKRQEENRKDREKAAAKFREYFPNFVGEPKSKDILKLRLYEQQHGKCLYSGKEINLGRLNEKGYVEIDHALPFSRTWDDSFNNKVLVLGSENQNKGNQTPYEYFNGKDNSREWQEFKARVETSRFPRSKKQRILLQKFDEDGFKERNLNDTRYVNRFLCQFVADRMRLTGKGKKRVFASNGQITNLLRGFWGLRKVRAENDRHHALDAVVVACSTVAMQQKITRFVRYKEMNAFDGKTIDKETGEVLHQKTHFPQPWEFFAQEVMIRVFGKPDGKPEFEEADTPEKLRTLLAEKLSSRPEAVHEYVTPLFVSRAPNRKMSGQGHMETVKSAKRLDEGVSVLRVPLTQLKLKDLEKMVNREREPKLYEALKARLEAHKDDPAKAFAEPFYKYDKAGNRTQQVKAVRVEQVQKTGVWVRNHNGIADNATMVRVDVFEKGDKYYLVPIYSWQVAKGILPDRAVVQGKDEEDWQLIDDSFNFKFSLHPNDLVEVITKKARMFGYFASCHRGIGNINIRIHDLDHKIGKNGILEGIGVKTALSFQKYQIDELGKEIRPCRLKKR PPVR*

Provided below is an amino acid sequence of a S. aureus Cas9 molecule.

(SEQ ID NO: 26) MKRNYILGLDIGITSVGYGIIDYETRDVIDAGVRLFKEANVENNEGRRSKRGARRLKRRRRHRIQRVKKLLFDYNLLTDHSELSGINPYEARVKGLSQKLSEEEFSAALLHLAKRRGVHNVNEVEEDTGNELSTKEQISRNSKALEEKYVAELQLERLKKDGEVRGSINRFKTSDYVKEAKQLLKVQKAYHQLDQSFIDTYIDLLETRRTYYEGPGEGSPFGWKDIKEWYEMLMGHCTYFFEELRSVKYAYNADLYNALNDLNNLVITRDENEKLEYYEKFQIIENVFKQKKKPTLKQIAKEILVNEEDIKGYRVTSTGKPEFTNLKVYHDIKDITARKEIIENAELLDQIAKILTIYQSSEDIQEELTNLNSELTQEEIEQISNLKGYTGTHNLSLKAINLILDELWHTNDNQIAIFNRLKLVPKKVDLSQQKEIPTTLVDDFILSPVVKRSFIQSIKVINAIIKKYGLPNDIIIELAREKNSKDAQKMINEMQKRNRQTNERIEEIIRTTGKENAKYLIEKIKLHDMQEGKCLYSLEAIPLEDLLNNPFNYEVDHIIPRSVSFDNSFNNKVLVKQEENSKKGNRTPFQYLSSSDSKISYETFKKHILNLAKGKGRISKTKKEYLLEERDINRFSVQKDFINRNLVDTRYATRGLMNLLRSYFRVNNLDVKVKSINGGFTSFLRRKWKFKKERNKGYKHHAEDALIIANADFIFKEWKKLDKAKKVMENQMFEEKQAESMPEIETEQEYKEIFITPHQIKHIKDFKDYKYSHRVDKKPNRELINDTLYSTRKDDKGNTLIVNNLNGLYDKDNDKLKKLINKSPEKLLMYHHDPQTYQKLKLIMEQYGDEKNPLYKYYEETGNYLTKYSKKDNGPVIKKIKYYGNKLNAHLDITDDYPNSRNKVVKLSLKPYRFDVYLDNGVYKFVTVKNLDVIKKENYYEVNSKCYEEAKKLKKISNQAEFIASFYNNDLIKINGELYRVIGVNNDLLNRIEVNMIDITYREYLENMNDKRPPRIIKTIASKTQSIKKYSTDILGNLYEVKSKKHPQIIKKG*

Provided below is an exemplary codon optimized nucleic acid sequenceencoding a Cas9 molecule of S. aureus Cas9.

(SEQ ID NO: 39) ATGAAAAGGAACTACATTCTGGGGCTGGACATCGGGATTACAAGCGTGGGGTATGGGATTATTGACTATGAAACAAGGGACGTGATCGACGCAGGCGTCAGACTGTTCAAGGAGGCCAACGTGGAAAACAATGAGGGACGGAGAAGCAAGAGGGGAGCCAGGCGCCTGAAACGACGGAGAAGGCACAGAATCCAGAGGGTGAAGAAACTGCTGTTCGATTACAACCTGCTGACCGACCATTCTGAGCTGAGTGGAATTAATCCTTATGAAGCCAGGGTGAAAGGCCTGAGTCAGAAGCTGTCAGAGGAAGAGTTTTCCGCAGCTCTGCTGCACCTGGCTAAGCGCCGAGGAGTGCATAACGTCAATGAGGTGGAAGAGGACACCGGCAACGAGCTGTCTACAAAGGAACAGATCTCACGCAATAGCAAAGCTCTGGAAGAGAAGTATGTCGCAGAGCTGCAGCTGGAACGGCTGAAGAAAGATGGCGAGGTGAGAGGGTCAATTAATAGGTTCAAGACAAGCGACTACGTCAAAGAAGCCAAGCAGCTGCTGAAAGTGCAGAAGGCTTACCACCAGCTGGATCAGAGCTTCATCGATACTTATATCGACCTGCTGGAGACTCGGAGAACCTACTATGAGGGACCAGGAGAAGGGAGCCCCTTCGGATGGAAAGACATCAAGGAATGGTACGAGATGCTGATGGGACATTGCACCTATTTTCCAGAAGAGCTGAGAAGCGTCAAGTACGCTTATAACGCAGATCTGTACAACGCCCTGAATGACCTGAACAACCTGGTCATCACCAGGGATGAAAACGAGAAACTGGAATACTATGAGAAGTTCCAGATCATCGAAAACGTGTTTAAGCAGAAGAAAAAGCCTACACTGAAACAGATTGCTAAGGAGATCCTGGTCAACGAAGAGGACATCAAGGGCTACCGGGTGACAAGCACTGGAAAACCAGAGTTCACCAATCTGAAAGTGTATCACGATATTAAGGACATCACAGCACGGAAAGAAATCATTGAGAACGCCGAACTGCTGGATCAGATTGCTAAGATCCTGACTATCTACCAGAGCTCCGAGGACATCCAGGAAGAGCTGACTAACCTGAACAGCGAGCTGACCCAGGAAGAGATCGAACAGATTAGTAATCTGAAGGGGTACACCGGAACACACAACCTGTCCCTGAAAGCTATCAATCTGATTCTGGATGAGCTGTGGCATACAAACGACAATCAGATTGCAATCTTTAACCGGCTGAAGCTGGTCCCAAAAAAGGTGGACCTGAGTCAGCAGAAAGAGATCCCAACCACACTGGTGGACGATTTCATTCTGTCACCCGTGGTCAAGCGGAGCTTCATCCAGAGCATCAAAGTGATCAACGCCATCATCAAGAAGTACGGCCTGCCCAATGATATCATTATCGAGCTGGCTAGGGAGAAGAACAGCAAGGACGCACAGAAGATGATCAATGAGATGCAGAAACGAAACCGGCAGACCAATGAACGCATTGAAGAGATTATCCGAACTACCGGGAAAGAGAACGCAAAGTACCTGATTGAAAAAATCAAGCTGCACGATATGCAGGAGGGAAAGTGTCTGTATTCTCTGGAGGCCATCCCCCTGGAGGACCTGCTGAACAATCCATTCAACTACGAGGTCGATCATATTATCCCCAGAAGCGTGTCCTTCGACAATTCCTTTAACAACAAGGTGCTGGTCAAGCAGGAAGAGAACTCTAAAAAGGGCAATAGGACTCCTTTCCAGTACCTGTCTAGTTCAGATTCCAAGATCTCTTACGAAACCTTTAAAAAGCACATTCTGAATCTGGCCAAAGGAAAGGGCCGCATCAGCAAGACCAAAAAGGAGTACCTGCTGGAAGAGCGGGACATCAACAGATTCTCCGTCCAGAAGGATTTTATTAACCGGAATCTGGTGGACACAAGATACGCTACTCGCGGCCTGATGAATCTGCTGCGATCCTATTTCCGGGTGAACAATCTGGATGTGAAAGTCAAGTCCATCAACGGCGGGTTCACATCTTTTCTGAGGCGCAAATGGAAGTTTAAAAAGGAGCGCAACAAAGGGTACAAGCACCATGCCGAAGATGCTCTGATTATCGCAAATGCCGACTTCATCTTTAAGGAGTGGAAAAAGCTGGACAAAGCCAAGAAAGTGATGGAGAACCAGATGTTCGAAGAGAAGCAGGCCGAATCTATGCCCGAAATCGAGACAGAACAGGAGTACAAGGAGATTTTCATCACTCCTCACCAGATCAAGCATATCAAGGATTTCAAGGACTACAAGTACTCTCACCGGGTGGATAAAAAGCCCAACAGAGAGCTGATCAATGACACCCTGTATAGTACAAGAAAAGACGATAAGGGGAATACCCTGATTGTGAACAATCTGAACGGACTGTACGACAAAGATAATGACAAGCTGAAAAAGCTGATCAACAAAAGTCCCGAGAAGCTGCTGATGTACCACCATGATCCTCAGACATATCAGAAACTGAAGCTGATTATGGAGCAGTACGGCGACGAGAAGAACCCACTGTATAAGTACTATGAAGAGACTGGGAACTACCTGACCAAGTATAGCAAAAAGGATAATGGCCCCGTGATCAAGAAGATCAAGTACTATGGGAACAAGCTGAATGCCCATCTGGACATCACAGACGATTACCCTAACAGTCGCAACAAGGTGGTCAAGCTGTCACTGAAGCCATACAGATTCGATGTCTATCTGGACAACGGCGTGTATAAATTTGTGACTGTCAAGAATCTGGATGTCATCAAAAAGGAGAACTACTATGAAGTGAATAGCAAGTGCTACGAAGAGGCTAAAAAGCTGAAAAAGATTAGCAACCAGGCAGAGTTCATCGCCTCCTTTTACAACAACGACCTGATTAAGATCAATGGCGAACTGTATAGGGTCATCGGGGTGAACAATGATCTGCTGAACCGCATTGAAGTGAATATGATTGACATCACTTACCGAGAGTATCTGGAAAACATGAATGATAAGCGCCCCCCTCGAATTATCAAAACAATTGCCTCTAAGACTCAGAGTATCAAAAAGTACTCAACCGACATTCTGGGAAACCTGTATGAGGTGAAGAGCAAAAAGCACCCTCAGATTATCAAAAAGGGC

If any of the above Cas9 sequences are fused with a peptide orpolypeptide at the C-terminus, it is understood that the stop codon willbe removed.

Other Cas Molecules and Cas9 Polypeptides

Various types of Cas molecules or Cas9 polypeptides can be used topractice the inventions disclosed herein. In some embodiments, Casmolecules of Type II Cas systems are used. In other embodiments, Casmolecules of other Cas systems are used. For example, Type I or Type IIICas molecules may be used. Exemplary Cas molecules (and Cas systems) aredescribed, e.g., in Haft et al., PLOS COMPUTATIONAL BIOLOGY 2005, 1(6):e60 and Makarova et al., NATURE REVIEW MICROBIOLOGY 2011, 9:467-477, thecontents of both references are incorporated herein by reference intheir entirety. Exemplary Cas molecules (and Cas systems) are also shownin Table 55.

TABLE 55 Cas Systems Structure Families of (and encoded super- SystemName protein family) type from (PDB of Gene or Haft acces- encodedRepresent- name^(‡) subtype et al.^(§) sions)^(¶) protein^(#)** ativescas1 Type I cas1 3GOD, COG1518 SERP2463, Type II 3LFX SPy1047 Type IIIand and ygbT 2YZS cas2 Type I cas2 2IVY, COG1343 SERP2462, Type II 218Eand SPy1048, Type III and COG3512 SPy1723 3EXC (N-terminal domain) andygbF cas3′ Type I^(‡‡) cas3 NA COG1203 APE1232 and ygcB cas3″ Subtype NANA COG2254 APE1231 I-A and Subtype BH0336 I-B cas4 Subtype cas4 NACOG1468 APE1239 I-A and and Subtype csa1 BH0340 I-B Subtype I-C SubtypeI-D Subtype II-B cas5 Subtype cas5a, 3KG4 COG1688 APE1234, I-A cas5d,(RAMP) BH0337, Subtype cas5e, devS I-B cas5h, and Subtype cas5p, ygcII-C cas5t Subtype and I-E cmx5 cas6 Subtype cas6 3I4H COG1583 PF1131 I-Aand and and Subtype cmx6 COG5551 slr7014 I-B (RAMP) Subtype I-D SubtypeIII-A Subtype III-B cas6e Subtype cse3 1WJ9 (RAMP) ygcH I-E cas6fSubtype csy4 2XLJ (RAMP) y1727 I-F cas7 Subtype csa2, NA COG1857 devRI-A csd2, and and ygcJ Subtype cse4, COG3649 I-B csh2, (RAMP) Subtypecsp1 I-C and Subtype cst2 I-E cas8a1 Subtype cmx1, NA BH0338-likeLA3191^(§§) I-A^(‡‡) cst1, and csx8, PG2018^(§§) csx13 and CXXC- CXXcas8a2 Subtype csa4 NA PH0918 AF0070, I-A^(‡‡) and AF1873, csx9 MJ0385,PF0637, PH0918 and SSO1401 cas8b Subtype csh1 NA BH0338-like MTH1090I-B^(‡‡) and and TM1802 TM1802 cas8c Subtype csd1 NA BH0338-like BH0338I-C^(‡‡) and csp2 cas9 Type csn1 NA COG3513 FTN_0757 II^(‡‡) and andcsx12 SPy1046 cas10 Type cmr2, NA COG1353 MTH326, III^(‡‡) csm1Rv2823c^(§§) and and csx11 TM1794^(§§) cas10d Subtype csc3 NA COG1353slr7011 I-D^(‡‡) csy1 Subtype csy1 NA y1724-like y1724 I-F^(‡‡) csy2Subtype csy2 NA (RAMP) y1725 I-F csy3 Subtype csy3 NA (RAMP) y1726 I-Fcse1 Subtype cse1 NA YgcL-like ygcL I-E^(‡‡) cse2 Subtype cse2 2ZCAYgcK-like ygcK I-E csc1 Subtype csc1 NA alr1563-like alr1563 I-D (RAMP)csc2 Subtype csc1 NA COG1337 slr7012 I-D and (RAMP) csc2 csa5 Subtypecsa5 NA AF1870 AF1870, I-A MJ0380, PF0643 and SS01398 csn2 Subtype csn2NA SPy1049-like SPy1049 II-A csm2 Subtype csm2 NA COG1421 MTH1081III-A^(‡‡) and SERP2460 csm3 Subtype csc2 NA COG1337 MTH1080 III-A and(RAMP) and csm3 SERP2459 csm4 Subtype csm4 NA COG1567 MTH1079 III-A(RAMP) and SERP2458 csm5 Subtype csm5 NA COG1332 MTH1078 III-A (RAMP)and SERP2457 csm6 Subtype APE2256 2WTE COG1517 APE2256 III-A and andcsm6 SSO1445 cmr1 Subtype cmr1 NA COG1367 PF1130 III-B (RAMP) cmr3Subtype cmr3 NA COG1769 PF1128 III-B (RAMP) cmr4 Subtype cmr4 NA COG1336PF1126 III-B (RAMP) cmr5 Subtype cmr5 2ZOP COG3337 MTH324 III-B^(‡‡) andand 2OEB PF1125 cmr6 Subtype cmr6 NA COG1604 PF1124 III-B (RAMP) csb1Subtype GSU0053 NA (RAMP) Balac_1306 I-U and GSU0053 csb2 Subtype NA NA(RAMP) Balac_1305 I-U^(§§) and GSU0054 csb3 Subtype NA NA (RAMP)Balac_1303^(§§) I-U csx17 Subtype NA NA NA Btus_2683 I-U csx14 SubtypeNA NA NA GSU0052 I-U csx10 Subtype csx10 NA (RAMP) Caur_2274 I-U csx16Subtype VVA1548 NA NA VVA1548 III-U csaX Subtype csaX NA NA SSO1438III-U csx3 Subtype csx3 NA NA AF1864 III-U csx1 Subtype csa3, 1XMXCOG1517 MJ1666, III-U csx1, and and NE0113, csx2, 2I71 COG4006 PF1127DXTHG, and NE0113 TM1812 and TIGR02710 csx15 Un- NA NA TTE2665 TTE2665known csf1 Type U csf1 NA NA AFE_1038 csf2 Type U csf2 NA (RAMP)AFE_1039 csf3 Type U csf3 NA (RAMP) AFE_1040 csf4 Type U csf4 NA NAAFE_1037

IV. Functional Analysis of Candidate Molecules

Candidate Cas9 molecules, candidate gRNA molecules, candidate Cas9molecule/gRNA molecule complexes, can be evaluated by art-known methodsor as described herein. For example, exemplary methods for evaluatingthe endonuclease activity of Cas9 molecule are described, e.g., in Jineket al., SCIENCE 2012, 337(6096):816-821.

Binding and Cleavage Assay: Testing the Endonuclease Activity of Cas9Molecule

The ability of a Cas9 molecule/gRNA molecule complex to bind to andcleave a target nucleic acid can be evaluated in a plasmid cleavageassay. In this assay, synthetic or in vitro-transcribed gRNA molecule ispre-annealed prior to the reaction by heating to 95° C. and slowlycooling down to room temperature. Native or restrictiondigest-linearized plasmid DNA (300 ng (˜8 nM)) is incubated for 60 minat 37° C. with purified Cas9 protein molecule (50-500 nM) and gRNA(50-500 nM, 1:1) in a Cas9 plasmid cleavage buffer (20 mM HEPES pH 7.5,150 mM KCl, 0.5 mM DTT, 0.1 mM EDTA) with or without 10 mM MgCl₂. Thereactions are stopped with 5×DNA loading buffer (30% glycerol, 1.2% SDS,250 mM EDTA), resolved by a 0.8 or 1% agarose gel electrophoresis andvisualized by ethidium bromide staining. The resulting cleavage productsindicate whether the Cas9 molecule cleaves both DNA strands, or only oneof the two strands. For example, linear DNA products indicate thecleavage of both DNA strands. Nicked open circular products indicatethat only one of the two strands is cleaved.

Alternatively, the ability of a Cas9 molecule/gRNA molecule complex tobind to and cleave a target nucleic acid can be evaluated in anoligonucleotide DNA cleavage assay. In this assay, DNA oligonucleotides(10 pmol) are radiolabeled by incubating with 5 units T4 polynucleotidekinase and ˜3-6 pmol (˜20-40 mCi) [γ-32P]-ATP in 1×T4 polynucleotidekinase reaction buffer at 37° C. for 30 min, in a 50 μL reaction. Afterheat inactivation (65° C. for 20 min), reactions are purified through acolumn to remove unincorporated label. Duplex substrates (100 nM) aregenerated by annealing labeled oligonucleotides with equimolar amountsof unlabeled complementary oligonucleotide at 95° C. for 3 min, followedby slow cooling to room temperature. For cleavage assays, gRNA moleculesare annealed by heating to 95° C. for 30 s, followed by slow cooling toroom temperature. Cas9 (500 nM final concentration) is pre-incubatedwith the annealed gRNA molecules (500 nM) in cleavage assay buffer (20mM HEPES pH 7.5, 100 mM KCl, 5 mM MgCl2, 1 mM DTT, 5% glycerol) in atotal volume of 9 μl. Reactions are initiated by the addition of 1 μltarget DNA (10 nM) and incubated for 1 h at 37° C. Reactions arequenched by the addition of 20 μl of loading dye (5 mM EDTA, 0.025% SDS,5% glycerol in formamide) and heated to 95° C. for 5 min. Cleavageproducts are resolved on 12% denaturing polyacrylamide gels containing 7M urea and visualized by phosphorimaging. The resulting cleavageproducts indicate that whether the complementary strand, thenon-complementary strand, or both, are cleaved.

One or both of these assays can be used to evaluate the suitability of acandidate gRNA molecule or candidate Cas9 molecule.

Binding Assay: Testing the Binding of Cas9 Molecule to Target DNA

Exemplary methods for evaluating the binding of Cas9 molecule to targetDNA are described, e.g., in Jinek et al., SCIENCE 2012;337(6096):816-821.

For example, in an electrophoretic mobility shift assay, target DNAduplexes are formed by mixing of each strand (10 nmol) in deionizedwater, heating to 95° C. for 3 min and slow cooling to room temperature.All DNAs are purified on 8% native gels containing 1×TBE. DNA bands arevisualized by UV shadowing, excised, and eluted by soaking gel pieces inDEPC-treated H₂O. Eluted DNA is ethanol precipitated and dissolved inDEPC-treated H₂O. DNA samples are 5′ end labeled with [γ-32P]-ATP usingT4 polynucleotide kinase for 30 min at 37° C. Polynucleotide kinase isheat denatured at 65° C. for 20 min, and unincorporated radiolabel isremoved using a column. Binding assays are performed in buffercontaining 20 mM HEPES pH 7.5, 100 mM KCl, 5 mM MgCl₂, 1 mM DTT and 10%glycerol in a total volume of 10 μl. Cas9 protein molecule is programmedwith equimolar amounts of pre-annealed gRNA molecule and titrated from100 pM to 1 μM. Radiolabeled DNA is added to a final concentration of 20pM. Samples are incubated for 1 h at 37° C. and resolved at 4° C. on an8% native polyacrylamide gel containing 1×TBE and 5 mM MgCl₂. Gels aredried and DNA visualized by phosphorimaging.

Differential Scanning Flourimetry (DSF)

The thermostability of Cas9-gRNA ribonucleoprotein (RNP) complexes canbe measured via DSF. This technique measures the thermostability of aprotein, which can increase under favorable conditions such as theaddition of a binding RNA molecule, e.g., a gRNA.

The assay is performed using two different protocols, one to test thebest stoichiometric ratio of gRNA:Cas9 protein and another to determinethe best solution conditions for RNP formation.

To determine the best solution to form RNP complexes, a 2 uM solution ofCas9 in water+10×SYPRO Orange® (Life Techonologies cat #S-6650) anddispensed into a 384 well plate. An equimolar amount of gRNA diluted insolutions with varied pH and salt is then added. After incubating atroom temperature for 10′ and brief centrifugation to remove any bubbles,a Bio-Rad CFX384™ Real-Time System C1000 Touch™ Thermal Cycler with theBio-Rad CFX Manager software is used to run a gradient from 20° C. to90° C. with a 1° increase in temperature every 10 seconds.

The second assay consists of mixing various concentrations of gRNA with2 uM Cas9 in optimal buffer from assay 1 above and incubating at RT for10′ in a 384 well plate. An equal volume of optimal buffer+10×SYPROOrange® (Life Techonologies cat #S-6650) is added and the plate sealedwith Microseal® B adhesive (MSB-1001). Following brief centrifugation toremove any bubbles, a Bio-Rad CFX384™ Real-Time System C1000 Touch™Thermal Cycler with the Bio-Rad CFX Manager software is used to run agradient from 20° C. to 90° C. with a 1° increase in temperature every10 seconds.

V. Genome Editing Approaches

Mutations in the CFTR gene may be corrected using one of the approachesor pathways described herein, e.g., using HDR and/or NHEJ. In anembodiment, a mutation in the CFTR gene is corrected by homologydirected repair (HDR) using a template nucleic acid (see Section V.1).

Also described herein are methods for targeted knockout of one or bothalleles of the SCNN1A gene using NHEJ (see Section V.2).

V.1 HDR Repair, HDR Mediated Knockin and Template Nucleic Acids

As described herein, nuclease-induced homology directed repair (HDR) canbe used to alter a target sequence and correct (e.g., repair or edit) amutation in the genome. While not wishing to be bound by theory, it isbelieved that alteration of the target sequence occurs byhomology-directed repair (HDR) with a donor template or template nucleicacid. For example, the donor template or the template nucleic acidprovides for alteration of the target sequence. It is contemplated thata plasmid donor can be used as a template for homologous recombination.It is further contemplated that a single stranded donor template can beused as a template for alteration of the target sequence by alternatemethods of homology directed repair (e.g., single strand annealing)between the target sequence and the donor template. Donortemplate-effected alteration of a target sequence depends on cleavage bya Cas9 molecule. Cleavage by Cas9 can comprise a double strand break orone, two or more single strand breaks.

Mutations that can be corrected by HDR using a template nucleic acidinclude point mutations. In an embodiment, a point mutation can becorrected by either a single double-strand break or two single strandbreaks. In an embodiment, a point mutation can be corrected by (1) asingle double-strand break, (2) two single strand breaks, (3) two doublestranded breaks with a break occurring on each side of the targetsequence, or (4) four single stranded breaks with a pair of singlestranded breaks occurring on each side of the target sequence.

Mutations in the CFTR gene that can be corrected (e.g., altered) by HDRwith a template nucleic acid include deletion mutation at F508 (F508del)or point mutation at G551, e.g., G551D.

Double Strand Break Mediated Correction or Knockin

In an embodiment, double strand cleavage is effected by a Cas9 moleculehaving cleavage activity associated with an HNH-like domain and cleavageactivity associated with an RuvC-like domain, e.g., an N-terminalRuvC-like domain, e.g., a wild type Cas9. Such embodiments require onlya single gRNA.

Single Strand Break Mediated Correction or Knockin

In other embodiments, two single strand breaks, or nicks, are effectedby a Cas9 molecule having nickase activity, e.g., cleavage activityassociated with an HNH-like domain or cleavage activity associated withan N-terminal RuvC-like domain. Such embodiments require two gRNAs, onefor placement of each single strand break. In an embodiment, the Cas9molecule having nickase activity cleaves the strand to which the gRNAhybridizes, but not the strand that is complementary to the strand towhich the gRNA hybridizes. In an embodiment, the Cas9 molecule havingnickase activity does not cleave the strand to which the gRNAhybridizes, but rather cleaves the strand that is complementary to thestrand to which the gRNA hybridizes.

In an embodiment, the nickase has HNH activity, e.g., a Cas9 moleculehaving the RuvC activity inactivated, e.g., a Cas9 molecule having amutation at D10, e.g., the D10A mutation. D10A inactivates RuvC;therefore, the Cas9 nickase has (only) HNH activity and will cut on thestrand to which the gRNA hybridizes (e.g., the complementary strand,which does not have the NGG PAM on it). In other embodiments, a Cas9molecule having an H840, e.g., an H840A, mutation can be used as anickase. H840A inactivates HNH; therefore, the Cas9 nickase has (only)RuvC activity and cuts on the non-complementary strand (e.g., the strandthat has the NGG PAM and whose sequence is identical to the gRNA). Inother embodiments, a Cas9 molecule having an N863, e.g., an N863Amutation can be used as a nickase. N863A inactivates HNH therefore theCas9 nickase has (only) RuvC activity and cuts on the non-complementarystrand (the strand that has the PAM and whose sequence is identical tothe gRNA).

In an embodiment, in which a nickase and two gRNAs are used to positiontwo single strand nicks, one nick is on the +strand and one nick is onthe −strand of the target nucleic acid. The PAMs are outwardly facing.The gRNAs can be selected such that the gRNAs are separated by, fromabout 0-50, 0-100, or 0-200 nucleotides. In an embodiment, there is nooverlap between the target sequence that is complementary to thetargeting domains of the two gRNAs. In an embodiment, the gRNAs do notoverlap and are separated by as much as 50, 100, or 200 nucleotides. Inan embodiment, the use of two gRNAs can increase specificity, e.g., bydecreasing off-target binding (Ran et al., Cell 2013; 154(6):1380-1389).

In an embodiment, a single nick can be used to induce HDR. It iscontemplated herein that a single nick can be used to increase the ratioof HR to NHEJ at a given cleavage site.

Placement of Double Strand or Single Strand Breaks Relative to theTarget Position

The double strand break or single strand break in one of the strandsshould be sufficiently close to the target position such that correctionoccurs. In an embodiment, the distance is not more than 50, 100, 200,300, 350 or 400 nucleotides. While not wishing to be bound by theory, itis believed that the break should be sufficiently close to the targetsequence such that the break is within the region that is subject toexonuclease-mediated removal during end resection. If the distancebetween the target sequence and a break is too great, the mutation maynot be included in the end resection and, therefore, may not becorrected, as donor sequence may only be used to correct sequence withinthe end resection region.

In an embodiment, in which a gRNA (unimolecular (or chimeric) or modulargRNA) and Cas9 nuclease induce a double strand break for the purpose ofinducing HDR-mediated correction, the cleavage site is between 0 to 200bp (e.g., 0 to 175, 0 to 150, 0 to 125, 0 to 100, 0 to 75, 0 to 50, 0 to25, 25 to 200, 25 to 175, 25 to 150, 25 to 125, 25 to 100, 25 to 75, 25to 50, 50 to 200, 50 to 175, 50 to 150, 50 to 125, 50 to 100, 50 to 75,75 to 200, 75 to 175, 75 to 150, 75 to 125, 75 to 100 bp) away from thetarget position. In an embodiment, the cleavage site is between 0 to 100bp (e.g., 0 to 75, 0 to 50, 0 to 25, 25 to 100, 25 to 75, 25 to 50, 50to 100, 50 to 75 or 75 to 100 bp) away from the target position.

In an embodiment, in which two gRNAs (independently, unimolecular (orchimeric) or modular gRNA) complexing with Cas9 nickases induce twosingle strand breaks for the purpose of inducing HDR-mediatedcorrection, the closer nick is between 0 to 200 bp (e.g., 0 to 175, 0 to150, 0 to 125, 0 to 100, 0 to 75, 0 to 50, 0 to 25, 25 to 200, 25 to175, 25 to 150, 25 to 125, 25 to 100, 25 to 75, 25 to 50, 50 to 200, 50to 175, 50 to 150, 50 to 125, 50 to 100, 50 to 75, 75 to 200, 75 to 175,75 to 150, 75 to 125, 75 to 100 bp) away from the target position andthe two nicks will ideally be within 25 to 55 bp of each other (e.g., 25to 50, 25 to 45, 25 to 40, 25 to 35, 25 to 30, 30 to 55, 30 to 50, 30 to45, 30 to 40, 30 to 35, 35 to 55, 35 to 50, 35 to 45, 35 to 40, 40 to55, 40 to 50, 40 to 45 bp) and no more than 100 bp away from each other(e.g., no more than 90, 80, 70, 60, 50, 40, 30, 20, 10 or 5 bp away fromeach other). In an embodiment, the cleavage site is between 0 to 100 bp(e.g., 0 to 75, 0 to 50, 0 to 25, 25 to 100, 25 to 75, 25 to 50, 50 to100, 50 to 75 or 75 to 100 bp) away from the target position.

In one embodiment, two gRNAs, e.g., independently, unimolecular (orchimeric) or modular gRNA, are configured to position a double-strandbreak on both sides of a target position. In an alternate embodiment,three gRNAs, e.g., independently, unimolecular (or chimeric) or modulargRNA, are configured to position a double strand break (i.e., one gRNAcomplexes with a cas9 nuclease) and two single strand breaks or pairedsingle stranded breaks (i.e., two gRNAs complex with Cas9 nickases) oneither side of the target position. In another embodiment, four gRNAs,e.g., independently, unimolecular (or chimeric) or modular gRNA, areconfigured to generate two pairs of single stranded breaks (i.e., twopairs of two gRNAs complex with Cas9 nickases) on either side of thetarget position. The double strand break(s) or the closer of the twosingle strand nicks in a pair will ideally be within 0-500 bp of thetarget position (e.g., no more than 450, 400, 350, 300, 250, 200, 150,100, 50 or 25 bp from the target position). When nickases are used, thetwo nicks in a pair are within 25-55 bp of each other (e.g., between 25to 50, 25 to 45, 25 to 40, 25 to 35, 25 to 30, 50 to 55, 45 to 55, 40 to55, 35 to 55, 30 to 55, 30 to 50, 35 to 50, 40 to 50, 45 to 50, 35 to45, or 40 to 45 bp) and no more than 100 bp away from each other (e.g.,no more than 90, 80, 70, 60, 50, 40, 30, 20 or 10 bp). In an embodiment,the gRNAs are configured to place a single strand break on either sideof the target position. In an embodiment, the gRNAs are configured toplace a single strand break on the same side (either 5′ or 3′) of thetarget position.

Regardless of whether a break is a double strand or a single strandbreak, the gRNA should be configured to avoid unwanted target chromosomeelements, such as repeated elements, e.g., an Alu repeat, in the targetdomain. In addition, a break, whether a double strand or a single strandbreak, should be sufficiently distant from any sequence that should notbe altered. For example, cleavage sites positioned within introns shouldbe sufficiently distant from any intron/exon border, or naturallyoccurring splice signal, to avoid alteration of the exonic sequence orunwanted splicing events.

Length of the Homology Arms

The homology arm should extend at least as far as the region in whichend resection may occur, e.g., in order to allow the resected singlestranded overhang to find a complementary region within the donortemplate. The overall length could be limited by parameters such asplasmid size or viral packaging limits. In an embodiment, a homology armdoes not extend into repeated elements, e.g., Alu repeats, LINE repeats.

Exemplary homology arm lengths include a least 50, 100, 250, 500, 750 or1000 nucleotides.

Target position, as used herein, refers to a site on a target nucleicacid (e.g., the chromosome) that is modified by a Cas9molecule-dependent process. For example, the target position can be amodified Cas9 molecule cleavage of the target nucleic acid and templatenucleic acid directed modification, e.g., correction, of the targetposition. In an embodiment, a target position can be a site between twonucleotides, e.g., adjacent nucleotides, on the target nucleic acid intowhich one or more nucleotides is added. The target position may compriseone or more nucleotides that are altered, e.g., corrected, by a templatenucleic acid. In an embodiment, the target position is within a targetsequence (e.g., the sequence to which the gRNA binds). In an embodiment,a target position is upstream or downstream of a target sequence (e.g.,the sequence to which the gRNA binds).

A template nucleic acid, as that term is used herein, refers to anucleic acid sequence which can be used in conjunction with a Cas9molecule and a gRNA molecule to alter the structure of a targetposition. In an embodiment, the target nucleic acid is modified to havethe some or all of the sequence of the template nucleic acid, typicallyat or near cleavage site(s). In an embodiment, the template nucleic acidis single stranded. In an alternate embodiment, the template nucleicacid is double stranded. In an embodiment, the template nucleic acid isDNA, e.g., double stranded DNA. In an alternate embodiment, the templatenucleic acid is single stranded DNA. In an embodiment, the templatenucleic acid is encoded on the same vector backbone, e.g. AAV genome,plasmid DNA, as the Cas9 and gRNA. In an embodiment, the templatenucleic acid is excised from a vector backbone in vivo, e.g., it isflanked by gRNA recognition sequences.

In an embodiment, the template nucleic acid alters the structure of thetarget position by participating in a homology directed repair event. Inan embodiment, the template nucleic acid alters the sequence of thetarget position. In an embodiment, the template nucleic acid results inthe incorporation of a modified, or non-naturally occurring base intothe target nucleic acid.

Typically, the template sequence undergoes a breakage mediated orcatalyzed recombination with the target sequence. In an embodiment, thetemplate nucleic acid includes sequence that corresponds to a site onthe target sequence that is cleaved by an eaCas9 mediated cleavageevent. In an embodiment, the template nucleic acid includes sequencethat corresponds to both, a first site on the target sequence that iscleaved in a first Cas9 mediated event, and a second site on the targetsequence that is cleaved in a second Cas9 mediated event.

In an embodiment, the template nucleic acid can include sequence whichresults in an alteration in the coding sequence of a translatedsequence, e.g., one which results in the substitution of one amino acidfor another in a protein product, e.g., transforming a mutant alleleinto a wild type allele, transforming a wild type allele into a mutantallele, and/or introducing a stop codon, insertion of an amino acidresidue, deletion of an amino acid residue, or a nonsense mutation.

In another embodiment, the template nucleic acid can include sequencewhich results in an alteration in a non-coding sequence, e.g., analteration in an exon or in a 5′ or 3′ non-translated or non-transcribedregion. Such alterations include an alteration in a control element,e.g., a promoter, enhancer, and an alteration in a cis-acting ortrans-acting control element.

A template nucleic acid having homology with a target position in theCFTR gene can be used to alter the structure of a target sequence. Thetemplate sequence can be used to alter an unwanted structure, e.g., anunwanted or mutant nucleotide.

A template nucleic acid comprises the following components:

-   -   [5′ homology arm]-[replacement sequence]-[3′ homology arm].

The homology arms provide for recombination into the chromosome, thusreplacing the undesired element, e.g., a mutation or signature, with thereplacement sequence. In an embodiment, the homology arms flank the mostdistal cleavage sites.

In an embodiment, the 3′ end of the 5′ homology arm is the position nextto the 5′ end of the replacement sequence. In an embodiment, the 5′homology arm can extend at least 10, 20, 30, 40, 50, 100, 200, 300, 400,500, 600, 700, 800, 900, 1000, 1500, or 2000 nucleotides 5′ from the 5′end of the replacement sequence.

In an embodiment, the 5′ end of the 3′ homology arm is the position nextto the 3′ end of the replacement sequence. In an embodiment, the 3′homology arm can extend at least 10, 20, 30, 40, 50, 100, 200, 300, 400,500, 600, 700, 800, 900, 1000, 1500, or 2000 nucleotides 3′ from the 3′end of the replacement sequence.

Exemplary Template Nucleic Acids

Exemplary template nucleic acids (also referred to herein as donorconstructs) to correct a mutation, e.g., F508del target position in theCFTR gene, are provided.

Suitable sequence for the 5′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

(5′H arm) SEQ ID NO: 27266AAAATACAAAAAATTAGCCAGACGTGATGGCGGGTGCCCGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCAGAACTTGCAGTGAGCCGAGATCGCGCCACTGCACTCTAGCCTGGGTGACAGAGTGAGACTCTGTCTCTAAATAAATAAATAAATAAATAAATAAATAAATAAAATCAGTGCTTTTTCTTCCTCTGCTACCTCCTTTCCTTCTACTCAGTTTTAGTCAGTAGTATTATCTTTTTTCAGATTTATCTTTGTATTGTTAAATCTGCTTATGCTTCTATTACTTTATTTATTAGCTTTAAATGATACCTTTTGACTTTCAGCTTTTCTTAATAAAGCAATCAGCAAATTTCCTTTACACTCCACACTTATACCCCATTTCCTTTGTTTGTTTATTTGGTTTTTACTTCTAACTTTTCTTATTGTCAGGACATATAACATATTTAAACTTTGTTTTTCAACTCGAATTCTGCCATTAGTTTTAATTTTTGTTCACAGTTATATAAATCTTTGTTCACTGATAGTCCTTTTGTACTATCATCTCTTAAATGACTTTATACTCCAAGAAAGGCTCATGGGAACAATATTACCTGAATATGTCTCTATTACTTAATCTGTACCTAATAATATGAAGGTAATCTACTTTGTAGGATTTCTGTGAAGATTAAATAAATTAATATAGTTAAAGCACATAGAACAGCACTCGACACAGAGTGAGCACTTGGCAACTGTTAGCTGTTACTAACCTTTCCCATTCTTCCTCCAAACCTATTCCAACTATCTGAATCATGTGCCCCTTCTCTGTGAACCTCTATCATAATACTTGTCACACTGTATTGTAATTGTCTCTTTTACTTTCCCTTGTATCTTTTGTGCATAGCAGAGTACCTGAAACAGGAAGTATTTTAAATATTTTGAATCAAATGAGTTAATAGAATCTTTACAAATAAGAATATACACTTCTGCTTAGGATGATAATTGGAGGCAAGTGAATCCTGAGCGTGATTTGATAATGACCTAATAATGATGGGTTTTATTTCCAGACTTCACTTCTAATGGTGATTATGGGAGAACTGGAGCCTTCAGAGGGTAAAATTAAGCACAGTGGAAGAATTTCATTCTGTTCTCAGTTTTCCTGGATTATGCCTGGCACCATTAAAGAAAATATCAT

Suitable sequence for the 3′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

(3′H arm) SEQ ID NO: 27267TGGTGTTTCCTATGATGAATATAGATACAGAAGCGTCATCAAAGCATGCCAACTAGAAGAGGTAAGAAACTATGTGAAAACTTTTTGATTATGCATATGAACCCTTCACACTACCCAAATTATATATTTGGCTCCATATTCAATCGGTTAGTCTACATATATTTATGTTTCCTCTATGGGTAAGCTACTGTGAATGGATCAATTAATAAAACACATGACCTATGCTTTAAGAAGCTTGCAAACACATGAAATAAATGCAATTTATTTTTTAAATAATGGGTTCATTTGATCACAATAAATGCATTTTATGAAATGGTGAGAATTTTGTTCACTCATTAGTGAGACAAACGTCCTCAATGGTTATTTATATGGCATGCATATAAGTGATATGTGGTATCTTTTTAAAAGATACCACAAAATATGCATCTTTAAAAATATACTCCAAAAATTATTAAGATTATTTTAATAATTTTAATAATACTATAGCCTAATGGAATGAGCATTGATCTGCCAGCAGAGAATTAGAGGGGTAAAATTGTGAAGATATTGTATCCCTGGCTTTGAACAAATACCATATAACTTCTAGTGACTGCAATTCTTTGATGCAGAGGCAAAATGAAGATGATGTCATTACTCATTTCACAACAATATTGGAGAATGAGCTAATTATCTGAAAATTACATGAAGTATTCCAAGAGAAACCAGTATATGGATCTTGTGCTGTTCACTATGTAAATTGTGTGATGGTGGGTTCAGTAGTTATTGCTGTAAATGTTAGGGCAGGGAATATGTTACTATGAAGTTTATTGACAGTATACTCCAAATAGTGTTTGTGATTCAAAAGCAATATCTTTGATAGTTGGCATTTGCAATTCCTTTATATAATCTTTTATGAAAAAAATTGCAGAGAAAGTAAAATGTAGCTTAAAATACAGTATCCAAAAAAATGGAAAAGGGCAAACCGTGGATTAGATAGAAATGGCAATTCTTATAAAAAGGGTTGCATGCTTACATGAATGGCTTTCCATGTATATACTCAGTCATTCAACAGTTTTTTTTTTAGAGCCCCATTCTTATTTTTTATACACTTTGAGAGCATAATGAAAAGAAAAGCTACCTGCAAAAGTTTTGGACTTACCTCAAAGAGGATATACTTCATTCCTCAAAAGGCCTTCTTCCAGGAATAGTATTTCATAACCT

In an embodiment, the replacement sequence comprises or consists of CTTresidues.

In an embodiment, to correct a mutation, e.g., F508del target site inthe CFTR gene, the homology arms, e.g., the 5′ and 3′ homology arms, mayeach comprise about 1000 base pairs (bp) of sequence flanking the mostdistal gRNAs (e.g., 1200 bp of sequence on either side of the mutation).The 5′ homology arm is shown as bold sequence, the inserted bases tocorrect the F508del mutation is shown as lower case sequence, and the 3′homology arm is shown as no emphasis capitalized sequence.

(Template Construct 1; SEQ ID NO: 27268)AAAATACAAAAAATTAGCCAGACGTGATGGCGGGTGCCCGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGAATGGCGTGAACCCAGGAGGCAGAACTTGCAGTGAGCCGAGATCGCGCCACTGCACTCTAGCCTGGGTGACAGAGTGAGACTCTGTCTCTAAATAAATAAATAAATAAATAAATAAATAAATAAAATCAGTGCTTTTTCTTCCTCTGCTACCTCCTTTCCTTCTACTCAGTTTTAGTCAGTAGTATTATCTTTTTTCAGATTTATCTTTGTATTGTTAAATCTGCTTATGCTTCTATTACTTTATTTATTAGCTTTAAATGATACCTTTTGACTTTCAGCTTTTCTTAATAAAGCAATCAGCAAATTTCCTTTACACTCCACACTTATACCCCATTTCCTTTGTTTGTTTATTTGGTTTTTACTTCTAACTTTTCTTATTGTCAGGACATATAACATATTTAAACTTTGTTTTTCAACTCGAATTCTGCCATTAGTTTTAATTTTTGTTCACAGTTATATAAATCTTTGTTCACTGATAGTCCTTTTGTACTATCATCTCTTAAATGACTTTATACTCCAAGAAAGGCTCATGGGAACAATATTACCTGAATATGTCTCTATTACTTAATCTGTACCTAATAATATGAAGGTAATCTACTTTGTAGGATTTCTGTGAAGATTAAATAAATTAATATAGTTAAAGCACATAGAACAGCACTCGACACAGAGTGAGCACTTGGCAACTGTTAGCTGTTACTAACCTTTCCCATTCTTCCTCCAAACCTATTCCAACTATCTGAATCATGTGCCCCTTCTCTGTGAACCTCTATCATAATACTTGTCACACTGTATTGTAATTGTCTCTTTTACTTTCCCTTGTATCTTTTGTGCATAGCAGAGTACCTGAAACAGGAAGTATTTTAAATATTTTGAATCAAATGAGTTAATAGAATCTTTACAAATAAGAATATACACTTCTGCTTAGGATGATAATTGGAGGCAAGTGAATCCTGAGCGTGATTTGATAATGACCTAATAATGATGGGTTTTATTTCCAGACTTCACTTCTAATGGTGATTATGGGAGAACTGGAGCCTTCAGAGGGTAAAATTAAGCACAGTGGAAGAATTTCATTCTGTTCTCAGTTTTCCTGGATTATGCCTGGCACCATTAAAGAAAATATCATcttTGGTGTTTCCTATGATGAATATAGATACAGAAGCGTCATCAAAGCATGCCAACTAGAAGAGGTAAGAAACTATGTGAAAACTTTTTGATTATGCATATGAACCCTTCACACTACCCAAATTATATATTTGGCTCCATATTCAATCGGTTAGTCTACATATATTTATGTTTCCTCTATGGGTAAGCTACTGTGAATGGATCAATTAATAAAACACATGACCTATGCTTTAAGAAGCTTGCAAACACATGAAATAAATGCAATTTATTTTTTAAATAATGGGTTCATTTGATCACAATAAATGCATTTTATGAAATGGTGAGAATTTTGTTCACTCATTAGTGAGACAAACGTCCTCAATGGTTATTTATATGGCATGCATATAAGTGATATGTGGTATCTTTTTAAAAGATACCACAAAATATGCATCTTTAAAAATATACTCCAAAAATTATTAAGATTATTTTAATAATTTTAATAATACTATAGCCTAATGGAATGAGCATTGATCTGCCAGCAGAGAATTAGAGGGGTAAAATTGTGAAGATATTGTATCCCTGGCTTTGAACAAATACCATATAACTTCTAGTGACTGCAATTCTTTGATGCAGAGGCAAAATGAAGATGATGTCATTACTCATTTCACAACAATATTGGAGAATGAGCTAATTATCTGAAAATTACATGAAGTATTCCAAGAGAAACCAGTATATGGATCTTGTGCTGTTCACTATGTAAATTGTGTGATGGTGGGTTCAGTAGTTATTGCTGTAAATGTTAGGGCAGGGAATATGTTACTATGAAGTTTATTGACAGTATACTCCAAATAGTGTTTGTGATTCAAAAGCAATATCTTTGATAGTTGGCATTTGCAATTCCTTTATATAATCTTTTATGAAAAAAATTGCAGAGAAAGTAAAATGTAGCTTAAAATACAGTATCCAAAAAAATGGAAAAGGGCAAACCGTGGATTAGATAGAAATGGCAATTCTTATAAAAAGGGTTGCATGCTTACATGAATGGCTTTCCATGTATATACTCAGTCATTCAACAGTTTTTTTTTTAGAGCCCCATTCTTATTTTTTATACACTTTGAGAGCATAATGAAAAGAAAAGCTACCTGCAAAAGTTTTGGACTTACCTCAAAGAGGATATACTTCATTCCTCAAAAGGCCTTCTTCCAGGAATAGTATTTCATAA CCT

As described below in Table 49, shorter homology arms, e.g., 5′ and/or3′ homology arms may be used.

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to correct F508del mutation in the CFTR gene, the 5′homology arm may be shortened less than 500 nucleotides, e.g.,approximately 450 nucleotides, e.g., 428 nucleotides, to avoid inclusionof a LINE repeat element in the 5′ homology arm. The 5′ homology arm isshown as bold sequence, the inserted bases to correct the F508delmutation is shown as lower case sequence, and the 3′ homology arm isshown as no emphasis capitalized sequence.

(Template Construct 2; SEQ ID NO: 27269)AACCTTTCCCATTCTTCCTCCAAACCTATTCCAACTATCTGAATCATGTGCCCCTTCTCTGTGAACCTCTATCATAATACTTGTCACACTGTATTGTAATTGTCTCTTTTACTTTCCCTTGTATCTTTTGTGCATAGCAGAGTACCTGAAACAGGAAGTATTTTAAATATTTTGAATCAAATGAGTTAATAGAATCTTTACAAATAAGAATATACACTTCTGCTTAGGATGATAATTGGAGGCAAGTGAATCCTGAGCGTGATTTGATAATGACCTAATAATGATGGGTTTTATTTCCAGACTTCACTTCTAATGGTGATTATGGGAGAACTGGAGCCTTCAGAGGGTAAAATTAAGCACAGTGGAAGAATTTCATTCTGTTCTCAGTTTTCCTGGATTATGCCTGGCACCATTAAAGAAAATATCATcttTGGTGTTTCCTATGATGAATATAGATACAGAAGCGTCATCAAAGCATGCCAACTAGAAGAGGTAAGAAACTATGTGAAAACTTTTTGATTATGCATATGAACCCTTCACACTACCCAAATTATATATTTGGCTCCATATTCAATCGGTTAGTCTACATATATTTATGTTTCCTCTATGGGTAAGCTACTGTGAATGGATCAATTAATAAAACACATGACCTATGCTTTAAGAAGCTTGCAAACACATGAAATAAATGCAATTTATTTTTTAAATAATGGGTTCATTTGATCACAATAAATGCATTTTATGAAATGGTGAGAATTTTGTTCACTCATTAGTGAGACAAACGTCCTCAATGGTTATTTATATGGCATGCATATAAGTGATATGTGGTATCTTTTTAAAAGATACCACAAAATATGCATCTTTAAAAATATACTCCAAAAATTATTAAGATTATTTTAATAATTTTAATAATACTATAGCCTAATGGAATGAGCATTGATCTGCCAGCAGAGAATTAGAGGGGTAAAATTGTGAAGATATTGTATCCCTGGCTTTGAACAAATACCATATAACTTCTAGTGACTGCAATTCTTTGATGCAGAGGCAAAATGAAGATGATGTCATTACTCATTTCACAACAATATTGGAGAATGAGCTAATTATCTGAAAATTACATGAAGTATTCCAAGAGAAACCAGTATATGGATCTTGTGCTGTTCACTATGTAAATTGTGTGATGGTGGGTTCAGTAGTTATTGCTGTAAATGTTAGGGCAGGGAATATGTTACTATGAAGTTTATTGACAGTATACTCCAAATAGTGTTTGTGATTCAAAAGCAATATCTTTGATAGTTGGCATTTGCAATTCCTTTATATAATCTTTTATGAAAAAAATTGCAGAGAAAGTAAAATGTAGCTTAAAATACAGTATCCAAAAAAATGGAAAAGGGCAAACCGTGGATTAGATAGAAATGGCAATTCTTATAAAAAGGGTTGCATGCTTACATGAATGGCTTTCCATGTATATACTCAGTCATTCAACAGTTTTTTTTTTAGAGCCCCATTCTTATTTTTTATACACTTTGAGAGCATAATGAAAAGAAAAGCTACCTGCAAAAGTTTTGGACTTACCTCAAAGAGGATATACTTCATTCCTCAAAAGGCCTTCTTCCAGGAATAGTATTTCATAACCT

In an embodiment, to correct F508del mutation in the CFTR gene, the 5′homology arm may be shortened to approximately 500 nucleotides. The 5′homology arm is shown as bold sequence, the inserted bases to correctthe F508del mutation is shown as lower case sequence, and the 3′homology arm is shown as no emphasis capitalized sequence.

(Template Construct 3; SEQ ID NO: 27270)AATTAATATAGTTAAAGCACATAGAACAGCACTCGACACAGAGTGAGCACTTGGCAACTGTTAGCTGTTACTAACCTTTCCCATTCTTCCTCCAAACCTATTCCAACTATCTGAATCATGTGCCCCTTCTCTGTGAACCTCTATCATAATACTTGTCACACTGTATTGTAATTGTCTCTTTTACTTTCCCTTGTATCTTTTGTGCATAGCAGAGTACCTGAAACAGGAAGTATTTTAAATATTTTGAATCAAATGAGTTAATAGAATCTTTACAAATAAGAATATACACTTCTGCTTAGGATGATAATTGGAGGCAAGTGAATCCTGAGCGTGATTTGATAATGACCTAATAATGATGGGTTTTATTTCCAGACTTCACTTCTAATGGTGATTATGGGAGAACTGGAGCCTTCAGAGGGTAAAATTAAGCACAGTGGAAGAATTTCATTCTGTTCTCAGTTTTCCTGGATTATGCCTGGC

cttTGGTGTTTCCTATGATGAATATAGATACAGAAGCGTCATCAAAGCATGCCAACTAGAAGAGGTAAGAAACTATGTGAAAACTTTTTGATTATGCATATGAACCCTTCACACTACCCAAATTATATATTTGGCTCCATATTCAATCGGTTAGTCTACATATATTTATGTTTCCTCTATGGGTAAGCTACTGTGAATGGATCAATTAATAAAACACATGACCTATGCTTTAAGAAGCTTGCAAACACATGAAATAAATGCAATTTATTTTTTAAATAATGGGTTCATTTGATCACAATAAATGCATTTTATGAAATGGTGAGAATTTTGTTCACTCATTAGTGAGACAAACGTCCTCAATGGTTATTTATATGGCATGCATATAAGTGATATGTGGTATCTTTTTAAAAGATACCACAAAATATGCATCTTTAAAAATATACTCCAAAAATTATTAAGATTATTTTAATAATTTTAATAATACTATAGCCTAATGGAAT GAG

It is contemplated herein that, in an embodiment, template nucleic acidsfor correcting a mutation may designed for use as a single-strandedoligonucleotide (ssODN). When using a ssODN, 5′ and 3′ homology arms mayrange up to about 200 base pairs (bp) in length, e.g., at least 25, 50,75, 100, 125, 150, 175, or 200 bp in length. Longer homology arms arealso contemplated for ssODNs as improvements in oligonucleotidesynthesis continue to be made.

In an embodiment, an ssODN may be used to correct a mutation, e.g.,F508del target site in the CFTR gene. For example, the ssODN may include5′ and 3′ homology arms as shown below. The 5′ homology arm is shown asbold sequence, the inserted bases to correct the F508del mutation isshown as lower case sequence, and the 3′ homology arm is shown as noemphasis capitalized sequence.

(Template Construct 4; SEQ ID NO: 27271)TAAGCACAGTGGAAGAATTTCATTCTGTTCTCAGTTTTCCTGGATTATGCCTGGCACCATTAAAGAAAATATCATcttTGGTGTTTCCTATGATGAATATAGATACAGAAGCGTCATCAAAGCATGCCAACTAGAAGAGGTAAGAAACTA TGT

Exemplary template nucleic acids (also referred to herein as donorconstructs) to correction a mutation, e.g., G542X target site in theCFTR gene, are provided.

Suitable sequence for the 5′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

(5′H arm) SEQ ID NO: 27272TGTCCATATGGTAGATAAATGGAACAAATGAATAACAGAAGTAACCATTTTGATACTTTAGATATAGATAATATTGGATTATTTCTGGATTGTGAAAGAAGAAGGAAGAAGCATATGGAAGAGAAGTTTTAGTAGAGGGGAGGAAGGAGGAGGTGGAAACGAATGTACAAGGATGGGAGGAGAAAAGGGAGAGAGACTTTTTTTTTTTTAAGGCGAGAGTTTACTACCTATCTAACTCTTCGCATTCTTGAAGTCTCAGACCAAATCCCATCGGTTTGAAAGCCTCTAGGGTATTCTATCTATTGTATACTTCTGTTATGTACAAAATTAATTTGCCAATTAATTGTGAACTGTTTTATAAACTATCTTAAAATGGTTAGTTAAATCTTTGGGATAGTATTTAGCTTTCTCCAGGATTATGACTTACCTTCTAAATTAGACATACAATGCCTAGGAGTCAAGGACTATTTTGCATAAATTCCAGTCTTCTTTTACAATGCCTAGAATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTT

Suitable sequence for the 3′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

(3′H arm) SEQ ID NO: 27273GAGAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACTCTTGGTCCAAGCATTTTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCTTTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGAAACTAACCCTAACTGAGCACCTGCAATTGCCTGGTAGTATTCTAGTCATGTGTGTACTTTTGTGTGTATGTAATCCCCTTACAGCTCTGCAAAGTAAGAATTGTTCTCCCTGCTTTACAGAAGAGATCATAAGATAATTGAGGCTGTTAGATGTTAACTTGCCAAAAGCCATACAGGAAAATGGTAGAGTCACAGTTTGAACCAGGTCCTTTTGATTCTTTACATTAAACCATGCTTTGATCTTGGAAATACACTGTAAGGCAATAAATCAATAGATACGGATAATTCACAGGCTTCTAAATAAATGGAAGTTGATTGTTTTTATCTGTGAGCCAAAGTAAGACTTATTCTAA

In an embodiment, the replacement sequence comprises or consists of aGuanine (G) residue.

In an embodiment, to correct a mutation, e.g., G542X target site in theCFTR gene, the homology arms, e.g., the 5′ and 3′ homology arms, mayeach comprise about 1000 base pairs (bp) of sequence flanking the mostdistal gRNAs (e.g., 1200 bp of sequence on either side of the mutation).The 5′ homology arm is shown as bold sequence, the inserted base tocorrect the G542X mutation is shown as lower case sequence, and the 3′homology arm is shown as no emphasis capitalized sequence.

(Template Construct 5; SEQ ID NO: 27274)TGTCCATATGGTAGATAAATGGAACAAATGAATAACAGAAGTAACCATTTTGATACTTTAGATATAGATAATATTGGATTATTTCTGGATTGTGAAAGAAGAAGGAAGAAGCATATGGAAGAGAAGTTTTAGTAGAGGGGAGGAAGGAGGAGGTGGAAACGAATGTACAAGGATGGGAGGAGAAAAGGGAGAGAGACTTTTTTTTTTTTAAGGCGAGAGTTTACTACCTATCTAACTCTTCGCATTCTTGAAGTCTCAGACCAAATCCCATCGGTTTGAAAGCCTCTAGGGTATTCTATCTATTGTATACTTCTGTTATGTACAAAATTAATTTGCCAATTAATTGTGAACTGTTTTATAAACTATCTTAAAATGGTTAGTTAAATCTTTGGGATAGTATTTAGCTTTCTCCAGGATTATGACTTACCTTCTAAATTAGACATACAATGCCTAGGAGTCAAGGACTATTTTGCATAAATTCCAGTCTTCTTTTACAATGCCTAGAATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTgGAGAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACTCTTGGTCCAAGCATTTTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCTTTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGAAACTAACCCTAACTGAGCACCTGCAATTGCCTGGTAGTATTCTAGTCATGTGTGTACTTTTGTGTGTATGTAATCCCCTTACAGCTCTGCAAAGTAAGAATTGTTCTCCCTGCTTTACAGAAGAGATCATAAGATAATTGAGGCTGTTAGATGTTAACTTGCCAAAAGCCATACAGGAAAATGGTAGAGTCACAGTTTGAACCAGGTCCTTTTGATTCTTTACATTAAACCATGCTTTGATCTTGGAAATACACTGTAAGGCAATAAATCAATAGATACGGATAATTCACAGGCTTCTAAATAAATGGAAGTTGATTGTTTTTATCTGTGAGCCAAAGTAAGACTTATTCTA A

As described below in Table 49, shorter homology arms, e.g., 5′ and/or3′ homology arms may be used.

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to correct G542X mutation in the CFTR gene, the 5′homology arm may be shortened less than 1000 nucleotides, e.g., e.g.,500 nucleotides, to avoid inclusion of a LINE repeat element in the 5′homology arm. The 5′ homology arm is shown as bold sequence, theinserted base to correct the G542X mutation is shown as lower casesequence, and the 3′ homology arm is shown as no emphasis capitalizedsequence.

(Template Construct 6; SEQ ID NO: 27275)CCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTgGAGAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGA T

It is contemplated herein that template nucleic acids for correcting amutation may designed for use as a single-stranded oligonucleotide(ssODN). When using a ssODN, 5′ and 3′ homology arms may range up toabout 200 base pairs (bp) in length, e.g., at least 25, 50, 75, 100,125, 150, 175, or 200 bp in length. Longer homology arms are alsocontemplated for ssODNs as improvements in oligonucleotide synthesiscontinue to be made.

In an embodiment, an ssODN may be used to correct a mutation, e.g.,G542X target site in the CFTR gene. For example, the ssODN may include5′ and 3′ homology arms as shown below. The 5′ homology arm is shown asbold sequence, the inserted bases to correct the G542X mutation is shownas lower case sequence, and the 3′ homology arm is shown as no emphasiscapitalized sequence.

(Template Construct 7; SEQ ID NO: 27276)AAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTgGAGAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGG T

It is contemplated herein that, in an embodiment, a Cas9 molecule couldpotentially cleave donor constructs either prior to or followinghomology directed repair (e.g., homologous recombination), resulting ina possible non-homologous-end-joining event and further DNA sequencemutation at the chromosomal locus of interest. Therefore, to avoidcleavage of the donor sequence before and/or after Cas9-mediatedhomology directed repair, alternate versions of the donor sequence maybe used where silent mutations are introduced. These silent mutationsmay disrupt Cas9 binding and cleavage, but not disrupt the amino acidsequence of the repaired gene. For example, mutations may include thosemade to a donor sequence to repair the CFTR gene, the mutant form whichcan cause CF or CF-like disease. In an embodiment, a silent mutationthat disrupts Cas9 binding and cleavage, but does not disrupt the aminoacid sequence of the repaired gene, is a sense mutation.

In an embodiment, to correct a mutation, e.g., G542X target site in theCFTR gene, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the homology arms, e.g., the 5′and 3′ homology arms, may each comprise about 1000 base pairs (bp) ofsequence flanking the most distal gRNAs (e.g., 1200 bp of sequence oneither side of the mutation). The 5′ homology arm is shown as boldsequence, the inserted base to correct the G542X mutation is shown aslower case sequence, the silent sense mutation is shown as lower caseunderlined and italicized sequence, and the 3′ homology arm is shown asno emphasis capitalized sequence.

(Template Construct 8; SEQ ID NO: 27277)TGTCCATATGGTAGATAAATGGAACAAATGAATAACAGAAGTAACCATTTTGATACTTTAGATATAGATAATATTGGATTATTTCTGGATTGTGAAAGAAGAAGGAAGAAGCATATGGAAGAGAAGTTTTAGTAGAGGGGAGGAAGGAGGAGGTGGAAACGAATGTACAAGGATGGGAGGAGAAAAGGGAGAGAGACTTTTTTTTTTTTAAGGCGAGAGTTTACTACCTATCTAACTCTTCGCATTCTTGAAGTCTCAGACCAAATCCCATCGGTTTGAAAGCCTCTAGGGTATTCTATCTATTGTATACTTCTGTTATGTACAAAATTAATTTGCCAATTAATTGTGAACTGTTTTATAAACTATCTTAAAATGGTTAGTTAAATCTTTGGGATAGTATTTAGCTTTCTCCAGGATTATGACTTACCTTCTAAATTAGACATACAATGCCTAGGAGTCAAGGACTATTTTGCATAAATTCCAGTCTTCTTTTACAATGCCTAGAATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCT a gG tGAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACTCTTGGTCCAAGCATTTTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCTTTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGAAACTAACCCTAACTGAGCACCTGCAATTGCCTGGTAGTATTCTAGTCATGTGTGTACTTTTGTGTGTATGTAATCCCCTTACAGCTCTGCAAAGTAAGAATTGTTCTCCCTGCTTTACAGAAGAGATCATAAGATAATTGAGGCTGTTAGATGTTAACTTGCCAAAAGCCATACAGGAAAATGGTAGAGTCACAGTTTGAACCAGGTCCTTTTGATTCTTTACATTAAACCATGCTTTGATCTTGGAAATACACTGTAAGGCAATAAATCAATAGATACGGATAATTCACAGGCTTCTAAATAAATGGAAGTTGATTGTTTTTATCTGTGAGCCAAAGTAAGACTTATTCTA A

In an embodiment, to correct a mutation, e.g., G542X target site in theCFTR gene, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the 5′ homology arm may beshortened less than 750 nucleotides, e.g., 500 nucleotides, to avoidinclusion of a LINE repeat element in the 5′ homology arm. The 5′homology arm is shown as bold sequence, the inserted base to correct theG542X mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 9; SEQ ID NO: 27278)CCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCT a gG tGAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGA T

In an embodiment, an ssODN may be to correct a mutation, e.g., G542Xtarget site in the CFTR gene, and concomitantly introduce a silentmutation to disrupt subsequent Cas9 binding and cleavage. For example,the ssODN may include 5′ and 3′ homology arms as shown below. The 5′homology arm is shown as bold sequence, the inserted base to correct theG542X mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 10; SEQ ID NO: 27279)AAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCT a gG t GAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGG T

The underlined A has been changed from a T to A at that position and theunderlined T has been changed from an A to T at that position so thatwild-type CFTR is still transcribed, but the PAM sequence AGG has beenmodified to reduce or eliminate Cas9 cleavage at that locus.

Exemplary template nucleic acids (also referred to herein as donorconstructs) to correction a mutation, e.g., G551D target site in theCFTR gene, are provided.

Suitable sequence for the 5′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

(5′H arm) SEQ ID NO: 27280TGAATAACAGAAGTAACCATTTTGATACTTTAGATATAGATAATATTGGATTATTTCTGGATTGTGAAAGAAGAAGGAAGAAGCATATGGAAGAGAAGTTTTAGTAGAGGGGAGGAAGGAGGAGGTGGAAACGAATGTACAAGGATGGGAGGAGAAAAGGGAGAGAGACTTTTTTTTTTTTAAGGCGAGAGTTTACTACCTATCTAACTCTTCGCATTCTTGAAGTCTCAGACCAAATCCCATCGGTTTGAAAGCCTCTAGGGTATTCTATCTATTGTATACTTCTGTTATGTACAAAATTAATTTGCCAATTAATTGTGAACTGTTTTATAAACTATCTTAAAATGGTTAGTTAAATCTTTGGGATAGTATTTAGCTTTCTCCAGGATTATGACTTACCTTCTAAATTAGACATACAATGCCTAGGAGTCAAGGACTATTTTGCATAAATTCCAGTCTTCTTTTACAATGCCTAGAATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGGAG

Suitable sequence for the 3′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

SEQ ID NO: 27281 (3′H arm)TCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACTCTTGGTCCAAGCATTTTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCTTTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGAAACTAACCCTAACTGAGCACCTGCAATTGCCTGGTAGTATTCTAGTCATGTGTGTACTTTTGTGTGTATGTAATCCCCTTACAGCTCTGCAAAGTAAGAATTGTTCTCCCTGCTTTACAGAAGAGATCATAAGATAATTGAGGCTGTTAGATGTTAACTTGCCAAAAGCCATACAGGAAAATGGTAGAGTCACAGTTTGAACCAGGTCCTTTTGATTCTTTACATTAAACCATGCTTTGATCTTGGAAATACACTGTAAGGCAATAAATCAATAGATACGGATAATTCACAGGCTTCTAAATAAATGGAAGTTGATTGTTTTTATCTGTGAGCCAAAGTAAGACTTATTCTAAGAATTCCACAAATTTAGATAAGATAGAG

In an embodiment, the replacement sequence comprises or consists of aGuanine (G) residue.

In an embodiment, to correct a mutation, e.g., G551D target site in theCFTR gene, the homology arms, e.g., the 5′ and 3′ homology arms, mayeach comprise about 1000 base pairs (bp) of sequence flanking the mostdistal gRNAs (e.g., 1200 bp of sequence on either side of the mutation).The 5′ homology arm is shown as bold sequence, codon 551 is shown asunderlined sequence, the inserted base to correct the G551D mutation isshown as non-bold and boxed sequence, and the 3′ homology arm is shownas no emphasis sequence.

(Template Construct 11; SEQ ID NO: 27282)TGAATAACAGAAGTAACCATTTTGATACTTTAGATATAGATAATATTGGATTATTTCTGGATTGTGAAAGAAGAAGGAAGAAGCATATGGAAGAGAAGTTTTAGTAGAGGGGAGGAAGGAGGAGGTGGAAACGAATGTACAAGGATGGGAGGAGAAAAGGGAGAGAGACTTTTTTTTTTTTAAGGCGAGAGTTTACTACCTATCTAACTCTTCGCATTCTTGAAGTCTCAGACCAAATCCCATCGGTTTGAAAGCCTCTAGGGTATTCTATCTATTGTATACTTCTGTTATGTACAAAATTAATTTGCCAATTAATTGTGAACTGTTTTATAAACTATCTTAAAATGGTTAGTTAAATCTTTGGGATAGTATTTAGCTTTCTCCAGGATTATGACTTACCTTCTAAATTAGACATACAATGCCTAGGAGTCAAGGACTATTTTGCATAAATTCCAGTCTTCTTTTACAATGCCTAGAATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGGA G 

TCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTIGGTATAGATAAACATACATITICAAAATITTICATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACTCTTGGTCCAAGCATTTTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCTTTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGAAACTAACCCTAACTGAGCACCTGCAATTGCCTGGTAGTATTCTAGTCATGTGTGTACTTTTGTGTGTATGTAATCCCCTTACAGCTCTGCAAAGTAAGAATTGTTCTCCCTGCTTTACAGAAGAGATCATAAGATAATTGAGGCTGTTAGATGTTAACTTGCCAAAAGCCATACAGGAAAATGGTAGAGTCACAGTTTGAACCAGGTCCTTTTGATTCTTTACATTAAACCATGCTTTGATCTTGGAAATACACTGTAAGGCAATAAATCAATAGATACGGATAATTCACAGGCTTCTAAATAAATGGAAGTTGATTGTTTTTATCTGTGAGCCAAAGTAAGACTTATTCTAAGAATTCCACAAATTTAGATAAGATAGAG

As described below in Table 49, shorter homology arms, e.g., 5′ and/or3′ homology arms may be used.

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to correct G551D mutation in the CFTR gene, the 5′homology arm may be shortened less than 1000 nucleotides, e.g.,approximately 750 nucleotides, e.g., 724 nucleotides, to avoid inclusionof a LINE repeat element in the 5′ homology arm. The 5′ homology arm isshown as bold sequence, codon 551 is shown as underlined sequence, theinserted base to correct the G551D mutation is shown as non-bold andboxed sequence, and the 3′ homology arm is shown as no emphasissequence.

(Template Construct 12; SEQ ID NO: 27283)AATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGGA G 

TCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACICTIGGTCCAAGCATITTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCTTTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGA

In an embodiment, to correct G551D mutation in the CFTR gene, the 5′homology arm may be shortened less than 750 nucleotides, e.g., e.g., 500nucleotides, to avoid inclusion of a LINE repeat element in the 5′homology arm. The 5′ homology arm is shown as bold sequence, theinserted base to correct the G551D mutation is shown as lower casesequence, and the 3′ homology arm is shown as no emphasis capitalizedsequence.

(Template Construct 13; SEQ ID NO: 27284)AGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGGAGgTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTT

It is contemplated herein that template nucleic acids for correcting amutation may designed for use as a single-stranded oligonucleotide(ssODN). When using a ssODN, 5′ and 3′ homology arms may range up toabout 200 base pairs (bp) in length, e.g., at least 25, 50, 75, 100,125, 150, 175, or 200 bp in length. Longer homology arms are alsocontemplated for ssODNs as improvements in oligonucleotide synthesiscontinue to be made.

In an embodiment, an ssODN may be used to correct a mutation, e.g.,G551D target site in the CFTR gene. For example, the ssODN may include5′ and 3′ homology arms as shown below. The 5′ homology arm is shown asbold sequence, the inserted bases to correct the G542X mutation is shownas lower case sequence, and the 3′ homology arm is shown as no emphasiscapitalized sequence.

(Template Construct 14; SEQ ID NO: 27285)GGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGGAGgTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTA GCAAGCATTTGCTGTAAATGTCATT

In an embodiment, to correct a mutation, e.g., G551D target site in theCFTR gene, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the homology arms, e.g., the 5′and 3′ homology arms, may each comprise about 1000 base pairs (bp) ofsequence flanking the most distal gRNAs (e.g., 1200 bp of sequence oneither side of the mutation). The 5′ homology arm is shown as boldsequence, the inserted base to correct the G551D mutation is shown aslower case sequence, the silent sense mutation is shown as lower caseunderlined and italicized sequence, and the 3′ homology arm is shown asno emphasis capitalized sequence.

(Template Construct 15; SEQ ID NO: 27286)TGAATAACAGAAGTAACCATTTTGATACTTTAGATATAGATAATATTGGATTATTTCTGGATTGTGAAAGAAGAAGGAAGAAGCATATGGAAGAGAAGTTTTAGTAGAGGGGAGGAAGGAGGAGGTGGAAACGAATGTACAAGGATGGGAGGAGAAAAGGGAGAGAGACTTTTTTTTTTTTAAGGCGAGAGTTTACTACCTATCTAACTCTTCGCATTCTTGAAGTCTCAGACCAAATCCCATCGGTTTGAAAGCCTCTAGGGTATTCTATCTATTGTATACTTCTGTTATGTACAAAATTAATTTGCCAATTAATTGTGAACTGTTTTATAAACTATCTTAAAATGGTTAGTTAAATCTTTGGGATAGTATTTAGCTTTCTCCAGGATTATGACTTACCTTCTAAATTAGACATACAATGCCTAGGAGTCAAGGACTATTTTGCATAAATTCCAGTCTTCTTTTACAATGCCTAGAATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTG tc TGGAGgTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACTCTTGGTCCAAGCATTTTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCTTTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGAAACTAACCCTAACTGAGCACCTGCAATTGCCTGGTAGTATTCTAGTCATGTGTGTACTTTTGTGTGTATGTAATCCCCTTACAGCTCTGCAAAGTAAGAATTGTTCTCCCTGCTTTACAGAAGAGATCATAAGATAATTGAGGCTGTTAGATGTTAACTTGCCAAAAGCCATACAGGAAAATGGTAGAGTCACAGTTTGAACCAGGTCCTTTTGATTCTTTACATTAAACCATGCTTTGATCTTGGAAATACACTGTAAGGCAATAAATCAATAGATACGGATAATTCACAGGCTTCTAAATAAATGGAAGTTGATTGTTTTTATCTGTGAGCCAAAGTAAGACTTATTCTAAGAATTCCACAAATTTAGATAAGATAGAG

In an embodiment, to correct a mutation, e.g., G551D target site in theCFTR gene, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the 5′ homology arm may beshortened less than 750 nucleotides, e.g., 500 nucleotides, to avoidinclusion of a LINE repeat element in the 5′ homology arm. The 5′homology arm is shown as bold sequence, the inserted base to correct theG551D mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 16; SEQ ID NO: 27287)AGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTG tc TGGAGgTCAACGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTT

In an embodiment, an ssODN may be to correct a mutation, e.g., G551Dtarget site in the CFTR gene, and concomitantly introduce a silentmutation to disrupt subsequent Cas9 binding and cleavage. For example,the ssODN may include 5′ and 3′ homology arms as shown below. The 5′homology arm is shown as bold sequence, the inserted base to correct theG551D mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 18; SEQ ID NO: 27288)GGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTT CTTGGAGAAGGTGGAATCACACTG tcTGGAGgTCAACGAGCAAG AATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATT

The underlined T has been changed from a A to T at that position and theunderlined C has been changed from an G to C at that position so thatwild-type CFTR is still transcribed, but the PAM sequence TGG has beenmodified to reduce or eliminate Cas9 cleavage at that locus.

Exemplary template nucleic acids (also referred to herein as donorconstructs) to correction a mutation, e.g., N1303K target site in theCFTR gene, are provided.

Suitable sequence for the 5′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

SEQ ID NO: 27289 (5′H arm)GTTTCTGAGACATTTGACAACAACTTTTTCTTTAAGTCATCAGTTATGCCCCGGGGTATGAAATTTCTAACATGATCCTCAGTAAACTTGGCTGCCTTGCTGAGGATACTCTCCATCTGCCTGAGAGACACAGACACCATTAATTGGGAATTGACTTGACTTGTGTGGTTCCTTGTGGACCAGATGGCCACTAAATATTCTCATTTCAAGGCAATTGGTAAAAACTACACTTCAAGAAATTTCATTCTTAATTCCCCTTAGTGGATGTTATTAACCAAAGGCAAAAGAAAAAAAGGGTTAAAAAAATATTCTAAATGTTAATATCAAAAATATTATTTTTCATTCACCCCAGGCACAGAGAACTAAGTATTATTATTGCTATTGCACCGGCATTCCCCAATGAGACAGTGATTTTCTTTTAAGACATTTTTAAATAATATAGGCAGAATTAAGTAGACGGTGATCTGGTAAGTAGATGTTTCAGGGTAACAGCTGTGCAATGCTCCATGCAGGGAATTAGATTGTCATTTTATTCCTTACCAGGAACATACATTCAGTTAAACAATTATTTGACTTCTGCTCTTCCACTGATTTCTAAGTTGAGGCTCTCTCTTGTGCCTGTCTGATCAGATAAGTAGAGTTGTGCCTTGGTTTATAGATGAGATAAATGTGTATTTGAATAAGCATAAGTTAAAGAAATTTTAAAATCCCTTAGGAAGCTAGGCTTATCAGAGAAATCCAAGGAAATACATTAACAAACTAGGAATTTGTTCTAACAGGTTAATTATAACTCATAAACTTATTGGGTTTTTTTACCTTTTAATTTTATATTACATTTGCTTATAATAAGGAATATTGCTAGGAATAAAATTTTTTAATATTCTACAATTAACAATTATCTCAATTTCTTTATTCTAAAGACATTGGGATTAGAAAAATGTTCACAAGGGACTCCAAATATTGCTGTAGTATTTGTTTCTTAAAAGAATGATACAAAGCAGACATGATAAAATATTAAAATTTGAGAGAACTTGATGGTAAGTACATGGGTGTTTCTTATTTTAAAATAATTTTTCTACTTGAAATATTTTACAATACAATAAGGGAAAAATAAAAAGTTATTTAAGTTATTCATACTTTCTTCTTCTTTTCTTTTTTGCTATAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAA

Suitable sequence for the 3′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence.

SEQ ID NO: 27290 (3′H arm)TTGGATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTAAGGCTGCTAACTGAAATGATTTTGAAAGGGGTAACTCATACCAACACAAATGGCTGATATAGCTGACATCATTCTACACACTTTGTGTGCATGTATGTGTGTGCACAACTTTAAAATGGAGTACCCTAACATACCTGGAGCAACAGGTACTTTTGACTGGACCTACCCCTAACTGAAATGATTTTGAAAGAGGTAACTCATACCAACACAAATGGTTGATATGGCTAAGATCATTCTACACACTTTGTGTGCATGTATTTCTGTGCACAACTTCAAAATGGAGTACCCTAAAATACCTGGCGCGACAAGTACTTTTGACTGAGCCTACTTCTCTCCTCACTGGTATGGCTCCAACCATCAGGCCCTATCTTGGTCCATTTAGGCTGCTAAAATAAAATACCAAAGACTGAGCTGCTTATAAGCAATCTTTGGAGGCTGAGAAGTCAAAGATCAAGGTGCCAGCAGGTTTGCTGTCTCGTGAGAGCATACTTCCTGGTTCATTGATGGTGCTTTCTTGCTGTGTCCTCACATAATGGAAAGGGCAAGACCTCTCTGGTGTCTCTTTTACAATGGCACTAATCCCATCATGAGGGCTTTGTTCTCATGACCTAATCACCTCCCACATGTCCTACATTCTAATACTATCACCTTGGGGGTTAGGATTTTAACATATGAATTTGAGGAGGTGGCGGGGGGGACACAAATATTTAGACCATAGCATTTCACTCCTGACCTCCAAAGTTCATGTCTTCTTCACATGCAAAATACATTCATTCCATCCCAATAGCCCCCAAAGTCTTAACTTGTTCCAGCATCAACTTACAAGGCTAAAGTCCAAGGTTTCATCTAAATATCAGCTAAATCAGCACAAACAGCTAAATCAGGTAGAGTGGGACTTAAGGTGTGATTCCTCTTTAGGCAGATTGCTCTCCAACTATGAAATTGTGAAATCAAACCTATTATGTACTTTCAAAATAAAATGGTGAAACAGGCACAGGCTAGACAGTCCCATTTCAAAAAAGAGAAATAGAAAAGAAAAAAGGAGTGACAGGTCTCTATAAGTCTAAAACTTTAAGGCTTGAGAATAATTTGCTTTGCTTTGCCTCCAGGCTCACTGGGGTGGTGTCTTACCTCTGGACACAC

In an embodiment, the replacement sequence comprises or consists of aCytosine (C) residue.

In an embodiment, to correct a mutation, e.g., N1303K target site in theCFTR gene, the homology arms, e.g., the 5′ and 3′ homology arms, mayeach comprise about 1000 base pairs (bp) of sequence flanking the mostdistal gRNAs (e.g., 1200 bp of sequence on either side of the mutation).The 5′ homology arm is shown as bold sequence, the inserted base tocorrect the G542X mutation is shown as lower case sequence, and the 3′homology arm is shown as no emphasis capitalized sequence.

(Template Construct 19; SEQ ID NO: 27291)GTTTCTGAGACATTTGACAACAACTTTTTCTTTAAGTCATCAGTTATGCCCCGGGGTATGAAATTTCTAACATGATCCTCAGTAAACTTGGCTGCCTTGCTGAGGATACTCTCCATCTGCCTGAGAGACACAGACACCATTAATTGGGAATTGACTTGACTTGTGTGGTTCCTTGTGGACCAGATGGCCACTAAATATTCTCATTTCAAGGCAATTGGTAAAAACTACACTTCAAGAAATTTCATTCTTAATTCCCCTTAGTGGATGTTATTAACCAAAGGCAAAAGAAAAAAAGGGTAAAAAAAATATTCTAAATGTTAATATCAAAAATATTATTTTCAATTCACCCCAGGCACAGAGAACTAAGTATTATTATTGCTATTGCACCGGCATTCCCCAATGAGACAGTGATTTTCTTTTAAGACATTTTTAAATAATATAGGCAGAATTAAGTAGACGGTGATCTGGTAAGTAGATGTTTCAGGGTAACAGCTGTGCAATGCTCCATGCAGGGAATTAGATTGTCATTTTATTCCTTACCAGGAACATACATTCAGTTAAACAATTATTTGACTTCTGCTCTTCCACTGATTTCTAAGTTGAGGCTCTCTCTTGTGCCTGTCTGATCAGATAAGTAGAGTTGTGCCTTGGTTTATAGATGAGATAAATGTGTATTTGAATAAGCATAAGTTAAAGAAATTTTAAAATCCCTTAGGAAGCTAGGCTTATCAGAGAAATCCAAGGAAATACATTAACAAACTAGGAATTTGTTCTAACAGGTTAATTATAACTCATAAACTTATTGGGTTTTTTTACCTTTTAATTTTATATTACATTTGCTTATAATAAGGAATATTGCTAGGAATAAAATTTTTTAATATTCTACAATTAACAATTATCTCAATTTCTTTATTCTAAAGACATTGGGATTAGAAAAATGTTCACAAGGGACTCCAAATATTGCTGTAGTATTTGTTTCTTAAAAGAATGATACAAAGCAGACATGATAAAATATTAAAATTTGAGAGAACTTGATGGTAAGTACATGGGTGTTTCTTATTTTAAAATAATTTTTCTACTTGAAATATTTTACAATACAATAAGGGAAAAATAAAAAGTTATTTAAGTTATTCATACTTTCTTCTTCTTTTCTTTTTTGCTATAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAAcTTGGATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTAAGGCTGCTAACTGAAATGATTTTGAAAGGGGTAACTCATACCAACACAAATGGCTGATATAGCTGACATCATTCTACACACTTTGTGTGCATGTATGTGTGTGCACAACTTTAAAATGGAGTACCCTAACATACCTGGAGCAACAGGTACTTTTGACTGGACCTACCCCTAACTGAAATGATTTTGAAAGAGGTAACTCATACCAACACAAATGGTTGATATGGCTAAGATCATTCTACACACTTTGTGTGCATGTATTTCTGTGCACAACTTCAAAATGGAGTACCCTAAAATACCTGGCGCGACAAGTACTTTTGACTGAGCCTACTTCTCTCCTCACTGGTATGGCTCCAACCATCAGGCCCTATCTTGGTCCATTTAGGCTGCTAAAATAAAATACCAAAGACTGAGCTGCTTATAAGCAATCTTTGGAGGCTGAGAAGTCAAAGATCAAGGTGCCAGCAGGTTTGCTGTCTCGTGAGAGCATACTTCCTGGTTCATTGATGGTGCTTTCTTGCTGTGTCCTCACATAATGGAAAGGGCAAGACCTCTCTGGTGTCTCTTTTACAATGGCACTAATCCCATCATGAGGGCTTTGTTCTCATGACCTAATCACCTCCCACATGTCCTACATTCTAATACTATCACCTTGGGGGTTAGGATTTTAACATATGAATTTGAGGAGGTGGCGGGGGGGACACAAATATTTAGACCATAGCATTTCACTCCTGACCTCCAAAGTTCATGTCTTCTTCACATGCAAAATACATTCATTCCATCCCAATAGCCCCCAAAGTCTTAACTTGTTCCAGCATCAACTTACAAGGCTAAAGTCCAAGGTTTCATCTAAATATCAGCTAAATCAGCACAAACAGCTAAATCAGGTAGAGTGGGACTTAAGGTGTGATTCCTCTTTAGGCAGATTGCTCTCCAACTATGAAATTGTGAAATCAAACCTATTATGTACTTTCAAAATAAAATGGTGAAACAGGCACAGGCTAGACAGTCCCATTTCAAAAAAGAGAAATAGAAAAGAAAAAAGGAGTGACAGGTCTCTATAAGTCTAAAACTTTAAGGCTTGAGAATAATTTGCTTTGCTTTGCCTCCAGGCTCACTGGGGTGGTGTCTTACCTCTGGACACAC

As described below in Table 49, shorter homology arms, e.g., 5′ and/or3′ homology arms may be used.

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to correct N1303K mutation in the CFTR gene, the 5′homology arm may be shortened less than 1000 nucleotides, e.g., e.g.,500 nucleotides, to avoid inclusion of a LINE repeat element in the 5′homology arm. The 5′ homology arm is shown as bold sequence, theinserted base to correct the N1303K mutation is shown as lower casesequence, and the 3′ homology arm is shown as no emphasis capitalizedsequence.

(Template Construct 20; SEQ ID NO: 27292)TTTAAAATCCCTTAGGAAGCTAGGCTTATCAGAGAAATCCAAGGAAATACATTAACAAACTAGGAATTTGTTCTAACAGGTTAATTATAACTCATAAACTTATTGGGTTTTTTTACCTTTTAATTTTATATTACATTTGCTTATAATAAGGAATATTGCTAGGAATAAAATTTTTTAATATTCTACAATTAACAATTATCTCAATTTCTTTATTCTAAAGACATTGGGATTAGAAAAATGTTCACAAGGGACTCCAAATATTGCTGTAGTATTTGTTTCTTAAAAGAATGATACAAAGCAGACATGATAAAATATTAAAATTTGAGAGAACTTGATGGTAAGTACATGGGTGTTTCTTATTTTAAAATAATTTTTCTACTTGAAATATTTTACAATACAATAAGGGAAAAATAAAAAGTTATTTAAGTTATTCATACTTTCTTCTTCTTTTCTTTTTTGCTATAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAAcTTGGATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTAAGGCTGCTAACTGAAATGATTTTGAAAGGGGTAACTCATACCAACACAAATGGCTGATATAGCTGACATCATTCTACACACTTTGTGTGCATGTATGTGTGTGCACAACTTTAAAATGGAGTACCCTAACATACCTGGAGCAACAGGTACTTTTGACTGGACCTACCCCTAACTGAAATGATTTTGAAAGAGGTAACTCATACCAACACAAATGGTTGATATGGCTAAGATCATTCTACACACTTTGTGTGCATGTATTTCTGTGCACAACTTCAAAATGGAGTACCCTAAAATACCTGGCGCGACAAGTACTTTTGACTGAGCCTACTTCTCTCCTCACTGGTATGGCTCCAACCATCAGGCCCTATCTTGGTCCATTTAGGCTGCTAAAATAAAATACCAAAGACTGAGCTGCTTATAAGCAATCTTTGGAGGCTGAGAAG

It is contemplated herein that template nucleic acids for correcting amutation may designed for use as a single-stranded oligonucleotide(ssODN). When using a ssODN, 5′ and 3′ homology arms may range up toabout 200 base pairs (bp) in length, e.g., at least 25, 50, 75, 100,125, 150, 175, or 200 bp in length. Longer homology arms are alsocontemplated for ssODNs as improvements in oligonucleotide synthesiscontinue to be made.

In an embodiment, an ssODN may be used to correct a mutation, e.g.,N1303K target site in the CFTR gene. For example, the ssODN may include5′ and 3′ homology arms as shown below. The 5′ homology arm is shown asbold sequence, the inserted bases to correct the N1303K mutation isshown as lower case sequence, and the 3′ homology arm is shown as noemphasis capitalized sequence.

(Template Construct 21; SEQ ID NO: 27293)AGTTATTCATACTTTCTTCTTCTTTTCTTTTTTGCTATAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAAcTTGGATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTAAGGCTGCT AACTGAAATG

In an embodiment, to correct a mutation, e.g., N1303K target site in theCFTR gene, and concomitantly introduce a silent sense mutation todisrupt subsequent Cas9 binding and cleavage, the homology arms, e.g.,the 5′ and 3′ homology arms, may each comprise about 1000 base pairs(bp) of sequence flanking the most distal gRNAs (e.g., 1200 bp ofsequence on either side of the mutation). The 5′ homology arm is shownas bold sequence, the inserted base to correct the N1303K mutation isshown as lower case sequence, the silent sense mutation is shown aslower case underlined and italicized sequence, and the 3′ homology armis shown as no emphasis capitalized sequence.

(Template Construct 22; SEQ ID NO: 27294)GTTTCTGAGACATTTGACAACAACTTTTTCTTTAAGTCATCAGTTATGCCCCGGGGTATGAAATTTCTAACATGATCCTCAGTAAACTTGGCTGCCTTGCTGAGGATACTCTCCATCTGCCTGAGAGACACAGACACCATTAATTGGGAATTGACTTGACTTGTGTGGTTCCTTGTGGACCAGATGGCCACTAAATATTCTCATTTCAAGGCAATTGGTAAAAACTACACTTCAAGAAATTTCATTCTTAATTCCCCTTAGTGGATGTTATTAACCAAAGGCAAAAGAAAAAAAGGGTAAAAAAAATATTCTAAATGTTAATATCAAAAATATTATTTTCAATTCACCCCAGGCACAGAGAACTAAGTATTATTATTGCTATTGCACCGGCATTCCCCAATGAGACAGTGATTTTCTTTTAAGACATTTTTAAATAATATAGGCAGAATTAAGTAGACGGTGATCTGGTAAGTAGATGTTTCAGGGTAACAGCTGTGCAATGCTCCATGCAGGGAATTAGATTGTCATTTTATTCCTTACCAGGAACATACATTCAGTTAAACAATTATTTGACTTCTGCTCTTCCACTGATTTCTAAGTTGAGGCTCTCTCTTGTGCCTGTCTGATCAGATAAGTAGAGTTGTGCCTTGGTTTATAGATGAGATAAATGTGTATTTGAATAAGCATAAGTTAAAGAAATTTTAAAATCCCTTAGGAAGCTAGGCTTATCAGAGAAATCCAAGGAAATACATTAACAAACTAGGAATTTGTTCTAACAGGTTAATTATAACTCATAAACTTATTGGGTTTTTTTACCTTTTAATTTTATATTACATTTGCTTATAATAAGGAATATTGCTAGGAATAAAATTTTTTAATATTCTACAATTAACAATTATCTCAATTTCTTTATTCTAAAGACATTGGGATTAGAAAAATGTTCACAAGGGACTCCAAATATTGCTGTAGTATTTGTTTCTTAAAAGAATGATACAAAGCAGACATGATAAAATATTAAAATTTGAGAGAACTTGATGGTAAGTACATGGGTGTTTCTTATTTTAAAATAATTTTTCTACTTGAAATATTTTACAATACAATAAGGGAAAAATAAAAAGTTATTTAAGTTATTCATACTTTCTTCTTCTTTTCTTTTTTGCTATAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAA c cT c GATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTAAGGCTGCTAACTGAAATGATTTTGAAAGGGGTAACTCATACCAACACAAATGGCTGATATAGCTGACATCATTCTACACACTTTGTGTGCATGTATGTGTGTGCACAACTTTAAAATGGAGTACCCTAACATACCTGGAGCAACAGGTACTTTTGACTGGACCTACCCCTAACTGAAATGATTTTGAAAGAGGTAACTCATACCAACACAAATGGTTGATATGGCTAAGATCATTCTACACACTTTGTGTGCATGTATTTCTGTGCACAACTTCAAAATGGAGTACCCTAAAATACCTGGCGCGACAAGTACTTTTGACTGAGCCTACTTCTCTCCTCACTGGTATGGCTCCAACCATCAGGCCCTATCTTGGTCCATTTAGGCTGCTAAAATAAAATACCAAAGACTGAGCTGCTTATAAGCAATCTTTGGAGGCTGAGAAGTCAAAGATCAAGGTGCCAGCAGGTTTGCTGTCTCGTGAGAGCATACTTCCTGGTTCATTGATGGTGCTTTCTTGCTGTGTCCTCACATAATGGAAAGGGCAAGACCTCTCTGGTGTCTCTTTTACAATGGCACTAATCCCATCATGAGGGCTTTGTTCTCATGACCTAATCACCTCCCACATGTCCTACATTCTAATACTATCACCTTGGGGGTTAGGATTTTAACATATGAATTTGAGGAGGTGGCGGGGGGGACACAAATATTTAGACCATAGCATTTCACTCCTGACCTCCAAAGTTCATGTCTTCTTCACATGCAAAATACATTCATTCCATCCCAATAGCCCCCAAAGTCTTAACTTGTTCCAGCATCAACTTACAAGGCTAAAGTCCAAGGTTTCATCTAAATATCAGCTAAATCAGCACAAACAGCTAAATCAGGTAGAGTGGGACTTAAGGTGTGATTCCTCTTTAGGCAGATTGCTCTCCAACTATGAAATTGTGAAATCAAACCTATTATGTACTTTCAAAATAAAATGGTGAAACAGGCACAGGCTAGACAGTCCCATTTCAAAAAAGAGAAATAGAAAAGAAAAAAGGAGTGACAGGTCTCTATAAGTCTAAAACTTTAAGGCTTGAGAATAATTTGCTTTGCTTTGCCTCCAGGCTCACTGGGGTGGTGTCTTACCTCTGGACACAC

In an embodiment, to correct a mutation, e.g., N1303K target site in theCFTR gene, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the 5′ homology arm may beshortened less than 750 nucleotides, e.g., 500 nucleotides, to avoidinclusion of a LINE repeat element in the 5′ homology arm. The 5′homology arm is shown as bold sequence, the inserted base to correct theN1303K mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 23; SEQ ID NO: 27295)TTTAAAATCCCTTAGGAAGCTAGGCTTATCAGAGAAATCCAAGGAAATACATTAACAAACTAGGAATTTGTTCTAACAGGTTAATTATAACTCATAAACTTATTGGGTTTTTTTACCTTTTAATTTTATATTACATTTGCTTATAATAAGGAATATTGCTAGGAATAAAATTTTTTAATATTCTACAATTAACAATTATCTCAATTTCTTTATTCTAAAGACATTGGGATTAGAAAAATGTTCACAAGGGACTCCAAATATTGCTGTAGTATTTGTTTCTTAAAAGAATGATACAAAGCAGACATGATAAAATATTAAAATTTGAGAGAACTTGATGGTAAGTACATGGGTGTTTCTTATTTTAAAATAATTTTTCTACTTGAAATATTTTACAATACAATAAGGGAAAAATAAAAAGTTATTTAAGTTATTCATACTTTCTTCTTCTTTTCTTTTTTGCTATAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAA c cT c GATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTAAGGCTGCTAACTGAAATGATTTTGAAAGGGGTAACTCATACCAACACAAATGGCTGATATAGCTGACATCATTCTACACACTTTGTGTGCATGTATGTGTGTGCACAACTTTAAAATGGAGTACCCTAACATACCTGGAGCAACAGGTACTTTTGACTGGACCTACCCCTAACTGAAATGATTTTGAAAGAGGTAACTCATACCAACACAAATGGTTGATATGGCTAAGATCATTCTACACACTTTGTGTGCATGTATTTCTGTGCACAACTTCAAAATGGAGTACCCTAAAATACCTGGCGCGACAAGTACTTTTGACTGAGCCTACTTCTCTCCTCACTGGTATGGCTCCAACCATCAGGCCCTATCTTGGTCCATTTAGGCTGCTAAAATAAAATACCAAAGACTGAGCTGCTTATAAGCAATCTTTGGAGGCTGAGAAG

In an embodiment, an ssODN may be to correct a mutation, e.g., N1303Ktarget site in the CFTR gene, and concomitantly introduce a silentmutation to disrupt subsequent Cas9 binding and cleavage. For example,the ssODN may include 5′ and 3′ homology arms as shown below. The 5′homology arm is shown as bold sequence, the inserted base to correct theN1303K mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 24; SEQ ID NO: 27296)AGTTATTCATACTTTCTTCTTCTTTTCTTTTTTGCTATAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAA c cT c GATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTAAG GCTGCTAACTGAAATG

The underlined C has been changed from a G to C so that wild-type CFTRis still transcribed, but the PAM sequence TGG has been modified toreduce or eliminate Cas9 cleavage at that locus.

Exemplary template nucleic acids (also referred to herein as donorconstructs) to correction a mutation, e.g., R117H target site in theCFTR gene, are provided.

Suitable sequence for the 5′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

SEQ ID NO: 27297(5′H arm)AACCCCTCAAATTAAGGGATGAGGCAGAATAATGCTTGGCAATACCAGGGGTAGGCTGCAGTCTTTCTTGGAAATATATATTTTAAATGGAACCAATTATCATAGCATCATTTCCTCTCAGGGTTACCCTCTGATCCCTATTTTACTAAATCGTTATAAAACAAAATGAGGAATTATGTGTCCTTCCCTTTTGAAGCCAATGTAACAAGATGGGTAAGAATTAGACCTCCTGAGTTCAAAATCCCTGGATTCAGATCTATTCCTGTATATTCAGGAGAAGTGGTAATAAATTCGATGGACAATTTGGTTTAGTAGTCGATTGAGGACCCTGATGAGGTATATTTGGGAAAACATAACTTCCGCTCTCTCTCATTGACTCACGGGCCTTTGAGGAGTCCAGGAGTCATTGGAATCTGGCCTGAGGTTGAGGCTGCTGGCAAAACTCCTTCCCCAAAGTCCATTCCTATTGCTGACTGAGAAGGGACTAGCATTGGAAGTGGCTGATTTTAAATACCGCTAGTGCTGGTGTGCTCCTCCCTCCCATTCCCAGCTCTGCTTTGTGTAGTTGCCTTGAGAAGCTAAGTTCATTCTGAAAATAATGCCATTGCACAAAACACTTTTGAAAGTTCTAGTTTGAAATTACATCAGGTCACTTGGTCTGTGTGGCCTCAGTTTCTTCATCTGCCATGTGAAAATAATAATGCCTACTCTGTAGCAAAGAAAGTCTCTATAGTAAACAAAAAAAAAGCCTACTCTGATACTGAAAGTTGTTATGAAAAATAAAAAAGGGAAATGCTTTAGAAACTGTTAAGTGCTATGTAGATGTTACTAATTAACAAACCATTTCAGAAACTATACTTTTTATTTTATGGCCACTATTCACTGTTTAACTTAAAATACCTCATATGTAAACTTGTCTCCCACTGTTGCTATAACAAATCCCAAGTCTTATTTCAAAGTACCAAGATATTGAAAATAGTGCTAAGAGTTTCACATATGGTATGACCCTCTATATAAACTCATTTTAAGTCTCCTCTAAAGATGAAAAGTCTTGTGTTGAAATTCTCAGGGTATTTTATGAGAAATAAATGAAATTTAATTTCTCTGTTTTTCCCCTTTTGTAGGAAGTCACCAAAGCAGTACAGCCTCTCTTACTGGGAAGAATCATAGCTTCCTATGACCCGGATAACAAGGAGGAAC

Suitable sequence for the 3′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

(3′H arm) SEQ ID NO: 27298CTCTATCGCGATTTATCTAGGCATAGGCTTATGCCTTCTCTTTATTGTGAGGACACTGCTCCTACACCCAGCCATTTTTGGCCTTCATCACATTGGAATGCAGATGAGAATAGCTATGTTTAGTTTGATTTATAAGAAGGTAATACTTCCTTGCACAGGCCCCATGGCACATATATTCTGTATCGTACATGTTTTAATGTCATAAATTAGGTAGTGAGCTGGTACAAGTAAGGGATAAATGCTGAAATTAATTTAATATGCCTATTAAATAAATGGCAGGAATAATTAATGCTCTTAATTATCCTTGATAATTTAATTGACTTAAACTGATAATTATTGAGTATCTTCTGTAAACTGCCTCTGTTGTAGTTTTTTTTTTCTCCTAATCATGTTATCATTTTTTTGGAATCCATGGTTTCCTGTTAAGATGACTCACACAGCCTACATAAAAGTAATTGACAAAATATCATCTTATAGTAAAATGCCACATATCTTTATGTTCAGCAAGAAGAGTATAATATATGATTGTTAATGATAACCCAAACAACAAAAGATTTCACCTTAACTGGTTGTCATAAGTAGTAGTATCCACCGCCTTATTTTGAGTTGGATTTTTATCATCCTATGAGCCCTACAAATTTAAAGTTTTTGGAACAGCACGTGCATTGAACCCATAAGAACCTACTCTGCTTTTCTGCATGTATTGTCCAGACAAGAGACCAAATTGCCGAGGCATCATTTAGGTGAATTCTAATTAACATTTAGCTACCTTACAACCACAATTCAAGGTTGTTTCAAAGGCATGTGCTTGCATCATCCTGATTCACTACCATGTGTTACTAACTTGGATCTGCAAAGTCATTATAAAAAGCTGTTTTGATGGACTTATTTGGATATTGCTTTACCCTTCTTCTCTCTTTTCTTTTATCAATGTAAAAACATTATATGTTAAATACTTGGCTTTTAAGAGCATAGATCTGAAATCTGCCTCTAGCAAATAACCCATAACACTTCTAAGATATACCTGCAAGGTCAATTGTGTTGTAAAACCTTGATAACCATACTTTATTGTTCAAAAAAGCCTTTTATGAAGGCAGAAGTTAAAAAAAAAAAACAAAAAAAACAGAGTCCACAGTTATCACCTCAGCTACAATCTCATCAGTTCACAAGTACCAGCAAAACATGTGATAAGTCAACAAA

In an embodiment, the replacement sequence comprises or consists of aGuanine (G) residue.

In an embodiment, to correct a mutation, e.g., R117H target site in theCFTR gene, the homology arms, e.g., the 5′ and 3′ homology arms, mayeach comprise about 1000 base pairs (bp) of sequence flanking the mostdistal gRNAs (e.g., 1200 bp of sequence on either side of the mutation).The 5′ homology arm is shown as bold sequence, the inserted base tocorrect the R117H mutation is shown as lower case sequence, and the 3′homology arm is shown as no emphasis capitalized sequence.

(Template Construct 25; SEQ ID NO: 27299)AACCCCTCAAATTAAGGGATGAGGCAGAATAATGCTTGGCAATACCAGGGGTAGGCTGCAGTCTTTCTTGGAAATATATATTTTAAATGGAACCAATTATCATAGCATCATTTCCTCTCAGGGTTACCCTCTGATCCCTATTTTACTAAATCGTTATAAAACAAAATGAGGAATTATGTGTCCTTCCCTTTTGAAGCCAATGTAACAAGATGGGTAAGAATTAGACCTCCTGAGTTCAAAATCCCTGGATTCAGATCTATTCCTGTATATTCAGGAGAAGTGGTAATAAATTCGATGGACAATTTGGTTTAGTAGTCGATTGAGGACCCTGATGAGGTATATTTGGGAAAACATAACTTCCGCTCTCTCTCATTGACTCACGGGCCTTTGAGGAGTCCAGGAGTCATTGGAATCTGGCCTGAGGTTGAGGCTGCTGGCAAAACTCCTTCCCCAAAGTCCATTCCTATTGCTGACTGAGAAGGGACTAGCATTGGAAGTGGCTGATTTTAAATACCGCTAGTGCTGGTGTGCTCCTCCCTCCCATTCCCAGCTCTGCTTTGTGTAGTTGCCTTGAGAAGCTAAGTTCATTCTGAAAATAATGCCATTGCACAAAACACTTTTGAAAGTTCTAGTTTGAAATTACATCAGGTCACTTGGTCTGTGTGGCCTCAGTTTCTTCATCTGCCATGTGAAAATAATAATGCCTACTCTGTAGCAAAGAAAGTCTCTATAGTAAACAAAAAAAAAGCCTACTCTGATACTGAAAGTTGTTATGAAAAATAAAAAAGGGAAATGCTTTAGAAACTGTTAAGTGCTATGTAGATGTTACTAATTAACAAACCATTTCAGAAACTATACTTTTTATTTTATGGCCACTATTCACTGTTTAACTTAAAATACCTCATATGTAAACTTGTCTCCCACTGTTGCTATAACAAATCCCAAGTCTTATTTCAAAGTACCAAGATATTGAAAATAGTGCTAAGAGTTTCACATATGGTATGACCCTCTATATAAACTCATTTTAAGTCTCCTCTAAAGATGAAAAGTCTTGTGTTGAAATTCTCAGGGTATTTTATGAGAAATAAATGAAATTTAATTTCTCTGTTTTTCCCCTTTTGTAGGAAGTCACCAAAGCAGTACAGCCTCTCTTACTGGGAAGAATCATAGCTTCCTATGACCCGGATAACAAGG AGG AACgCTCTATCGCGATTTATCTAGGCATAGGCTTATGCCTTCTCTTTATTGTGAGGACACTGCTCCTACACCCAGCCATTTTTGGCCTTCATCACATTGGAATGCAGATGAGAATAGCTATGTTTAGTTTGATTTATAAGAAGGTAATACTTCCTTGCACAGGCCCCATGGCACATATATTCTGTATCGTACATGTTTTAATGTCATAAATTAGGTAGTGAGCTGGTACAAGTAAGGGATAAATGCTGAAATTAATTTAATATGCCTATTAAATAAATGGCAGGAATAATTAATGCTCTTAATTATCCTTGATAATTTAATTGACTTAAACTGATAATTATTGAGTATCTTCTGTAAACTGCCTCTGTTGTAGTTTTTTTTTTCTCCTAATCATGTTATCATTTTTTTGGAATCCATGGTTTCCTGTTAAGATGACTCACACAGCCTACATAAAAGTAATTGACAAAATATCATCTTATAGTAAAATGCCACATATCTTTATGTTCAGCAAGAAGAGTATAATATATGATTGTTAATGATAACCCAAACAACAAAAGATTTCACCTTAACTGGTTGTCATAAGTAGTAGTATCCACCGCCTTATTTTGAGTTGGATTTTTATCATCCTATGAGCCCTACAAATTTAAAGTTTTTGGAACAGCACGTGCATTGAACCCATAAGAACCTACTCTGCTTTTCTGCATGTATTGTCCAGACAAGAGACCAAATTGCCGAGGCATCATTTAGGTGAATTCTAATTAACATTTAGCTACCTTACAACCACAATTCAAGGTTGTTTCAAAGGCATGTGCTTGCATCATCCTGATTCACTACCATGTGTTACTAACTTGGATCTGCAAAGTCATTATAAAAAGCTGTTTTGATGGACTTATTTGGATATTGCTTTACCCTTCTTCTCTCTTTTCTTTTATCAATGTAAAAACATTATATGTTAAATACTTGGCTTTTAAGAGCATAGATCTGAAATCTGCCTCTAGCAAATAACCCATAACACTTCTAAGATATACCTGCAAGGTCAATTGTGTTGTAAAACCTTGATAACCATACTTTATTGTTCAAAAAAGCCTTTTATGAAGGCAGAAGTTAAAAAAAAAAAACAAAAAAAACAGAGTCCACAGTTATCACCTCAGCTACAATCTCATCAGTTCACAAGTACCAGCAAAACATGTGATAAGTCAACAA A

As described below in Table 49, shorter homology arms, e.g., 5′ and/or3′ homology arms may be used.

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to correct R117H mutation in the CFTR gene, the 5′homology arm may be shortened less than 1000 nucleotides, e.g., e.g.,500 nucleotides, to avoid inclusion of a LINE repeat element in the 5′homology arm. The 5′ homology arm is shown as bold sequence, theinserted base to correct the R117H mutation is shown as lower casesequence, and the 3′ homology arm is shown as no emphasis capitalizedsequence.

(Template Construct 26; SEQ ID NO: 27300)ATGCCTACTCTGTAGCAAAGAAAGTCTCTATAGTAAACAAAAAAAAAGCCTACTCTGATACTGAAAGTTGTTATGAAAAATAAAAAAGGGAAATGCTTTAGAAACTGTTAAGTGCTATGTAGATGTTACTAATTAACAAACCATTTCAGAAACTATACTTTTTATTTTATGGCCACTATTCACTGTTTAACTTAAAATACCTCATATGTAAACTTGTCTCCCACTGTTGCTATAACAAATCCCAAGTCTTATTTCAAAGTACCAAGATATTGAAAATAGTGCTAAGAGTTTCACATATGGTATGACCCTCTATATAAACTCATTTTAAGTCTCCTCTAAAGATGAAAAGTCTTGTGTTGAAATTCTCAGGGTATTTTATGAGAAATAAATGAAATTTAATTTCTCTGTTTTTCCCCTTTTGTAGGAAGTCACCAAAGCAGTACAGCCTCTCTTACTGGGAAGAATCATAGCTTCCTATGACCCGGATAACAAGG AGG AACgCTCTATCGCGATTTATCTAGGCATAGGCTTATGCCTTCTCTTTATTGTGAGGACACTGCTCCTACACCCAGCCATTTTTGGCCTTCATCACATTGGAATGCAGATGAGAATAGCTATGTTTAGTTTGATTTATAAGAAGGTAATACTTCCTTGCACAGGCCCCATGGCACATATATTCTGTATCGTACATGTTTTAATGTCATAAATTAGGTAGTGAGCTGGTACAAGTAAGGGATAAATGCTGAAATTAATTTAATATGCCTATTAAATAAATGGCAGGAATAATTAATGCTCTTAATTATCCTTGATAATTTAATTGACTTAAACTGATAATTATTGAGTATCTTCTGTAAACTGCCTCTGTTGTAGTTTTTTTTTTCTCCTAATCATGTTATCATTTTTTTGGAATCCATGGTTTCCTGTTAAGATGACTCACACAGCCTACATAAAAGTAATTGACAAAATATCATCTTATAGTAAAATGCCACATATCTTTATG T

It is contemplated herein that template nucleic acids for correcting amutation may designed for use as a single-stranded oligonucleotide(ssODN). When using a ssODN, 5′ and 3′ homology arms may range up toabout 200 base pairs (bp) in length, e.g., at least 25, 50, 75, 100,125, 150, 175, or 200 bp in length. Longer homology arms are alsocontemplated for ssODNs as improvements in oligonucleotide synthesiscontinue to be made.

In an embodiment, an ssODN may be used to correct a mutation, e.g.,R117H target site in the CFTR gene. For example, the ssODN may include5′ and 3′ homology arms as shown below. The 5′ homology arm is shown asbold sequence, the inserted bases to correct the R117H mutation is shownas lower case sequence, and the 3′ homology arm is shown as no emphasiscapitalized sequence.

(Template Construct 27; SEQ ID NO: 27301)AAGTCACCAAAGCAGTACAGCCTCTCTTACTGGGAAGAATCATAGCTTCC TATGACCCGGATAACAAGGAGG AACgCTCTATCGCGATTTATCTAGGCATAGGCTTATGCCTTCTCTTTATTGTGAGGACACTGCTCCTACACCCAGCCA T

In an embodiment, to correct a mutation, e.g., R117H target site in theCFTR gene, and concomitantly introduce a silent sense mutation todisrupt subsequent Cas9 binding and cleavage, the homology arms, e.g.,the 5′ and 3′ homology arms, may each comprise about 1000 base pairs(bp) of sequence flanking the most distal gRNAs (e.g., 1200 bp ofsequence on either side of the mutation). The 5′ homology arm is shownas bold sequence, the inserted base to correct the R117H mutation isshown as lower case sequence, the silent sense mutation is shown aslower case underlined and italicized sequence, and the 3′ homology armis shown as no emphasis capitalized sequence.

(Template Construct 28; SEQ ID NO: 27302)AACCCCTCAAATTAAGGGATGAGGCAGAATAATGCTTGGCAATACCAGGGGTAGGCTGCAGTCTTTCTTGGAAATATATATTTTAAATGGAACCAATTATCATAGCATCATTTCCTCTCAGGGTTACCCTCTGATCCCTATTTTACTAAATCGTTATAAAACAAAATGAGGAATTATGTGTCCTTCCCTTTTGAAGCCAATGTAACAAGATGGGTAAGAATTAGACCTCCTGAGTTCAAAATCCCTGGATTCAGATCTATTCCTGTATATTCAGGAGAAGTGGTAATAAATTCGATGGACAATTTGGTTTAGTAGTCGATTGAGGACCCTGATGAGGTATATTTGGGAAAACATAACTTCCGCTCTCTCTCATTGACTCACGGGCCTTTGAGGAGTCCAGGAGTCATTGGAATCTGGCCTGAGGTTGAGGCTGCTGGCAAAACTCCTTCCCCAAAGTCCATTCCTATTGCTGACTGAGAAGGGACTAGCATTGGAAGTGGCTGATTTTAAATACCGCTAGTGCTGGTGTGCTCCTCCCTCCCATTCCCAGCTCTGCTTTGTGTAGTTGCCTTGAGAAGCTAAGTTCATTCTGAAAATAATGCCATTGCACAAAACACTTTTGAAAGTTCTAGTTTGAAATTACATCAGGTCACTTGGTCTGTGTGGCCTCAGTTTCTTCATCTGCCATGTGAAAATAATAATGCCTACTCTGTAGCAAAGAAAGTCTCTATAGTAAACAAAAAAAAAGCCTACTCTGATACTGAAAGTTGTTATGAAAAATAAAAAAGGGAAATGCTTTAGAAACTGTTAAGTGCTATGTAGATGTTACTAATTAACAAACCATTTCAGAAACTATACTTTTTATTTTATGGCCACTATTCACTGTTTAACTTAAAATACCTCATATGTAAACTTGTCTCCCACTGTTGCTATAACAAATCCCAAGTCTTATTTCAAAGTACCAAGATATTGAAAATAGTGCTAAGAGTTTCACATATGGTATGACCCTCTATATAAACTCATTTTAAGTCTCCTCTAAAGATGAAAAGTCTTGTGTTGAAATTCTCAGGGTATTTTATGAGAAATAAATGAAATTTAATTTCTCTGTTTTTCCCCTTTTGTAGGAAGTCACCAAAGCAGTACAGCCTCTCTTACTGGGAAGAATCATAGCTTCCTATGACCCGGATAA t AA a GA a GAACgCTCTATCGCGATTTATCTAGGCATAGGCTTATGCCTTCTCTTTATTGTGAGGACACTGCTCCTACACCCAGCCATTTTTGGCCTTCATCACATTGGAATGCAGATGAGAATAGCTATGTTTAGTTTGATTTATAAGAAGGTAATACTTCCTTGCACAGGCCCCATGGCACATATATTCTGTATCGTACATGTTTTAATGTCATAAATTAGGTAGTGAGCTGGTACAAGTAAGGGATAAATGCTGAAATTAATTTAATATGCCTATTAAATAAATGGCAGGAATAATTAATGCTCTTAATTATCCTTGATAATTTAATTGACTTAAACTGATAATTATTGAGTATCTTCTGTAAACTGCCTCTGTTGTAGTTTTTTTTTTCTCCTAATCATGTTATCATTTTTTTGGAATCCATGGTTTCCTGTTAAGATGACTCACACAGCCTACATAAAAGTAATTGACAAAATATCATCTTATAGTAAAATGCCACATATCTTTATGTTCAGCAAGAAGAGTATAATATATGATTGTTAATGATAACCCAAACAACAAAAGATTTCACCTTAACTGGTTGTCATAAGTAGTAGTATCCACCGCCTTATTTTGAGTTGGATTTTTATCATCCTATGAGCCCTACAAATTTAAAGTTTTTGGAACAGCACGTGCATTGAACCCATAAGAACCTACTCTGCTTTTCTGCATGTATTGTCCAGACAAGAGACCAAATTGCCGAGGCATCATTTAGGTGAATTCTAATTAACATTTAGCTACCTTACAACCACAATTCAAGGTTGTTTCAAAGGCATGTGCTTGCATCATCCTGATTCACTACCATGTGTTACTAACTTGGATCTGCAAAGTCATTATAAAAAGCTGTTTTGATGGACTTATTTGGATATTGCTTTACCCTTCTTCTCTCTTTTCTTTTATCAATGTAAAAACATTATATGTTAAATACTTGGCTTTTAAGAGCATAGATCTGAAATCTGCCTCTAGCAAATAACCCATAACACTTCTAAGATATACCTGCAAGGTCAATTGTGTTGTAAAACCTTGATAACCATACTTTATTGTTCAAAAAAGCCTTTTATGAAGGCAGAAGTTAAAAAAAAAAAACAAAAAAAACAGAGTCCACAGTTATCACCTCAGCTACAATCTCATCAGTTCACAAGTACCAGCAAAACATGTGATAAGTCAACAA A

In an embodiment, to correct a mutation, e.g., R117H target site in theCFTR gene, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the 5′ homology arm may beshortened less than 750 nucleotides, e.g., 500 nucleotides, to avoidinclusion of a LINE repeat element in the 5′ homology arm. The 5′homology arm is shown as bold sequence, the inserted base to correct theR117H mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 29; SEQ ID NO: 27303)ATGCCTACTCTGTAGCAAAGAAAGTCTCTATAGTAAACAAAAAAAAAGCCTACTCTGATACTGAAAGTTGTTATGAAAAATAAAAAAGGGAAATGCTTTAGAAACTGTTAAGTGCTATGTAGATGTTACTAATTAACAAACCATTTCAGAAACTATACTTTTTATTTTATGGCCACTATTCACTGTTTAACTTAAAATACCTCATATGTAAACTTGTCTCCCACTGTTGCTATAACAAATCCCAAGTCTTATTTCAAAGTACCAAGATATTGAAAATAGTGCTAAGAGTTTCACATATGGTATGACCCTCTATATAAACTCATTTTAAGTCTCCTCTAAAGATGAAAAGTCTTGTGTTGAAATTCTCAGGGTATTTTATGAGAAATAAATGAAATTTAATTTCTCTGTTTTTCCCCTTTTGTAGGAAGTCACCAAAGCAGTACAGCCTCTCTTACTGGGAAGAATCATAGCTTCCTATGACCCGGATAA t AA a GA a GAACgCTCTATCGCGATTTATCTAGGCATAGGCTTATGCCTTCTCTTTATTGTGAGGACACTGCTCCTACACCCAGCCATTTTTGGCCTTCATCACATTGGAATGCAGATGAGAATAGCTATGTTTAGTTTGATTTATAAGAAGGTAATACTTCCTTGCACAGGCCCCATGGCACATATATTCTGTATCGTACATGTTTTAATGTCATAAATTAGGTAGTGAGCTGGTACAAGTAAGGGATAAATGCTGAAATTAATTTAATATGCCTATTAAATAAATGGCAGGAATAATTAATGCTCTTAATTATCCTTGATAATTTAATTGACTTAAACTGATAATTATTGAGTATCTTCTGTAAACTGCCTCTGTTGTAGTTTTTTTTTTCTCCTAATCATGTTATCATTTTTTTGGAATCCATGGTTTCCTGTTAAGATGACTCACACAGCCTACATAAAAGTAATTGACAAAATATCATCTTATAGTAAAATGCCACATATCTTTATG T

In an embodiment, an ssODN may be to correct a mutation, e.g., R117Htarget site in the CFTR gene, and concomitantly introduce a silentmutation to disrupt subsequent Cas9 binding and cleavage. For example,the ssODN may include 5′ and 3′ homology arms as shown below. The 5′homology arm is shown as bold sequence, the inserted base to correct theR117H mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 30; SEQ ID NO: 27304)AAGTCACCAAAGCAGTACAGCCTCTCTTACTGGGAAGAATCATAGCTTCC TATGACCCGGATAA t AA aGA a GAACgCTCTATCGCGATTTATCTAGGCATAGGCTTATGCCTTCTCTTTATTGTGAGGACACTGCTCCTACACCCAGCCA T

The underlined T has been changed from an A to T at that position andeach underlined A has been changed from a T to A at that position sothat wild-type CFTR is still transcribed, but the PAM sequence TGG hasbeen modified to reduce or eliminate Cas9 cleavage at that locus.

Exemplary template nucleic acids (also referred to herein as donorconstructs) to correction a mutation, e.g., W1282X target site in theCFTR gene, are provided.

Suitable sequence for the 5′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

(5′H arm) SEQ ID NO: 27305TTTTTATTATATATTTTTGAAGTATTGATATGTAGTGAATTAGAAATTTAAAAAGAAAACAAAACTGTCCTTCACTACAGATTGAAAAGCATTATACTAAAAGACCATTTGCTCAGTTATAGTATATAAAGGCCAAATGACTTAAAAACAAATTATGTAAGGAGAAGGAAACAACCATTTATTCAGTGCCACTAACTGTCAGCCAGTTTTTTCAGTGGTCAGTTAATGACTGCAGTAGTGTTCTACCTTGCTCAAAGCACCCTCCTCAAGTTCTGGCATCTAAGCTGACATCAGAACACAGAGTTGGGGCTCTCTGTGGGTCACCTCTAGCACTTGATCTCCTCATGCAGTGCATGGTGCTCTCACGTCTATGCTATGTTCTTATGGTCTTTAGGTAACAAGAATAATTTTCTTTCTTTTCCTTACTATACATTTTGCTTTCTGAAATTCCCTTCTCGCCAATCCAGGTGAATGTCAGAATGTGATTTGACAACTGTCCAAAGTACTCATTCACTGAGGAGTGGTAAGGCCTTCGCCCAACCTGCCTTCTCTGGGAATATACTGCTGCCTGAACATATCATTGTTTATTGCCAGGCTTGAACTTCACCAAATTAATTTATTAGGGTCAACATCTAAATATTAGAACTATTTCAGATTAATTTTTAAGTCGTATCCACTTTGGGTACTAGATCAAATTGCAGGTCTCTGCTTCTGGCTTGAGCCTATGTTTAGAGATGATGTGCATGAAGACACTCTTTGCTTTTCCTTTATGCAAAATGGGCATTTTCAATCTTTTTGTCATTAGTAAAGGTCAGTGATAAAGGAAGTCTGCATCAGGGGTCCAATTCCTTATGGCCAGTTTCTCTATTCTGTTCCAAGGTTGTTTGTCTCCATATATCAACATTGGTCAGGATTGAAAGTGTGCAACAAGGTTTGAATGAATAAGTGAAAATCTTCCACTGGTGACAGGATAAAATATTCCAATGGTTTTTATTGAAGTACAATACTGAATTATGTTTATGGCATGGTACCTATATGTCACAGAAGTGATCCCATCACTTTTACCTTATAGGTGGGCCTCTTGGGAAGAACTGGATCAGGGAAGAGTACTTTGTTATCAGCTTTTTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTG

Suitable sequence for the 3′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

(3′H arm) SEQ ID NO: 27306AGGAAAGCCTTTGGAGTGATACCACAGGTGAGCAAAAGGACTTAGCCAGAAAAAAGGCAACTAAATTATATTTTTTACTGCTATTTGATACTTGTACTCAAGAAATTCATATTACTCTGCAAAATATATTTGTTATGCATTGCTGTCTTTTTTCTCCAGTGCAGTTTTCTCATAGGCAGAAAAGATGTCTCTAAAAGTTTGGAATTCTCAAATTCTGGTTATTGAAATGTTCATAGCTTTGATAGTGTTTTTCAGAAGACCAAATTTACAGTGGGAGCCTTGGGCTTTTGTTTTTTAACAGCTCTTTTTTGTTCCTGCTTCAGTGGCCTGACCTCCAAGTTAGCAATCGCCAGGTTGAGAAATGCTTTGCGAGACATAACAGATGCTCCTGAAATAACAAACACTTGGAATCATGAGGTAGTGGAATTGAAAATAGAAAGTGTAGTGATTGTTTTTTGTTATTTGGATGGGATGAACAATGTCAGATTAGTCTGTAACTATTTTTTTTTAATGTCACTCTGATTTGGTCACAAAGGATCTCTAGTCTCATTGCCTTAGTATCATTCTACGAATTAGAATGTGTTACTGTGTAAGAGCACTTCTTGTATATGAGAGAAATAGCAACAGTTCCAGTTTAAAGTGATATAAATGGAAACCAAGAAATGTCTTTACTGGGACCAAATCTGGACAGCATTTACTGTATTTTTGCTGGTATTTTCTCTAGTCTTTCCGGGTATATTCACATTTAATGATCACTTTTCTCCCTTTGTGCTAATGGACACTGAATCCATTCCACTACCATAGTTCTTGCTAATACTACTCTACTTTTTACACAAAATTAAAATGCCAGGAGCACCTCCAGGTAGACTGACTATAAATCTAGACTGAAAAAAAAGCTTGTATTTCTTAACAGATTACCTTGTGGAACATTTGCTCCTTTCAACTAATGAGGCACTAAATATTGTAACTGCTCAACTGGTGCTTTTAATTTATTTGTCTAGACTTTGTCATGTTGCCAGAAGCTTTATCCTGGTTGGAGTTTTGAAAACAGTATTGTTTCTTCAGAAAGAAAAAAGGGATTGTCAGATGATCTAAAAATAAAGAAACACTGGAAATACAAGTATCCCAAGGTGATAGCATTAGGCAAGATAAAAATGTTGAAAAGCGAAAAAGAACTGGTTGATAGAGAAGTGTTGTTAT

In an embodiment, the replacement sequence comprises or consists of aGuanine (G) residue.

In an embodiment, to correct a mutation, e.g., W1282X target site in theCFTR gene, the homology arms, e.g., the 5′ and 3′ homology arms, mayeach comprise about 1000 base pairs (bp) of sequence flanking the mostdistal gRNAs (e.g., 1200 bp of sequence on either side of the mutation).The 5′ homology arm is shown as bold sequence, the inserted base tocorrect the W1282X mutation is shown as lower case sequence, and the 3′homology arm is shown as no emphasis capitalized sequence.

(Template Construct 31; SEQ ID NO: 27307)TTTTTATTATATATTTTTGAAGTATTGATATGTAGTGAATTAGAAATTTAAAAAGAAAACAAAACTGTCCTTCACTACAGATTGAAAAGCATTATACTAAAAGACCATTTGCTCAGTTATAGTATATAAAGGCCAAATGACTTAAAAACAAATTATGTAAGGAGAAGGAAACAACCATTTATTCAGTGCCACTAACTGTCAGCCAGTTTTTTCAGTGGTCAGTTAATGACTGCAGTAGTGTTCTACCTTGCTCAAAGCACCCTCCTCAAGTTCTGGCATCTAAGCTGACATCAGAACACAGAGTTGGGGCTCTCTGTGGGTCACCTCTAGCACTTGATCTCCTCATGCAGTGCATGGTGCTCTCACGTCTATGCTATGTTCTTATGGTCTTTAGGTAACAAGAATAATTTTCTTTCTTTTCCTTACTATACATTTTGCTTTCTGAAATTCCCTTCTCGCCAATCCAGGTGAATGTCAGAATGTGATTTGACAACTGTCCAAAGTACTCATTCACTGAGGAGTGGTAAGGCCTTCGCCCAACCTGCCTTCTCTGGGAATATACTGCTGCCTGAACATATCATTGTTTATTGCCAGGCTTGAACTTCACCAAATTAATTTATTAGGGTCAACATCTAAATATTAGAACTATTTCAGATTAATTTTTAAGTCGTATCCACTTTGGGTACTAGATCAAATTGCAGGTCTCTGCTTCTGGCTTGAGCCTATGTTTAGAGATGATGTGCATGAAGACACTCTTTGCTTTTCCTTTATGCAAAATGGGCATTTTCAATCTTTTTGTCATTAGTAAAGGTCAGTGATAAAGGAAGTCTGCATCAGGGGTCCAATTCCTTATGGCCAGTTTCTCTATTCTGTTCCAAGGTTGTTTGTCTCCATATATCAACATTGGTCAGGATTGAAAGTGTGCAACAAGGTTTGAATGAATAAGTGAAAATCTTCCACTGGTGACAGGATAAAATATTCCAATGGTTTTTATTGAAGTACAATACTGAATTATGTTTATGGCATGGTACCTATATGTCACAGAAGTGATCCCATCACTTTTACCTTATAGGTGGGCCTCTTGGGAAGAACTGGATCAGGGAAGAGTACTTTGTTATCAGCTTTTTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTGgAGGAAAGCCTTTGGAGTGATACCACAGGTGAGCAAAAGGACTTAGCCAGAAAAAAGGCAACTAAATTATATTTTTTACTGCTATTTGATACTTGTACTCAAGAAATTCATATTACTCTGCAAAATATATTTGTTATGCATTGCTGTCTTTTTTCTCCAGTGCAGTTTTCTCATAGGCAGAAAAGATGTCTCTAAAAGTTTGGAATTCTCAAATTCTGGTTATTGAAATGTTCATAGCTTTGATAGTGTTTTTCAGAAGACCAAATTTACAGTGGGAGCCTTGGGCTTTTGTTTTTTAACAGCTCTTTTTTGTTCCTGCTTCAGTGGCCTGACCTCCAAGTTAGCAATCGCCAGGTTGAGAAATGCTTTGCGAGACATAACAGATGCTCCTGAAATAACAAACACTTGGAATCATGAGGTAGTGGAATTGAAAATAGAAAGTGTAGTGATTGTTTTTTGTTATTTGGATGGGATGAACAATGTCAGATTAGTCTGTAACTATTTTTTTTTAATGTCACTCTGATTTGGTCACAAAGGATCTCTAGTCTCATTGCCTTAGTATCATTCTACGAATTAGAATGTGTTACTGTGTAAGAGCACTTCTTGTATATGAGAGAAATAGCAACAGTTCCAGTTTAAAGTGATATAAATGGAAACCAAGAAATGTCTTTACTGGGACCAAATCTGGACAGCATTTACTGTATTTTTGCTGGTATTTTCTCTAGTCTTTCCGGGTATATTCACATTTAATGATCACTTTTCTCCCTTTGTGCTAATGGACACTGAATCCATTCCACTACCATAGTTCTTGCTAATACTACTCTACTTTTTACACAAAATTAAAATGCCAGGAGCACCTCCAGGTAGACTGACTATAAATCTAGACTGAAAAAAAAGCTTGTATTTCTTAACAGATTACCTTGTGGAACATTTGCTCCTTTCAACTAATGAGGCACTAAATATTGTAACTGCTCAACTGGTGCTTTTAATTTATTTGTCTAGACTTTGTCATGTTGCCAGAAGCTTTATCCTGGTTGGAGTTTTGAAAACAGTATTGTTTCTTCAGAAAGAAAAAAGGGATTGTCAGATGATCTAAAAATAAAGAAACACTGGAAATACAAGTATCCCAAGGTGATAGCATTAGGCAAGATAAAAATGTTGAAAAGCGAAAAAGAACTGGTTGATAGAGAAGTGTTGTTA T

As described below in Table 49, shorter homology arms, e.g., 5′ and/or3′ homology arms may be used.

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to correct W1282X mutation in the CFTR gene, the 5′homology arm may be shortened less than 1000 nucleotides, e.g., e.g.,500 nucleotides, to avoid inclusion of a LINE repeat element in the 5′homology arm. The 5′ homology arm is shown as bold sequence, theinserted base to correct the W1282X mutation is shown as lower casesequence, and the 3′ homology arm is shown as no emphasis capitalizedsequence.

(Template Construct 32; SEQ ID NO: 27308)GGTCTCTGCTTCTGGCTTGAGCCTATGTTTAGAGATGATGTGCATGAAGACACTCTTTGCTTTTCCTTTATGCAAAATGGGCATTTTCAATCTTTTTGTCATTAGTAAAGGTCAGTGATAAAGGAAGTCTGCATCAGGGGTCCAATTCCTTATGGCCAGTTTCTCTATTCTGTTCCAAGGTTGTTTGTCTCCATATATCAACATTGGTCAGGATTGAAAGTGTGCAACAAGGTTTGAATGAATAAGTGAAAATCTTCCACTGGTGACAGGATAAAATATTCCAATGGTTTTTATTGAAGTACAATACTGAATTATGTTTATGGCATGGTACCTATATGTCACAGAAGTGATCCCATCACTTTTACCTTATAGGTGGGCCTCTTGGGAAGAACTGGATCAGGGAAGAGTACTTTGTTATCAGCTTTTTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTGgAGGAAAGCCTTTGGAGTGATACCACAGGTGAGCAAAAGGACTTAGCCAGAAAAAAGGCAACTAAATTATATTTTTTACTGCTATTTGATACTTGTACTCAAGAAATTCATATTACTCTGCAAAATATATTTGTTATGCATTGCTGTCTTTTTTCTCCAGTGCAGTTTTCTCATAGGCAGAAAAGATGTCTCTAAAAGTTTGGAATTCTCAAATTCTGGTTATTGAAATGTTCATAGCTTTGATAGTGTTTTTCAGAAGACCAAATTTACAGTGGGAGCCTTGGGCTTTTGTTTTTTAACAGCTCTTTTTTGTTCCTGCTTCAGTGGCCTGACCTCCAAGTTAGCAATCGCCAGGTTGAGAAATGCTTTGCGAGACATAACAGATGCTCCTGAAATAACAAACACTTGGAATCATGAGGTAGTGGAATTGAAAATAGAAAGTGTAGTGATTGTTTTTTGTTATTTGGATGGGATGAACAATGTCAGATTAGTCTGTAACT A

It is contemplated herein that template nucleic acids for correcting amutation may designed for use as a single-stranded oligonucleotide(ssODN). When using a ssODN, 5′ and 3′ homology arms may range up toabout 200 base pairs (bp) in length, e.g., at least 25, 50, 75, 100,125, 150, 175, or 200 bp in length. Longer homology arms are alsocontemplated for ssODNs as improvements in oligonucleotide synthesiscontinue to be made.

In an embodiment, an ssODN may be used to correct a mutation, e.g.,W1282X target site in the CFTR gene. For example, the ssODN may include5′ and 3′ homology arms as shown below. The 5′ homology arm is shown asbold sequence, the inserted bases to correct the W1282X mutation isshown as lower case sequence, and the 3′ homology arm is shown as noemphasis capitalized sequence.

(Template Construct 33; SEQ ID NO: 27309)TTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTGgAGGAAAGCCTTTGGAGTGATACCACAGGTGAGCAAAAGGACTTAGCCAGAAAAAAGGCAACTAAATTATATTTT

In an embodiment, to correct a mutation, e.g., W1282X target site in theCFTR gene, and concomitantly introduce a silent sense mutation todisrupt subsequent Cas9 binding and cleavage, the homology arms, e.g.,the 5′ and 3′ homology arms, may each comprise about 1000 base pairs(bp) of sequence flanking the most distal gRNAs (e.g., 1200 bp ofsequence on either side of the mutation). The 5′ homology arm is shownas bold sequence, the inserted base to correct the W1282X mutation isshown as lower case sequence, the silent sense mutation is shown aslower case underlined and italicized sequence, and the 3′ homology armis shown as no emphasis capitalized sequence.

(Template Construct 34; SEQ ID NO: 27310)TTTTTATTATATATTTTTGAAGTATTGATATGTAGTGAATTAGAAATTTAAAAAGAAAACAAAACTGTCCTTCACTACAGATTGAAAAGCATTATACTAAAAGACCATTTGCTCAGTTATAGTATATAAAGGCCAAATGACTTAAAAACAAATTATGTAAGGAGAAGGAAACAACCATTTATTCAGTGCCACTAACTGTCAGCCAGTTTTTTCAGTGGTCAGTTAATGACTGCAGTAGTGTTCTACCTTGCTCAAAGCACCCTCCTCAAGTTCTGGCATCTAAGCTGACATCAGAACACAGAGTTGGGGCTCTCTGTGGGTCACCTCTAGCACTTGATCTCCTCATGCAGTGCATGGTGCTCTCACGTCTATGCTATGTTCTTATGGTCTTTAGGTAACAAGAATAATTTTCTTTCTTTTCCTTACTATACATTTTGCTTTCTGAAATTCCCTTCTCGCCAATCCAGGTGAATGTCAGAATGTGATTTGACAACTGTCCAAAGTACTCATTCACTGAGGAGTGGTAAGGCCTTCGCCCAACCTGCCTTCTCTGGGAATATACTGCTGCCTGAACATATCATTGTTTATTGCCAGGCTTGAACTTCACCAAATTAATTTATTAGGGTCAACATCTAAATATTAGAACTATTTCAGATTAATTTTTAAGTCGTATCCACTTTGGGTACTAGATCAAATTGCAGGTCTCTGCTTCTGGCTTGAGCCTATGTTTAGAGATGATGTGCATGAAGACACTCTTTGCTTTTCCTTTATGCAAAATGGGCATTTTCAATCTTTTTGTCATTAGTAAAGGTCAGTGATAAAGGAAGTCTGCATCAGGGGTCCAATTCCTTATGGCCAGTTTCTCTATTCTGTTCCAAGGTTGTTTGTCTCCATATATCAACATTGGTCAGGATTGAAAGTGTGCAACAAGGTTTGAATGAATAAGTGAAAATCTTCCACTGGTGACAGGATAAAATATTCCAATGGTTTTTATTGAAGTACAATACTGAATTATGTTTATGGCATGGTACCTATATGTCACAGAAGTGATCCCATCACTTTTACCTTATAGGTGGGCCTCTTGGGAAGAACTGGATCAGGGAAGAGTACTTTGTTATCAGCTTTTTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTG gAG aAAAGCCTTTGGAGTGATACCACAGGTGAGCAAAAGGACTTAGCCAGAAAAAAGGCAACTAAATTATATTTTTTACTGCTATTTGATACTTGTACTCAAGAAATTCATATTACTCTGCAAAATATATTTGTTATGCATTGCTGTCTTTTTTCTCCAGTGCAGTTTTCTCATAGGCAGAAAAGATGTCTCTAAAAGTTTGGAATTCTCAAATTCTGGTTATTGAAATGTTCATAGCTTTGATAGTGTTTTTCAGAAGACCAAATTTACAGTGGGAGCCTTGGGCTTTTGTTTTTTAACAGCTCTTTTTTGTTCCTGCTTCAGTGGCCTGACCTCCAAGTTAGCAATCGCCAGGTTGAGAAATGCTTTGCGAGACATAACAGATGCTCCTGAAATAACAAACACTTGGAATCATGAGGTAGTGGAATTGAAAATAGAAAGTGTAGTGATTGTTTTTTGTTATTTGGATGGGATGAACAATGTCAGATTAGTCTGTAACTATTTTTTTTTAATGTCACTCTGATTTGGTCACAAAGGATCTCTAGTCTCATTGCCTTAGTATCATTCTACGAATTAGAATGTGTTACTGTGTAAGAGCACTTCTTGTATATGAGAGAAATAGCAACAGTTCCAGTTTAAAGTGATATAAATGGAAACCAAGAAATGTCTTTACTGGGACCAAATCTGGACAGCATTTACTGTATTTTTGCTGGTATTTTCTCTAGTCTTTCCGGGTATATTCACATTTAATGATCACTTTTCTCCCTTTGTGCTAATGGACACTGAATCCATTCCACTACCATAGTTCTTGCTAATACTACTCTACTTTTTACACAAAATTAAAATGCCAGGAGCACCTCCAGGTAGACTGACTATAAATCTAGACTGAAAAAAAAGCTTGTATTTCTTAACAGATTACCTTGTGGAACATTTGCTCCTTTCAACTAATGAGGCACTAAATATTGTAACTGCTCAACTGGTGCTTTTAATTTATTTGTCTAGACTTTGTCATGTTGCCAGAAGCTTTATCCTGGTTGGAGTTTTGAAAACAGTATTGTTTCTTCAGAAAGAAAAAAGGGATTGTCAGATGATCTAAAAATAAAGAAACACTGGAAATACAAGTATCCCAAGGTGATAGCATTAGGCAAGATAAAAATGTTGAAAAGCGAAAAAGAACTGGTTGATAGAGAAGTGTTGTTA T

In an embodiment, to correct a mutation, e.g., W1282X target site in theCFTR gene, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the 5′ homology arm may beshortened less than 750 nucleotides, e.g., 500 nucleotides, to avoidinclusion of a LINE repeat element in the 5′ homology arm. The 5′homology arm is shown as bold sequence, the inserted base to correct theW1282X mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

GGTCTCTGCTTCTGGCTTGAGCCTATGTTTAGAGATGATGTGCATGAAGACACTCTTTGCTTTTCCTTTATGCAAAATGGGCATTTTCAATCTTTTTGTCATTAGTAAAGGTCAGTGATAAAGGAAGTCTGCATCAGGGGTCCAATTCCTTATGGCCAGTTTCTCTATTCTGTTCCAAGGTTGTTTGTCTCCATATATCAACATTGGTCAGGATTGAAAGTGTGCAACAAGGTTTGAATGAATAAGTGAAAATCTTCCACTGGTGACAGGATAAAATATTCCAATGGTTTTTATTGAAGTACAATACTGAATTATGTTTATGGCATGGTACCTATATGTCACAGAAGTGATCCCATCACTTTTACCTTATAGGTGGGCCTCTTGGGAAGAACTGGATCAGGGAAGAGTACTTTGTTATCAGCTTTTTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTG gAG aAAAGCCTTTGGAGTGATACCACAGGTGAGCAAAAGGACTTAGCCAGAAAAAAGGCAACTAAATTATATTTTTTACTGCTATTTGATACTTGTACTCAAGAAATTCATATTACTCTGCAAAATATATTTGTTATGCATTGCTGTCTTTTTTCTCCAGTGCAGTTTTCTCATAGGCAGAAAAGATGTCTCTAAAAGTTTGGAATTCTCAAATTCTGGTTATTGAAATGTTCATAGCTTTGATAGTGTTTTTCAGAAGACCAAATTTACAGTGGGAGCCTTGGGCTTTTGTTTTTTAACAGCTCTTTTTTGTTCCTGCTTCAGTGGCCTGACCTCCAAGTTAGCAATCGCCAGGTTGAGAAATGCTTTGCGAGACATAACAGATGCTCCTGAAATAACAAACACTTGGAATCATGAGGTAGTGGAATTGAAAATAGAAAGTGTAGTGATTGTTTTTTGTTATTTGGATGGGATGAACAATGTCAGATTAGTCTGTAACT A

In an embodiment, an ssODN may be to correct a mutation, e.g., W1282Xtarget site in the CFTR gene, and concomitantly introduce a silentmutation to disrupt subsequent Cas9 binding and cleavage. For example,the ssODN may include 5′ and 3′ homology arms as shown below. The 5′homology arm is shown as bold sequence, the inserted base to correct theW1282X mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 35; SEQ ID NO: 27311)TTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTGgAG a AAAGCCTTTGGAGTGATACCACAGGTGAGCAAAAGGACTTAGCCAGAAAAAAGGCAACTAAATTATATTTT

The underlined A has been changed from a T to A at that position so thatwild-type CFTR is still transcribed, but the PAM sequence AGG has beenmodified to reduce or eliminate Cas9 cleavage at that locus.

Exemplary template nucleic acids (also referred to herein as donorconstructs) to correction a mutation, e.g., R553X target site in theCFTR gene, are provided.

Suitable sequence for the 5′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

SEQ ID NO: 27312 (5'H arm)AACAGAAGTAACCATTTTGATACTTTAGATATAGATAATATTGGATTATTTCTGGATTGTGAAAGAAGAAGGAAGAAGCATATGGAAGAGAAGTTTTAGTAGAGGGGAGGAAGGAGGAGGTGGAAACGAATGTACAAGGATGGGAGGAGAAAAGGGAGAGAGACTTTTTTTTTTTTAAGGCGAGAGTTTACTACCTATCTAACTCTTCGCATTCTTGAAGTCTCAGACCAAATCCCATCGGTTTGAAAGCCTCTAGGGTATTCTATCTATTGTATACTTCTGTTATGTACAAAATTAATTTGCCAATTAATTGTGAACTGTTTTATAAACTATCTTAAAATGGTTAGTTAAATCTTTGGGATAGTATTTAGCTTTCTCCAGGATTATGACTTACCTTCTAAATTAGACATACAATGCCTAGGAGTCAAGGACTATTTTGCATAAATTCCAGTCTTCTTTTACAATGCCTAGAATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGGAGGTCAA

Suitable sequence for the 3′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

SEQ ID NO: 27313 (3'H arm)GAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACTCTTGGTCCAAGCATTTTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCITTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGAAACTAACCCTAACTGAGCACCTGCAATTGCCTGGTAGTATTCTAGTCATGTGTGTACTTTTGTGTGTATGTAATCCCCTTACAGCTCTGCAAAGTAAGAATTGTTCTCCCTGCTTTACAGAAGAGATCATAAGATAATTGAGGCTGTTAGATGTTAACTTGCCAAAAGCCATACAGGAAAATGGTAGAGTCACAGTTTGAACCAGGTCCTTTTGATTCTTTACATTAAACCATGCTTTGATCTTGGAAATACACTGTAAGGCAATAAATCAATAGATACGGATAATTCACAGGCTTCTAAATAAATGGAAGTTGATTGTTTTTATCTGTGAGCCAAAGTAAGACTTATTCTAAGAATTCCACAAATTTAGATAAGATAGAGTATAT

In an embodiment, the replacement sequence comprises or consists of aCytosine (C) residue.

In an embodiment, to correct a mutation, e.g., R553X target site in theCFTR gene, the homology arms, e.g., the 5′ and 3′ homology arms, mayeach comprise about 1000 base pairs (bp) of sequence flanking the mostdistal gRNAs (e.g., 1200 bp of sequence on either side of the mutation).The 5′ homology arm is shown as bold sequence, the inserted base tocorrect the R553X mutation is shown as lower case sequence, and the 3′homology arm is shown as no emphasis capitalized sequence.

(Template Construct 36; SEQ ID NO: 27314)AACAGAAGTAACCATTTTGATACTTTAGATATAGATAATATTGGATTATTTCTGGATTGTGAAAGAAGAAGGAAGAAGCATATGGAAGAGAAGTTTTAGTAGAGGGGAGGAAGGAGGAGGTGGAAACGAATGTACAAGGATGGGAGGAGAAAAGGGAGAGAGACTTTTTTTTTTTTAAGGCGAGAGTTTACTACCTATCTAACTCTTCGCATTCTTGAAGTCTCAGACCAAATCCCATCGGTTTGAAAGCCTCTAGGGTATTCTATCTATTGTATACTTCTGTTATGTACAAAATTAATTTGCCAATTAATTGTGAACTGTTTTATAAACTATCTTAAAATGGTTAGTTAAATCTTTGGGATAGTATTTAGCTTTCTCCAGGATTATGACTTACCTTCTAAATTAGACATACAATGCCTAGGAGTCAAGGACTATTTTGCATAAATTCCAGTCTTCTTTTACAATGCCTAGAATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGG AGG TCAAcGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACTCTTGGTCCAAGCATTTTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCTTTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGAAACTAACCCTAACTGAGCACCTGCAATTGCCTGGTAGTATTCTAGTCATGTGTGTACTTTTGTGTGTATGTAATCCCCTTACAGCTCTGCAAAGTAAGAATTGTTCTCCCTGCTTTACAGAAGAGATCATAAGATAATTGAGGCTGTTAGATGTTAACTTGCCAAAAGCCATACAGGAAAATGGTAGAGTCACAGTTTGAACCAGGTCCTTTTGATTCTTTACATTAAACCATGCTTTGATCTTGGAAATACACTGTAAGGCAATAAATCAATAGATACGGATAATTCACAGGCTTCTAAATAAATGGAAGTTGATTGTTTTTATCTGTGAGCCAAAGTAAGACTTATTCTAAGAATTCCACAAATTTAGATAAGATAGAGTATAT

As described below in Table 49, shorter homology arms, e.g., 5′ and/or3′ homology arms may be used.

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to correct R553X mutation in the CFTR gene, the 5′homology arm may be shortened less than 1000 nucleotides, e.g., e.g.,500 nucleotides, to avoid inclusion of a LINE repeat element in the 5′homology arm. The 5′ homology arm is shown as bold sequence, theinserted base to correct the R553X mutation is shown as lower casesequence, and the 3′ homology arm is shown as no emphasis capitalizedsequence.

(Template Construct 37; SEQ ID NO: 27315)CTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGG AGG TCAAcGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAAT

It is contemplated herein that template nucleic acids for correcting amutation may designed for use as a single-stranded oligonucleotide(ssODN). When using a ssODN, 5′ and 3′ homology arms may range up toabout 200 base pairs (bp) in length, e.g., at least 25, 50, 75, 100,125, 150, 175, or 200 bp in length. Longer homology arms are alsocontemplated for ssODNs as improvements in oligonucleotide synthesiscontinue to be made.

In an embodiment, an ssODN may be used to correct a mutation, e.g.,R553X target site in the CFTR gene. For example, the ssODN may include5′ and 3′ homology arms as shown below. The 5′ homology arm is shown asbold sequence, the inserted bases to correct the R553X mutation is shownas lower case sequence, and the 3′ homology arm is shown as no emphasiscapitalized sequence.

(Template Construct 38; SEQ ID NO: 27316)TAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGA GTGGAGG TCAAcGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGT

In an embodiment, to correct a mutation, e.g., R553X target site in theCFTR gene, and concomitantly introduce a silent sense mutation todisrupt subsequent Cas9 binding and cleavage, the homology arms, e.g.,the 5′ and 3′ homology arms, may each comprise about 1000 base pairs(bp) of sequence flanking the most distal gRNAs (e.g., 1200 bp ofsequence on either side of the mutation). The 5′ homology arm is shownas bold sequence, the inserted base to correct the R553X mutation isshown as lower case sequence, the silent sense mutation is shown aslower case underlined and italicized sequence, and the 3′ homology armis shown as no emphasis capitalized sequence.

(Template Construct 39; SEQ ID NO: 27317)AACAGAAGTAACCATTTTGATACTTTAGATATAGATAATATTGGATTATTTCTGGATTGTGAAAGAAGAAGGAAGAAGCATATGGAAGAGAAGTTTTAGTAGAGGGGAGGAAGGAGGAGGTGGAAACGAATGTACAAGGATGGGAGGAGAAAAGGGAGAGAGACTTTTTTTTTTTTAAGGCGAGAGTTTACTACCTATCTAACTCTTCGCATTCTTGAAGTCTCAGACCAAATCCCATCGGTTTGAAAGCCTCTAGGGTATTCTATCTATTGTATACTTCTGTTATGTACAAAATTAATTTGCCAATTAATTGTGAACTGTTTTATAAACTATCTTAAAATGGTTAGTTAAATCTTTGGGATAGTATTTAGCTTTCTCCAGGATTATGACTTACCTTCTAAATTAGACATACAATGCCTAGGAGTCAAGGACTATTTTGCATAAATTCCAGTCTTCTTTTACAATGCCTAGAATGATTGTTACCACAGAAATATTCATTACCTGGGAGAAAGGATGACAGGAGGGGCAGAATGAATGGAGAGAGGTCGTGAGAATGAGGTGCTGAGGATGGACGAGGAAGAAAGCTGTTTTAGTTGGGAGGATAGGTGACAGAAGCATGGAAAGGAATTGCCTTGGACCCATGGAAGCCCAGTGAAGATACTTAGATCCTGCAGGGGTGTGAATAATGTTCTTTTAGTTTCTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTG tca GGAGGTCAAcGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAATAAACAGGACAAATGCATTAACATTGTTGGGGGAGGAGGTCCCTTAGTAGAAACACTCTTGGTCCAAGCATTTTAAAGCTGTCAAAGAGATGTAAATATAGATAATGTATGTCAAGGAGAGAGCTTTGTGGTTAAACTGTAACTTTCAGTTTAAACAATTATTGGTGACTCTGATGTCAAATGTTTCTCAAGCTTTATCTGAACAAAATTCTTCTCACTTTGTTGCCAAAGTCGTTAACAAGAAATCACATTGACTCATTGATGTTTTGGCTCCTTTCCCTTACTTTCTGTTGCTTTCCAAAAGCTGAGACAGGAAACTAACCCTAACTGAGCACCTGCAATTGCCTGGTAGTATTCTAGTCATGTGTGTACTTTTGTGTGTATGTAATCCCCTTACAGCTCTGCAAAGTAAGAATTGTTCTCCCTGCTTTACAGAAGAGATCATAAGATAATTGAGGCTGTTAGATGTTAACTTGCCAAAAGCCATACAGGAAAATGGTAGAGTCACAGTTTGAACCAGGTCCTTTTGATTCTTTACATTAAACCATGCTTTGATCTTGGAAATACACTGTAAGGCAATAAATCAATAGATACGGATAATTCACAGGCTTCTAAATAAATGGAAGTTGATTGTTTTTATCTGTGAGCCAAAGTAAGACTTATTCTAAGAATTCCACAAATTTAGATAAGATAGAGTATAT

In an embodiment, to correct a mutation, e.g., R553X target site in theCFTR gene, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the 5′ homology arm may beshortened less than 750 nucleotides, e.g., 500 nucleotides, to avoidinclusion of a LINE repeat element in the 5′ homology arm. The 5′homology arm is shown as bold sequence, the inserted base to correct theR553X mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 40; SEQ ID NO: 27318)CTCTTCTTAGGAGGTTTGTTCATTTTGGGAGATTTCTTTTGAAAAGAGTGAACTTAAATTGGAGAAAAGTACATTTTAGTATGTTGATAACATTTGAATTTGTAAAATGGACCTATGGATGATCTACACATATTTATATACCCATAAATATACACATATTTTAATTTTTGGTATTTTATAATTATTATTTAATGATCATTCATGACATTTTAAAAATTACAGAAAAATTTACATCTAAAATTTCAGCAATGTTGTTTTTGACCAACTAAATAAATTGCATTTGAAATAATGGAGATGCAATGTTCAAAATTTCAACTGTGGTTAAAGCAATAGTGTGATATATGATTACATTAGAAGGAAGATGTGCCTTTCAAATTCAGATTGAGCATACTAAAAGTGACTCTCTAATTTTCTATTTTTGGTAATAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTG tca GGAGGTCAAcGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGTAAAAAAATTACAGACATTTCTCTATTGCTTTATATTCTGTTTCTGGAATTGAAAAAATCCTGGGGTTTTATGGCTAGTGGGTTAAGAATCACATTTAAGAACTATAAATAATGGTATAGTATCCAGATTTGGTAGAGATTATGGTTACTCAGAATCTGTGCCCGTATCTTGGTGTCAGTGTATTTGTTTGCCTCATAGTATAGTTTACTACAAATGGAAAACTCTAGGATTCTGCATAATACTGGACAGAGAAGATGTAAATATCTGTTAGTTCCATCATAGACCCTGCCACTCCAATGTACACACCAGCTTTAGGCTTCTTGGTATAGATAAACATACATTTTCAAAATTTTTCATCATAATTTTCATAACAAAATAGGAAGGCAAATGATGTCACTTGGCTTAAAATCTATAATATTTAAAAT

In an embodiment, an ssODN may be to correct a mutation, e.g., R553Xtarget site in the CFTR gene, and concomitantly introduce a silentmutation to disrupt subsequent Cas9 binding and cleavage. For example,the ssODN may include 5′ and 3′ homology arms as shown below. The 5′homology arm is shown as bold sequence, the inserted base to correct theR553X mutation is shown as lower case sequence, the silent sensemutation is shown as lower case underlined and italicized sequence, andthe 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 41; SEQ ID NO: 27319)TAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTG t caGGAGGTCAAcGAGCAAGAATTTCTTTAGCAAGGTGAATAACTAATTATTGGTCTAGCAAGCATTTGCTGTAAATGTCATTCATGT

The underlined T has been changed from an A to T at that position, theunderlined C has been changed from a G to C at that position, and theunderlined A has been changed from a T to A at that position, so thatwild-type CFTR is still transcribed, but the PAM sequence AGG has beenmodified to reduce or eliminate Cas9 cleavage at that locus.

Exemplary template nucleic acids (also referred to herein as donorconstructs) to correction a mutation, e.g., an intronic 2789+5bp (G→A)target site in the CFTR gene, are provided.

Suitable sequence for the 5′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

SEQ ID NO: 27320 (5'H arm)TTTTTCTGTTTCATTCTGTGGTAAAGGTATCATTTGGCTAATTGTATAATTTCAGTGTCATTTCTAATATTCCAATTGTGATAGTATCAACACAAGATTAAATTTCTCTACATGGTTTATGAGAATGGAATGCCAAATTGAAATAGAACAGAGCACAGATGATCTAAATATAAAAAGAACTACAAAAATCACAGTTGTTTAAAAAGGTTTTTTGTTTGTTTATATATGGTGCAGAACATTTGTTCCTTAGCCAAATGTTTCCACCTTGAGAAAGCTATAGAGATTCTATGTAGTCCTAGTACCAATAATATGTTTTAACCTGAATGTACCTTATCTTTATTCATAAACTGTGACTTTTTACACTGCTGAAACTTTTTTTTTTAAGACAATCTCACTCTGTCGTCCAGTCTGGAGTGCAGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTACCTTCTGTGTTCAAGCAATTCTGGTGCCTCGGCCACCTGAGTAGTTGGGATCACAGGTGTACACCACCAGGCCTGGCTAATAGTTTTTGATATTTCTAGTAGAGATGAGTTTTGCCACATTGGCCAGGCTGGCCTGAAACTCCTGGCCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGTTGGTATTACAAGTGTGAGCCACTGTGCCTGGCCTGAAACTCATAATTCATTTCCATTAATATTAATCTCACCTTTTCCAATAATTAATTGATTTCACAAGTATTAGTCCCCTATAATCATTGAATGGCTAATAAAATTATTTATAGCAAACAGATTAATTATCTGCCAGCAGTCTGAGATTAGTTTCTTTAAAAAATGTTTATTATTTAAAACATTCAGCTGTGATCTTGGCTTTCTTGTGAGGTTCAATAGTTTCTATTGAGTAAAGGAGAGAAATGGCAGAGAATTTACTTCAGTGAAATTTGAATTCCATTAACTTAATGTGGTCTCATCACAAATAATAGTACTTAGAACACCTAGTACAGCTGCTGGACCCAGGAACACAAAGCAAAGGAAGATGAAATTGTGTGTACCTTGATATTGGTACACACATCAAATGGTGTGATGTGAATTTAGATGTGGGCATGGGAGGAATAGGTGAAGATGTTAGAAAAAAAATCAACTGTGTCTTGTTCCATTCCAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAAGTGA

Suitable sequence for the 3′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

SEQ ID NO: 27321 (3'H arm)TATTCCATGTCCTATTGTGTAGATTGTGTTTTATTTCTGTTGATTAAATATTGTAATCCACTATGTTTGTATGTATTGTAATCCACTTTGTTTCATTTCTCCCAAGCATTATGGTAGTGGAAAGATAAGGTTTTTTGTTTAAATGATGACCATTAGTTGGGTGAGGTGACACATTCCTGTAGTCCTAGCTCCTCCACAGGCTGACGCAGGAGGATCACTTGAGCCCAGGAGTTCAGGGCTGTAGTGTTGTATCATTGTGAGTAGCCACCGCACTCCAGCCTGGACAATATAGTGAGATCCTATATCTAAAATAAAATAAAATAAAATGAATAAATTGTGAGCATGTGCAGCTCCTGCAGTTTCTAAAGAATATAGTTCTGTTCAGTTTCTGTGAAACACAATAAAAATATTTGAAATAACATTACATATTTAGGGTTTTCTTCAAATTTTTTAATTTAATAAAGAACAACTCAATCTCTATCAATAGTGAGAAAACATATCTATTTTCTTGCAATAATAGTATGATTTTGAGGTTAAGGGTGCATGCTCTTCTAATGCAAAATATTGTATTTATTTAGACTCAAGTTTAGTTCCATTTACATGTATTGGAAATTCAGTAAGTAACTTTGGCTGCCAAATAACGATTTCCTATTTGCTTTACAGCACTCCTCTTCAAGACAAAGGGAATAGTACTCATAGTAGAAATAACAGCTATGCAGTGATTATCACCAGCACCAGTTCGTATTATGTGTTTTACATTTACGTGGGAGTAGCCGACACTTTGCTTGCTATGGGATTCTTCAGAGGTCTACCACTGGTGCATACTCTAATCACAGTGTCGAAAATTTTACACCACAAAATGTTACATTCTGTTCTTCAAGCACCTATGTCAACCCTCAACACGTTGAAAGCAGGTACTTTACTAGGTCTAAGAAATGAAACTGCTGATCCACCATCAATAGGGCCTGTGGTTTTGTTGGTTTTCTAATGGCAGTGCTGGCTTTTGCACAGAGGCATGTGCCCTTTGTTGAACCTCCATTTGACTGGCATGCACATGTCTCAGATATTATAGGTTATCATATATTGTTGCTCCTAATATTTCTGTGTTAGATAATTAGAGTAGCTTGGTTTGTAAGAATGTGATGTTGGTGGGACTGTAGCAGAACAAGAAGGCCCTTATGGGTCAGTCATACCTCTCTT

In an embodiment, the replacement sequence comprises or consists of aGuanine (G) residue.

In an embodiment, to correct a mutation, e.g., an intronic 2789+5bp(G→A) target site in the CFTR gene, the homology arms, e.g., the 5′ and3′ homology arms, may each comprise about 1000 base pairs (bp) ofsequence flanking the most distal gRNAs (e.g., 1200 bp of sequence oneither side of the mutation). The 5′ homology arm is shown as boldsequence, the inserted base to correct the intronic 2789+5bp (G→A)mutation is shown as lower case sequence, and the 3′ homology arm isshown as no emphasis capitalized sequence.

(Template Construct 42; SEQ ID NO: 27322)TTTTTCTGTTTCATTCTGTGGTAAAGGTATCATTTGGCTAATTGTATAATTTCAGTGTCATTTCTAATATTCCAATTGTGATAGTATCAACACAAGATTAAATTTCTCTACATGGTTTATGAGAATGGAATGCCAAATTGAAATAGAACAGAGCACAGATGATCTAAATATAAAAAGAACTACAAAAATCACAGTTGTTTAAAAAGGTTTTTTGTTTGTTTATATATGGTGCAGAACATTTGTTCCTTAGCCAAATGTTTCCACCTTGAGAAAGCTATAGAGATTCTATGTAGTCCTAGTACCAATAATATGTTTTAACCTGAATGTACCTTATCTTTATTCATAAACTGTGACTTTTTACACTGCTGAAACTTTTTTTTTTAAGACAATCTCACTCTGTCGTCCAGTCTGGAGTGCAGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTACCTTCTGTGTTCAAGCAATTCTGGTGCCTCGGCCACCTGAGTAGTTGGGATCACAGGTGTACACCACCAGGCCTGGCTAATAGTTTTTGATATTTCTAGTAGAGATGAGTTTTGCCACATTGGCCAGGCTGGCCTGAAACTCCTGGCCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGTTGGTATTACAAGTGTGAGCCACTGTGCCTGGCCTGAAACTCATAATTCATTTCCATTAATATTAATCTCACCTTTTCCAATAATTAATTGATTTCACAAGTATTAGTCCCCTATAATCATTGAATGGCTAATAAAATTATTTATAGCAAACAGATTAATTATCTGCCAGCAGTCTGAGATTAGTTTCTTTAAAAAATGTTTATTATTTAAAACATTCAGCTGTGATCTTGGCTTTCTTGTGAGGTTCAATAGTTTCTATTGAGTAAAGGAGAGAAATGGCAGAGAATTTACTTCAGTGAAATTTGAATTCCATTAACTTAATGTGGTCTCATCACAAATAATAGTACTTAGAACACCTAGTACAGCTGCTGGACCCAGGAACACAAAGCAAAGGAAGATGAAATTGTGTGTACCTTGATATTGGTACACACATCAAATGGTGTGATGTGAATTTAGATGTGGGCATGGGAGGAATAGGTGAAGATGTTAGAAAAAAAATCAACTGTGTCTTGTTCCATTCCAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAAGTGAgTATTCCATGTCCTATTGTGTAGATTGTGTTTTATTTCTGTTGATTAAATATTGTAATCCACTATGITTGTATGTATTGTAATCCACTTTGTTTCATTTCTCCCAAGCATTATGGTAGTGGAAAGATAAGGTTTTTTGTTTAAATGATGACCATTAGTTGGGTGAGGTGACACATTCCTGTAGTCCTAGCTCCTCCACAGGCTGACGCAGGAGGATCACTTGAGCCCAGGAGTTCAGGGCTGTAGTGTTGTATCATTGTGAGTAGCCACCGCACTCCAGCCTGGACAATATAGTGAGATCCTATATCTAAAATAAAATAAAATAAAATGAATAAATTGTGAGCATGTGCAGCTCCTGCAGTTTCTAAAGAATATAGTTCTGTTCAGTTTCTGTGAAACACAATAAAAATATTTGAAATAACATTACATATTTAGGGTTTTCTTCAAATTTTTTAATTTAATAAAGAACAACTCAATCTCTATCAATAGTGAGAAAACATATCTATTTTCTTGCAATAATAGTATGATTTTGAGGTTAAGGGTGCATGCTCTTCTAATGCAAAATATTGTATTTATTTAGACTCAAGTTTAGTTCCATTTACATGTATTGGAAATTCAGTAAGTAACTTTGGCTGCCAAATAACGATTTCCTATTTGCTTTACAGCACTCCTCTTCAAGACAAAGGGAATAGTACTCATAGTAGAAATAACAGCTATGCAGTGATTATCACCAGCACCAGTTCGTATTATGTGTTTTACATTTACGTGGGAGTAGCCGACACTTTGCTTGCTATGGGATTCTTCAGAGGTCTACCACTGGTGCATACTCTAATCACAGTGTCGAAAATTTTACACCACAAAATGTTACATTCTGTTCTTCAAGCACCTATGTCAACCCTCAACACGTTGAAAGCAGGTACTTTACTAGGTCTAAGAAATGAAACTGCTGATCCACCATCAATAGGGCCTGTGGTTTTGTTGGTTTTCTAATGGCAGTGCTGGCTTTTGCACAGAGGCATGTGCCCTTTGTTGAACCTCCATTTGACTGGCATGCACATGTCTCAGATATTATAGGTTATCATATATTGTTGCTCCTAATATTTCTGTGTTAGATAATTAGAGTAGCTTGGTTTGTAAGAATGTGATGTTGGTGGGACTGTAGCAGAACAAGAAGGCCCTTATGGGTCAGTCATACCTCTCTT

As described below in Table 49, shorter homology arms, e.g., 5′ and/or3′ homology arms may be used.

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to correct an intronic 2789+5bp (G→A) mutation in theCFTR gene, the 5′ homology arm may be shortened less than 1000nucleotides, e.g., e.g., 500 nucleotides, to avoid inclusion of a LINErepeat element in the 5′ homology arm. The 5′ homology arm is shown asbold sequence, the inserted base to correct the intronic 2789+5bp (G→A)mutation is shown as lower case sequence, and the 3′ homology arm isshown as no emphasis capitalized sequence.

(Template Construct 43; SEQ ID NO: 27323)TCTCACCTTTTCCAATAATTAATTGATTTCACAAGTATTAGTCCCCTATAATCATTGAATGGCTAATAAAATTATTTATAGCAAACAGATTAATTATCTGCCAGCAGTCTGAGATTAGTTTCTTTAAAAAATGTTTATTATTTAAAACATTCAGCTGTGATCTTGGCTTTCTTGTGAGGTTCAATAGTTTCTATTGAGTAAAGGAGAGAAATGGCAGAGAATTTACTTCAGTGAAATTTGAATTCCATTAACTTAATGTGGTCTCATCACAAATAATAGTACTTAGAACACCTAGTACAGCTGCTGGACCCAGGAACACAAAGCAAAGGAAGATGAAATTGTGTGTACCTTGATATTGGTACACACATCAAATGGTGTGATGTGAATTTAGATGTGGGCATGGGAGGAATAGGTGAAGATGTTAGAAAAAAAATCAACTGTGTCTTGTTCCATTCCAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAAGTGAgTATTCCATGTCCTATTGTGTAGATTGTGTTTTATTTCTGTTGATTAAATATTGTAATCCACTATGTTTGTATGTATTGTAATCCACTTTGTTTCATTTCTCCCAAGCATTATGGTAGTGGAAAGATAAGGTTTTTTGTTTAAATGATGACCATTAGTTGGGTGAGGTGACACATTCCTGTAGTCCTAGCTCCTCCACAGGCTGACGCAGGAGGATCACTTGAGCCCAGGAGTTCAGGGCTGTAGTGTTGTATCATTGTGAGTAGCCACCGCACTCCAGCCTGGACAATATAGTGAGATCCTATATCTAAAATAAAATAAAATAAAATGAATAAATTGTGAGCATGTGCAGCTCCTGCAGTTTCTAAAGAATATAGTTCTGTTCAGTTTCTGTGAAACACAATAAAAATATTTGAAATAACATTACATATTTAGGGTTTTCTTCAAATTTTTTAATTTAATAAAGAACAACTCAATCTCTATCAATAGTGAGAAAACATAT

It is contemplated herein that template nucleic acids for correcting amutation may designed for use as a single-stranded oligonucleotide(ssODN). When using a ssODN, 5′ and 3′ homology arms may range up toabout 200 base pairs (bp) in length, e.g., at least 25, 50, 75, 100,125, 150, 175, or 200 bp in length. Longer homology arms are alsocontemplated for ssODNs as improvements in oligonucleotide synthesiscontinue to be made.

In an embodiment, an ssODN may be used to correct a mutation, e.g., anintronic 2789+5bp (G→A) target site in the CFTR gene. For example, thessODN may include 5′ and 3′ homology arms as shown below. The 5′homology arm is shown as bold sequence, the inserted bases to correctthe intronic 2789+5bp (G→A) mutation is shown as lower case sequence,and the 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 44; SEQ ID NO: 27324)AAAAAAAATCAACTGTGTCTTGTTCCATTCCAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAAGTGAgTATTCCATGTCCTATTGTGTAGATTGTGTTTTATTTCTGTTGATTAAATATTGTAATCCACTATGTTTGTATGTA

In an embodiment, to correct a mutation, e.g., an intronic 2789+5bp(G→A) target site in the CFTR gene, and concomitantly introduce a silentsense mutation to disrupt subsequent Cas9 binding and cleavage, thehomology arms, e.g., the 5′ and 3′ homology arms, may each compriseabout 1000 base pairs (bp) of sequence flanking the most distal gRNAs(e.g., 1200 bp of sequence on either side of the mutation). The 5′homology arm is shown as bold sequence, the inserted base to correct theintronic 2789+5bp (G→A) mutation is shown as lower case sequence, thesilent sense mutation is shown as lower case underlined and italicizedsequence, and the 3′ homology arm is shown as no emphasis capitalizedsequence.

(Template Construct 45; SEQ ID NO: 27325)TTTTTCTGTTTCATTCTGTGGTAAAGGTATCATTTGGCTAATTGTATAATTTCAGTGTCATTTCTAATATTCCAATTGTGATAGTATCAACACAAGATTAAATTTCTCTACATGGTTTATGAGAATGGAATGCCAAATTGAAATAGAACAGAGCACAGATGATCTAAATATAAAAAGAACTACAAAAATCACAGTTGTTTAAAAAGGTTTTTTGTTTGTTTATATATGGTGCAGAACATTTGTTCCTTAGCCAAATGTTTCCACCTTGAGAAAGCTATAGAGATTCTATGTAGTCCTAGTACCAATAATATGTTTTAACCTGAATGTACCTTATCTTTATTCATAAACTGTGACTTTTTACACTGCTGAAACTTTTTTTTTTAAGACAATCTCACTCTGTCGTCCAGTCTGGAGTGCAGCAGTGGTGTGATCTTGGCTCACTGCAACCTCTACCTTCTGTGTTCAAGCAATTCTGGTGCCTCGGCCACCTGAGTAGTTGGGATCACAGGTGTACACCACCAGGCCTGGCTAATAGTTTTTGATATTTCTAGTAGAGATGAGTTTTGCCACATTGGCCAGGCTGGCCTGAAACTCCTGGCCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGTTGGTATTACAAGTGTGAGCCACTGTGCCTGGCCTGAAACTCATAATTCATTTCCATTAATATTAATCTCACCTTTTCCAATAATTAATTGATTTCACAAGTATTAGTCCCCTATAATCATTGAATGGCTAATAAAATTATTTATAGCAAACAGATTAATTATCTGCCAGCAGTCTGAGATTAGTTTCTTTAAAAAATGTTTATTATTTAAAACATTCAGCTGTGATCTTGGCTTTCTTGTGAGGTTCAATAGTTTCTATTGAGTAAAGGAGAGAAATGGCAGAGAATTTACTTCAGTGAAATTTGAATTCCATTAACTTAATGTGGTCTCATCACAAATAATAGTACTTAGAACACCTAGTACAGCTGCTGGACCCAGGAACACAAAGCAAAGGAAGATGAAATTGTGTGTACCTTGATATTGGTACACACATCAAATGGTGTGATGTGAATTTAGATGTGGGCATGGGAGGAATAGGTGAAGATGTTAGAAAAAAAATCAACTGTGTCTTGTTCCATTCCAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAAGTGAgTATT gg ATGTCCTATTGTGTAGATTGTGTTTTATTICTGTTGATTAAATATTGTAATCCACTATGTTTGTATGTATTGTAATCCACTTTGTTTCATTTCTCCCAAGCATTATGGTAGTGGAAAGATAAGGTTTTTTGTTTAAATGATGACCATTAGTTGGGTGAGGTGACACATTCCTGTAGTCCTAGCTCCTCCACAGGCTGACGCAGGAGGATCACTTGAGCCCAGGAGTTCAGGGCTGTAGTGTTGTATCATTGTGAGTAGCCACCGCACTCCAGCCTGGACAATATAGTGAGATCCTATATCTAAAATAAAATAAAATAAAATGAATAAATTGTGAGCATGTGCAGCTCCTGCAGTTTCTAAAGAATATAGTTCTGTTCAGTTTCTGTGAAACACAATAAAAATATTTGAAATAACATTACATATTTAGGGTTTTCTTCAAATTTTTTAATTTAATAAAGAACAACTCAATCTCTATCAATAGTGAGAAAACATATCTATTTTCTTGCAATAATAGTATGATTTTGAGGTTAAGGGTGCATGCTCTTCTAATGCAAAATATTGTATTTATTTAGACTCAAGTTTAGTTCCATTTACATGTATTGGAAATTCAGTAAGTAACTTTGGCTGCCAAATAACGATTTCCTATTTGCTTTACAGCACTCCTCTTCAAGACAAAGGGAATAGTACTCATAGTAGAAATAACAGCTATGCAGTGATTATCACCAGCACCAGTTCGTATTATGTGTTTTACATTTACGTGGGAGTAGCCGACACTTTGCTTGCTATGGGATTCTTCAGAGGTCTACCACTGGTGCATACTCTAATCACAGTGTCGAAAATTTTACACCACAAAATGTTACATTCTGTTCTTCAAGCACCTATGTCAACCCTCAACACGTTGAAAGCAGGTACTTTACTAGGTCTAAGAAATGAAACTGCTGATCCACCATCAATAGGGCCTGTGGTTTTGTTGGTTTTCTAATGGCAGTGCTGGCTTTTGCACAGAGGCATGTGCCCTTTGTTGAACCTCCATTTGACTGGCATGCACATGTCTCAGATATTATAGGTTATCATATATTGTTGCTCCTAATATTTCTGTGTTAGATAATTAGAGTAGCTTGGTTTGTAAGAATGTGATGTTGGTGGGACTGTAGCAGAACAAGAAGGCCCTTATGGGTCAGTCATACCTCTCTT

In an embodiment, to correct a mutation, e.g., an intronic 2789+5bp(G→A) target site in the CFTR gene, and concomitantly introduce a silentmutation to disrupt subsequent Cas9 binding and cleavage, the 5′homology arm may be shortened less than 750 nucleotides, e.g., 500nucleotides, to avoid inclusion of a LINE repeat element in the 5′homology arm. The 5′ homology arm is shown as bold sequence, theinserted base to correct the intronic 2789+5bp (G→A) mutation is shownas lower case sequence, the silent sense mutation is shown as lower caseunderlined and italicized sequence, and the 3′ homology arm is shown asno emphasis capitalized sequence.

(Template Construct 46; SEQ ID NO: 27326)TCTCACCTTTTCCAATAATTAATTGATTTCACAAGTATTAGTCCCCTATAATCATTGAATGGCTAATAAAATTATTTATAGCAAACAGATTAATTATCTGCCAGCAGTCTGAGATTAGTTTCTTTAAAAAATGTTTATTATTTAAAACATTCAGCTGTGATCTTGGCTTTCTTGTGAGGTTCAATAGTTTCTATTGAGTAAAGGAGAGAAATGGCAGAGAATTTACTTCAGTGAAATTTGAATTCCATTAACTTAATGTGGTCTCATCACAAATAATAGTACTTAGAACACCTAGTACAGCTGCTGGACCCAGGAACACAAAGCAAAGGAAGATGAAATTGTGTGTACCTTGATATTGGTACACACATCAAATGGTGTGATGTGAATTTAGATGTGGGCATGGGAGGAATAGGTGAAGATGTTAGAAAAAAAATCAACTGTGTCTTGTTCCATTCCAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAAGTGAgTATT gg ATGTCCTATTGTGTAGATTGTGTTTTATTTCTGTTGATTAAATATTGTAATCCACTATGTTTGTATGTATTGTAATCCACTTTGTTTCATTTCTCCCAAGCATTATGGTAGTGGAAAGATAAGGTTTTTTGTTTAAATGATGACCATTAGTTGGGTGAGGTGACACATTCCTGTAGTCCTAGCTCCTCCACAGGCTGACGCAGGAGGATCACTTGAGCCCAGGAGTTCAGGGCTGTAGTGTTGTATCATTGTGAGTAGCCACCGCACTCCAGCCTGGACAATATAGTGAGATCCTATATCTAAAATAAAATAAAATAAAATGAATAAATTGTGAGCATGTGCAGCTCCTGCAGTTTCTAAAGAATATAGTTCTGTTCAGTTTCTGTGAAACACAATAAAAATATTTGAAATAACATTACATATTTAGGGTTTTCTTCAAATTTTTTAATTTAATAAAGAACAACTCATCTCTATCAATAGTGAGAAAACATAT

In an embodiment, an ssODN may be to correct a mutation, e.g., anintronic 2789+5bp (G→A) target site in the CFTR gene, and concomitantlyintroduce a silent mutation to disrupt subsequent Cas9 binding andcleavage. For example, the ssODN may include 5′ and 3′ homology arms asshown below. The 5′ homology arm is shown as bold sequence, the insertedbase to correct the intronic 2789+5bp (G→A) mutation is shown as lowercase sequence, the silent sense mutation is shown as lower caseunderlined and italicized sequence, and the 3′ homology arm is shown asno emphasis capitalized sequence.

(Template Construct 47; SEQ ID NO: 27327)AAAAAAAATCAACTGTGTCTTGTTCCATTCCAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAAGTGAgTATT gg ATTCCTATTGTGTAGATTGTGTTTTATTTCTGTTGATTAAATATTGTAATCCACTATGTTTGTAT GTA

The underlined G has been changed from a C to G at that position, sothat wild-type CFTR is still transcribed, but the PAM sequence CCA hasbeen modified to reduce or eliminate Cas9 cleavage at that locus.

Exemplary template nucleic acids (also referred to herein as donorconstructs) to correction a mutation, e.g., an intronic 3272-26bp (A→G)target site in the CFTR gene, are provided.

Suitable sequence for the 5′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

SEQ ID NO: 27328(5′H arm)GTGCACATGTACCCTAAAACTTAAAGTATAATAAAAAAAATAAAAAAAAGTTTGAGGTGTTTAAAGTATGCAAAAAAAAAAAAAGAAATAAATCACTGACACACTTTGTCCACTTTGCAATGTGAAAATGTTTACTCACCAACATGTTTTCTTTGATCTTACAGTTGTTATTAATTGTGATTGGAGCTATAGCAGTTGTCGCAGTTTTACAACCCTACATCTTTGTTGCAACAGTGCCAGTGATAGTGGCTTTTATTATGTTGAGAGCATATTTCCTCCAAACCTCACAGCAACTCAAACAACTGGAATCTGAAGGTATGACAGTGAATGTGCGATACTCATCTTGTAAAAAAGCTATAAGAGCTATTTGAGATTCTTTATTGTTAATCTACTTAAAAAAAATTCTGCTTTTAAACTTTTACATCATATAACAATAATTTTTTTCTACATGCATGTGTATATAAAAGGAAACTATATTACAAAGTACACATGGATTTTTTTTCTTAATTAATGACCATGTGACTTCATTTTGGTTTTAAAATAGGTATATAGAATCTTACCACAGTTGGTGTACAGGACATTCATTTATAATAAACTTATATCAGTCAAATTAAACAAGGATAGTGCTGCTATTACTAAAGGTTTCTCTGGGTTCCCAAATGATACTTGACCAAATTTGTCCCTTTGGCTTGTTGTCTTCAGACACCCTTTCTTCATGTGTTGGAGCTGCCATTTCGTGTGCCCCCAAACTCTACTTGAGCTGTTAGGGAATCACATTTTGCAGTGACAGCCTTAGTGTGGGTGCATTTTCAGGCAATACTTTTTCAGTATATTTCTGCTTTGTAGATTATTAGCTAAATCAAGTCACATAAACTTCCTTAATTTAGATACTTGAAAAAATTGTCTTAAAAGAAAATTTTTTTAGTAAGAATTAATTTAGAATTAGCCAGAAAACTCCCAGTGGTAGCCAAGAAAGAGGAATAAATATTGGTGGTAATTTTTTAAGTTCCCATCTCTGGTAGCCAAGTAAAAAAAGAGGGTAACTCATTAATAAAATAACAAATCATATCTATTCAAAGAATGGCACCAGTGTGAAAAAAAGCTTTTTAACCAATGACATTTGTGATATGATTATTCTAATTTAGTCTTTTTCAGGTACAAGATATTATGAAATTACATTTTGTGTTTATGTTATTTGCA

Suitable sequence for the 3′ homology arm can be selected from (e.g.,includes a portion of) or include the following sequence:

SEQ ID NO: 27329(3′H arm)TGTTTTCTATGGAAATATTTCACAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAGCTTAAAAGGACTATGGACACTTCGTGCCTTCGGACGGCAGCCTTACTTTGAAACTCTGTTCCACAAAGCTCTGAATTTACATACTGCCAACTGGTTCTTGTACCTGTCAACACTGCGCTGGTTCCAAATGAGAATAGAAATGATTTTTGTCATCTTCTTCATTGCTGTTACCTTCATTTCCATTTTAACAACAGGTACTATGAACTCATTAACTTTAGCTAAGCATTTAAGTAAAAAATTTTCAATGAATAAAATGCTGCATTCTATAGGTTATCAATTTTTGATATCTTTAGAGTTTAGTAATTAACAAATTTGTTGGTTTATTATTGAACAAGTGATTTCTTTGAATTTCCATTGTTTTATTGTTAAACAAATAATTTCCTTGAAATCGGATATATATATATATATGTATATATATATATATATATATATATATATACATATATATATATAGTATTATCCCTGTTTTCACAGTTTTAAAAACCGATGCACACAGATTGTCAGATAGCAATTCTGTGATTGAAGGGGAAATATGTCACCTCTTCATACTCATATTGGTGAAGGGTCCTAGCTTCAAAATTAATAGATTCCTAAAGAGGGGAAATGAAACATCCGCATTTACACACACACACACACACACACACACAGAGTTCCTCTTGTCGGTAAGTTTTGTTTTTTTTAAATCTCTACTAGATAAAATTTGTTATCTAATTGTGAGTTTTACACAAAGAAAAACTGTCACAGAAAAGAAAGACAGTGTCACATTTTTCAAAAGAAAAAGAAGAAAAGAAAGTGCCATGTTTTTCAAATACAAATGTTCTGGATTGATTTTAGGATCTTTAGTGAAAAACAAAGTATTTCATAATAAGTAAAATAAAAATCTATGTAGGTAAATTTGTTTCTCTAATTTAAGAATTTGAATTTCTGAGTATTTATGATAAGTGTTGAAATAACTTCTTATATGTGACAGTGAATACTGGCAGAGCAAATGCCAAATCAATGCCAAATCTGTAGGATCATTTGATTGTAGGAACAGAATTCTACTCAAACCGAAAGCAGGCATTTGCTGGAGTTACAGAAAGGCCTCATGGAACACCGAGAAGGTGGTGCCATTCGACTCTTAAAGAAGCTGCAACAGGCA

In an embodiment, the replacement sequence comprises or consists of anAdenine (A) residue.

In an embodiment, to correct a mutation, e.g., an intronic 3272-26bp(A→G) target site in the CFTR gene, the homology arms, e.g., the 5′ and3′ homology arms, may each comprise about 1000 base pairs (bp) ofsequence flanking the most distal gRNAs (e.g., 1200 bp of sequence oneither side of the mutation). The 5′ homology arm is shown as boldsequence, the inserted base to correct the intronic 3272-26bp (A→G)mutation is shown as lower case sequence, and the 3′ homology arm isshown as no emphasis capitalized sequence.

(Template Construct 48; SEQ ID NO: 27330)GTGCACATGTACCCTAAAACTTAAAGTATAATAAAAAAAATAAAAAAAAGTTTGAGGTGTTTAAAGTATGCAAAAAAAAAAAAAGAAATAAATCACTGACACACTTTGTCCACTTTGCAATGTGAAAATGTTTACTCACCAACATGTTTTCTTTGATCTTACAGTTGTTATTAATTGTGATTGGAGCTATAGCAGTTGTCGCAGTTTTACAACCCTACATCTTTGTTGCAACAGTGCCAGTGATAGTGGCTTTTATTATGTTGAGAGCATATTTCCTCCAAACCTCACAGCAACTCAAACAACTGGAATCTGAAGGTATGACAGTGAATGTGCGATACTCATCTTGTAAAAAAGCTATAAGAGCTATTTGAGATTCTTTATTGTTAATCTACTTAAAAAAAATTCTGCTTTTAAACTTTTACATCATATAACAATAATTTTTTTCTACATGCATGTGTATATAAAAGGAAACTATATTACAAAGTACACATGGATTTTTTTTCTTAATTAATGACCATGTGACTTCATTTTGGTTTTAAAATAGGTATATAGAATCTTACCACAGTTGGTGTACAGGACATTCATTTATAATAAACTTATATCAGTCAAATTAAACAAGGATAGTGCTGCTATTACTAAAGGTTTCTCTGGGTTCCCAAATGATACTTGACCAAATTTGTCCCTTTGGCTTGTTGTCTTCAGACACCCTTTCTTCATGTGTTGGAGCTGCCATTTCGTGTGCCCCCAAACTCTACTTGAGCTGTTAGGGAATCACATTTTGCAGTGACAGCCTTAGTGTGGGTGCATTTTCAGGCAATACTTTTTCAGTATATTTCTGCTTTGTAGATTATTAGCTAAATCAAGTCACATAAACTTCCTTAATTTAGATACTTGAAAAAATTGTCTTAAAAGAAAATTTTTTTAGTAAGAATTAATTTAGAATTAGCCAGAAAACTCCCAGTGGTAGCCAAGAAAGAGGAATAAATATTGGTGGTAATTTTTTAAGTTCCCATCTCTGGTAGCCAAGTAAAAAAAGAGGGTAACTCATTAATAAAATAACAAATCATATCTATTCAAAGAATGGCACCAGTGTGAAAAAAAGCTTTTTAACCAATGACATTTGTGATATGATTATTCTAATTTAGTCTTTTTCAGGTACAAGATATTATGAAATTACATTTTGTGTTTATGTTATTTGCAaTGTTTTCTATGGAAATATTTCACAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAGCTTAAAAGGACTATGGACACTTCGTGCCTTCGGACGGCAGCCTTACTTTGAAACTCTGTTCCACAAAGCTCTGAATTTACATACTGCCAACTGGTTCTTGTACCTGTCAACACTGCGCTGGTTCCAAATGAGAATAGAAATGATTTTTGTCATCTTCTTCATTGCTGTTACCTTCATTTCCATTTTAACAACAGGTACTATGAACTCATTAACTTTAGCTAAGCATTTAAGTAAAAAATTTTCAATGAATAAAATGCTGCATTCTATAGGTTATCAATTTTTGATATCTTTAGAGTTTAGTAATTAACAAATTTGTTGGTTTATTATTGAACAAGTGATTTCTTTGAATTTCCATTGTTTTATTGTTAAACAAATAATTTCCTTGAAATCGGATATATATATATATATGTATATATATATATATATATATATATATATACATATATATATATAGTATTATCCCTGTTTTCACAGTTTTAAAAACCGATGCACACAGATTGTCAGATAGCAATTCTGTGATTGAAGGGGAAATATGTCACCTCTTCATACTCATATTGGTGAAGGGTCCTAGCTTCAAAATTAATAGATTCCTAAAGAGGGGAAATGAAACATCCGCATTTACACACACACACACACACACACACACAGAGTTCCTCTTGTCGGTAAGTTTTGTTTTTTTTAAATCTCTACTAGATAAAATTTGTTATCTAATTGTGAGTTTTACACAAAGAAAAACTGTCACAGAAAAGAAAGACAGTGTCACATTTTTCAAAAGAAAAAGAAGAAAAGAAAGTGCCATGTTTTTCAAATACAAATGTTCTGGATTGATTTTAGGATCTTTAGTGAAAAACAAAGTATTTCATAATAAGTAAAATAAAAATCTATGTAGGTAAATTTGTTTCTCTAATTTAAGAATTTGAATTTCTGAGTATTTATGATAAGTGTTGAAATAACTTCTTATATGTGACAGTGAATACTGGCAGAGCAAATGCCAAATCAATGCCAAATCTGTAGGATCATTTGATTGTAGGAACAGAATTCTACTCAAACCGAAAGCAGGCATTTGCTGGAGTTACAGAAAGGCCTCATGGAACACCGAGAAGGTGGTGCCATTCGACTCTTAAAGAAGCTGCAACAGGCA

As described below in Table 49, shorter homology arms, e.g., 5′ and/or3′ homology arms may be used.

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to correct an intronic 3272-26bp (A→G) mutation in theCFTR gene, the 5′ homology arm may be shortened less than 1000nucleotides, e.g., e.g., 500 nucleotides, to avoid inclusion of a LINErepeat element in the 5′ homology arm. The 5′ homology arm is shown asbold sequence, the inserted base to correct the intronic 3272-26bp (A→G)mutation is shown as lower case sequence, and the 3′ homology arm isshown as no emphasis capitalized sequence.

(Template Construct 49; SEQ ID NO: 27331)AGACACCCTTTCTTCATGTGTTGGAGCTGCCATTTCGTGTGCCCCCAAACTCTACTTGAGCTGTTAGGGAATCACATTTTGCAGTGACAGCCTTAGTGTGGGTGCATTTTCAGGCAATACTTTTTCAGTATATTTCTGCTTTGTAGATTATTAGCTAAATCAAGTCACATAAACTTCCTTAATTTAGATACTTGAAAAAATTGTCTTAAAAGAAAATTTTTTTAGTAAGAATTAATTTAGAATTAGCCAGAAAACTCCCAGTGGTAGCCAAGAAAGAGGAATAAATATTGGTGGTAATTTTTTAAGTTCCCATCTCTGGTAGCCAAGTAAAAAAAGAGGGTAACTCATTAATAAAATAACAAATCATATCTATTCAAAGAATGGCACCAGTGTGAAAAAAAGCTTTTTAACCAATGACATTTGTGATATGATTATTCTAATTTAGTCTTTTTCAGGTACAAGATATTATGAAATTACATTTTGTGTTTATGTTATTTGCAaTGTTTTCTATGGAAATATTTCACAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAGCTTAAAAGGACTATGGACACTTCGTGCCTTCGGACGGCAGCCTTACTTTGAAACTCTGTTCCACAAAGCTCTGAATTTACATACTGCCAACTGGTTCTTGTACCTGTCAACACTGCGCTGGTTCCAAATGAGAATAGAAATGATTTTTGTCATCTTCTTCATTGCTGTTACCTTCATTTCCATTTTAACAACAGGTACTATGAACTCATTAACTTTAGCTAAGCATTTAAGTAAAAAATTTTCAATGAATAAAATGCTGCATTCTATAGGTTATCAATTTTTGATATCTTTAGAGTTTAGTAATTAACAAATTTGTTGGTTTATTATTGAACAAGTGATTTCTTTGAATTTCCATTGTTTTATTGTTAAACAAATAATTTCCTTGAAATCGGATATATATATATATATGTATATATATATATATATA TATATATATATACA

It is contemplated herein that template nucleic acids for correcting amutation may designed for use as a single-stranded oligonucleotide(ssODN). When using a ssODN, 5′ and 3′ homology arms may range up toabout 200 base pairs (bp) in length, e.g., at least 25, 50, 75, 100,125, 150, 175, or 200 bp in length. Longer homology arms are alsocontemplated for ssODNs as improvements in oligonucleotide synthesiscontinue to be made.

In an embodiment, an ssODN may be used to correct a mutation, e.g., anintronic 3272-26bp (A→G) target site in the CFTR gene. For example, thessODN may include 5′ and 3′ homology arms as shown below. The 5′homology arm is shown as bold sequence, the inserted bases to correctthe intronic 3272-26bp (A→G) mutation is shown as lower case sequence,and the 3′ homology arm is shown as no emphasis capitalized sequence.

(Template Construct 50; SEQ ID NO: 27332)ATATGATTATTCTAATTTAGTCTTTTTCAGGTACAAGATATTATGAAATTACATTTTGTGTTTATGTTATTTGCAaTGTTTTCTATGGAAATATTTCACAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAGCTTAAA AGGACTATGG

In an embodiment, to correct a mutation, e.g., an intronic 3272-26bp(A→G) target site in the CFTR gene, and concomitantly introduce a silentsense mutation to disrupt subsequent Cas9 binding and cleavage, thehomology arms, e.g., the 5′ and 3′ homology arms, may each compriseabout 1000 base pairs (bp) of sequence flanking the most distal gRNAs(e.g., 1200 bp of sequence on either side of the mutation). The 5′homology arm is shown as bold sequence, the inserted base to correct theintronic 3272-26bp (A→G) mutation is shown as lower case sequence, thesilent sense mutation is shown as lower case underlined and italicizedsequence, and the 3′ homology arm is shown as no emphasis capitalizedsequence.

(Template Construct 51; SEQ ID NO: 27333)GTGCACATGTACCCTAAAACTTAAAGTATAATAAAAAAAATAAAAAAAAGTTTGAGGTGTTTAAAGTATGCAAAAAAAAAAAAAGAAATAAATCACTGACACACTTTGTCCACTTTGCAATGTGAAAATGTTTACTCACCAACATGTTTTCTTTGATCTTACAGTTGTTATTAATTGTGATTGGAGCTATAGCAGTTGTCGCAGTTTTACAACCCTACATCTTTGTTGCAACAGTGCCAGTGATAGTGGCTTTTATTATGTTGAGAGCATATTTCCTCCAAACCTCACAGCAACTCAAACAACTGGAATCTGAAGGTATGACAGTGAATGTGCGATACTCATCTTGTAAAAAAGCTATAAGAGCTATTTGAGATTCTTTATTGTTAATCTACTTAAAAAAAATTCTGCTTTTAAACTTTTACATCATATAACAATAATTTTTTTCTACATGCATGTGTATATAAAAGGAAACTATATTACAAAGTACACATGGATTTTTTTTCTTAATTAATGACCATGTGACTTCATTTTGGTTTTAAAATAGGTATATAGAATCTTACCACAGTTGGTGTACAGGACATTCATTTATAATAAACTTATATCAGTCAAATTAAACAAGGATAGTGCTGCTATTACTAAAGGTTTCTCTGGGTTCCCAAATGATACTTGACCAAATTTGTCCCTTTGGCTTGTTGTCTTCAGACACCCTTTCTTCATGTGTTGGAGCTGCCATTTCGTGTGCCCCCAAACTCTACTTGAGCTGTTAGGGAATCACATTTTGCAGTGACAGCCTTAGTGTGGGTGCATTTTCAGGCAATACTTTTTCAGTATATTTCTGCTTTGTAGATTATTAGCTAAATCAAGTCACATAAACTTCCTTAATTTAGATACTTGAAAAAATTGTCTTAAAAGAAAATTTTTTTAGTAAGAATTAATTTAGAATTAGCCAGAAAACTCCCAGTGGTAGCCAAGAAAGAGGAATAAATATTGGTGGTAATTTTTTAAGTTCCCATCTCTGGTAGCCAAGTAAAAAAAGAGGGTAACTCATTAATAAAATAACAAATCATATCTATTCAAAGAATGGCACCAGTGTGAAAAAAAGCTTTTTAACCAATGACATTTGTGATATGATTATTCTAATTTAGTCTTTTTCAGGTACAAGATATTATGAAATTACATTTTGTGTTTATGTTATTTGCAaTGTTTTCTAT cc AAATATTTCACAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAGCTTAAAAGGACTATGGACACTTCGTGCCTTCGGACGGCAGCCTTACTTTGAAACTCTGTTCCACAAAGCTCTGAATTTACATACTGCCAACTGGTTCTTGTACCTGTCAACACTGCGCTGGTTCCAAATGAGAATAGAAATGATTTTTGTCATCTTCTTCATTGCTGTTACCTTCATTTCCATTTTAACAACAGGTACTATGAACTCATTAACTTTAGCTAAGCATTTAAGTAAAAAATTTTCAATGAATAAAATGCTGCATTCTATAGGTTATCAATTTTTGATATCTTTAGAGTTTAGTAATTAACAAATTTGTTGGTTTATTATTGAACAAGTGATTTCTTTGAATTTCCATTGTTTTATTGTTAAACAAATAATTTCCTTGAAATCGGATATATATATATATATGTATATATATATATATATATATATATATATACATATATATATATAGTATTATCCCTGTTTTCACAGTTTTAAAAACCGATGCACACAGATTGTCAGATAGCAATTCTGTGATTGAAGGGGAAATATGTCACCTCTTCATACTCATATTGGTGAAGGGTCCTAGCTTCAAAATTAATAGATTCCTAAAGAGGGGAAATGAAACATCCGCATTTACACACACACACACACACACACACACAGAGTTCCTCTTGTCGGTAAGTTTTGTTTTTTTTAAATCTCTACTAGATAAAATTTGTTATCTAATTGTGAGTTTTACACAAAGAAAAACTGTCACAGAAAAGAAAGACAGTGTCACATTTTTCAAAAGAAAAAGAAGAAAAGAAAGTGCCATGTTTTTCAAATACAAATGTTCTGGATTGATTTTAGGATCTTTAGTGAAAAACAAAGTATTTCATAATAAGTAAAATAAAAATCTATGTAGGTAAATTTGTTTCTCTAATTTAAGAATTTGAATTTCTGAGTATTTATGATAAGTGTTGAAATAACTTCTTATATGTGACAGTGAATACTGGCAGAGCAAATGCCAAATCAATGCCAAATCTGTAGGATCATTTGATTGTAGGAACAGAATTCTACTCAAACCGAAAGCAGGCATTTGCTGGAGTTACAGAAAGGCCTCATGGAACACCGAGAAGGTGGTGCCATTCGACTCTTAAAGAAGCTGCAACAGGCA

In an embodiment, to correct a mutation, e.g., an intronic 3272-26bp(A→G) target site in the CFTR gene, and concomitantly introduce a silentmutation to disrupt subsequent Cas9 binding and cleavage, the 5′homology arm may be shortened less than 750 nucleotides, e.g., 500nucleotides, to avoid inclusion of a LINE repeat element in the 5′homology arm. The 5′ homology arm is shown as bold sequence, theinserted base to correct the intronic 3272-26bp (A→G) mutation is shownas lower case sequence, the silent sense mutation is shown as lower caseunderlined and italicized sequence, and the 3′ homology arm is shown asno emphasis capitalized sequence.

(Template Construct 52; SEQ ID NO: 27334)AGACACCCTTTCTTCATGTGTTGGAGCTGCCATTTCGTGTGCCCCCAAACTCTACTTGAGCTGTTAGGGAATCACATTTTGCAGTGACAGCCTTAGTGTGGGTGCATTTTCAGGCAATACTTTTTCAGTATATTTCTGCTTTGTAGATTATTAGCTAAATCAAGTCACATAAACTTCCTTAATTTAGATACTTGAAAAAATTGTCTTAAAAGAAAATTTTTTTAGTAAGAATTAATTTAGAATTAGCCAGAAAACTCCCAGTGGTAGCCAAGAAAGAGGAATAAATATTGGTGGTAATTTTTTAAGTTCCCATCTCTGGTAGCCAAGTAAAAAAAGAGGGTAACTCATTAATAAAATAACAAATCATATCTATTCAAAGAATGGCACCAGTGTGAAAAAAAGCTTTTTAACCAATGACATTTGTGATATGATTATTCTAATTTAGTCTTTTTCAGGTACAAGATATTATGAAATTACATTTTGTGTTTATGTTATTTGCAaTGTTTTCTAT c cAAATATTTCACAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAGCTTAAAAGGACTATGGACACTTCGTGCCTTCGGACGGCAGCCTTACTTTGAAACTCTGTTCCACAAAGCTCTGAATTTACATACTGCCAACTGGTTCTTGTACCTGTCAACACTGCGCTGGTTCCAAATGAGAATAGAAATGATTTTTGTCATCTTCTTCATTGCTGTTACCTTCATTTCCATTTTAACAACAGGTACTATGAACTCATTAACTTTAGCTAAGCATTTAAGTAAAAAATTTTCAATGAATAAAATGCTGCATTCTATAGGTTATCAATTTTTGATATCTTTAGAGTTTAGTAATTAACAAATTTGTTGGTTTATTATTGAACAAGTGATTTCTTTGAATTTCCATTGTTTTATTGTTAAACAAATAATTTCCTTGAAATCGGATATATATATATATATGTATATATATATATATATATATATATATATACA

In an embodiment, an ssODN may be to correct a mutation, e.g., anintronic 3272-26bp (A→G) target site in the CFTR gene, and concomitantlyintroduce a silent mutation to disrupt subsequent Cas9 binding andcleavage. For example, the ssODN may include 5′ and 3′ homology arms asshown below. The 5′ homology arm is shown as bold sequence, the insertedbase to correct the intronic 3272-26bp (A→G) mutation is shown as lowercase sequence, the silent sense mutation is shown as lower caseunderlined and italicized sequence, and the 3′ homology arm is shown asno emphasis capitalized sequence.

(Template Construct 53; SEQ ID NO: 27335)ATATGATTATTCTAATTTAGTCTTTTTCAGGTACAAGATATTATGAAATTACATTTTGTGTTTATGTTATTTGCAaTGTTTTCTAT cc AAATATTTCACAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAG CTTAAAAGGACTATGG

The underlined C has been changed from a G to C at that position, sothat wild-type CFTR is still transcribed, but the PAM sequence TGG hasbeen modified to reduce or eliminate Cas9 cleavage at that locus.

Table 49 below provides exemplary template nucleic acids. In anembodiment, the template nucleic acid includes the 5′ homology arm andthe 3′ homology arm of a row from Table 49. In other embodiments, a 5′homology arm from the first column can be combined with a 3′ homologyarm from Table 49. In each embodiment, a combination of the 5′ and 3′homology arms include a replacement sequence, e.g.,Cytosine-Thymine-Thymine (CTT) residues or a Guanine (G) residue.

TABLE 49 5′ homology arm 3′ homology arm (the number of (the number ofnucleotides from nucleotides from SEQ ID NO: 5′H, SEQ ID NO: 3′H,beginning at Replacement beginning at the 3′ end of Sequence = CT the 5′end of SEQ ID NO: 5′H) T or G SEQ ID NO: 3′H)   10 or more   10 or more  20 or more   20 or more   50 or more   50 or more  100 or more  100 ormore  150 or more  150 or more  200 or more  200 or more  250 or more 250 or more  300 or more  300 or more  350 or more  350 or more  400 ormore  400 or more  450 or more  450 or more  500 or more  500 or more 550 or more  550 or more  600 or more  600 or more  650 or more  650 ormore  700 or more  700 or more  750 or more  750 or more  800 or more 800 or more  850 or more  850 or more  900 or more  900 or more 1000 ormore 1000 or more 1100 or more 1100 or more 1200 or more 1200 or more1300 or more 1300 or more 1400 or more 1400 or more 1500 or more 1500 ormore 1600 or more 1600 or more 1700 or more 1700 or more 1800 or more1800 or more 1900 or more 1900 or more 1200 or more 1200 or more Atleast 50 but not At least 50 but not long enough to long enough toinclude a include a repeated element. repeated element. At least 100 butAt least 100 but not long enough to not long enough to include a includea repeated element. repeated element. At least 150 but At least 150 butnot long enough to not long enough to include a include a repeatedelement. repeated element.    5 to 100 nucleotides    5 to 100nucleotides   10 to 150 nucleotides   10 to 150 nucleotides   20 to 150nucleotides   20 to 150 nucleotides Template Construct No. 1 TemplateConstruct No. 2 Template Construct No. 3 Template Construct No. 4

In an embodiment, a single or dual nickase eaCas9 is used to cleave thetarget DNA near the site of the mutation, or signature, to be modified,e.g., replaced. While not wishing to be bound by theory, in anembodiment, it is believed that the Cas9 mediated break induces HDR withthe template nucleic acid to replace the target DNA sequence with thetemplate sequence.

Targeted Knockin by cDNA Insertion

In an embodiment, homology-directed repair of the CFTR gene is used totarget an intronic region between exons X and Y, wherein exons X and Yare any exons between exon 1 and exon 27, given that exon X and exon Yare adjacent and exon X has a lower number than exon Y, and deliver aCas9 molecule, CRIPSR-gRNAs, and homology-directed repair templates thatinclude homology arms, splice acceptor, contiguous coding sequence ofexons (X+1) through exon 27 of CFTR gene and polyadenylation signal.

In an embodiment, one single strand break, two single strand breaks, onedouble strand break or two double strand breaks are introduced (e.g.,positioned by one, two, three, or four gRNA molecule/s) at or in closeproximity to a CF target knockin position in the CFTR gene. The CFtarget knockin position is the intronic region between CFTR exons X andY. Altering the CF target knockin position refers to homology-directedrepair of genomic sequence including the delivery of cDNA template ofcontiguous exons (X+1) through exon 27 of CFTR gene. Targeted knockin ofCFTR cDNA leads to the cessation of production of mutant or truncatedCFTR protein and results in the production of wild-type CFTR protein.Targeted knockin of CFTR cDNA prevents the development or progression oflung, gastrointestinal and/or reproductive disease in a subject due tothe cessation of production of mutant CFTR protein and restoration ofwild-type CFTR protein production. This approach cures and/or preventsthe progression of lung, gastrointestinal and/or reproductive disease inany subject with CF or CF-like disease deficiency who has a mutation inexon (X+1) through exon 27 of the CFTR gene, or in any subject who has amutation in an intronic or exonic region of the CFTR gene that is afterintron X.

In an embodiment, homology-directed repair of the CFTR gene in anysubject with CF mutations in exons 3 through 27 and introns 2 through 26by targeting intronic region between exons 2 and 3 and with delivery ofa homology-directed repair template including homology arms, spliceacceptor, coding sequence of contiguous exons 3-27 of CFTR gene andpolyadenylation signal. The CF target position is the intronic regionbetween exons 2 and 3. Altering the CF target position refers tohomology-directed repair of genomic sequence including the delivery ofcDNA template of exons 3-27 of CFTR gene. This approach cures and/orprevents the progression of lung, gastrointestinal and/or reproductivedisease in any subject with CF or CF-like disease deficiency who has amutation in exons 3-27 of the CFTR gene, or in any subject who has amutation in an intronic or exonic region of the CFTR gene that is on orafter the second intron, including but not limited to the followingmutations: e.g., F508del, G551D, G542X, N1303K, R117H, W1282X, R553X,c.3717+12191C>T, 2657+5G>A, or c.3140-26A>G.

In an embodiment, a cDNA insert construct comprises a 5′ homology arm, asplice acceptor, a cDNA insert (e.g., CFTR exons 3 to 27, e.g., CFTRexons 11 to 27), a 3′ homology arm, and a polyadenylation signal. Spliceacceptors and polyadenylation signals are well known to one of skill inthe art.

It is contemplated herein that, in an embodiment, a Cas9 molecule couldpotentially cleave cDNA insert constructs either prior to or followinghomology directed repair (e.g., homologous recombination), resulting ina possible non-homologous-end-joining event and further DNA sequencemutation at the chromosomal locus of interest. Therefore, to avoidcleavage of the cDNA insert sequence before and/or after Cas9-mediatedhomology directed repair, alternate versions of the homology arms may beused where silent mutations are introduced into a PAM. These silentmutations may disrupt Cas9 binding and cleavage, but not disrupt theamino acid sequence of the cDNA insert.

Exemplary template cDNA (also referred to herein as cDNA inserts) tointroduce wild-type sequence, e.g., exons 3 to 27 of the CFTR gene, areprovided. In an embodiment, the CRISPR-Cas9 binding site isCTCAAGTGATCTGCCCACCTTGG (SEQ ID NO: 27336) (PAM is underlined TGG).

In an embodiment, to insert CFTR cDNA (e.g., CFTR exons 3 to 27) intointron 2, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the homology arms, e.g., the 5′and 3′ homology arms, may each comprise about 1000 base pairs (bp) ofsequence flanking the most distal gRNAs (e.g., 1200 bp of sequence oneither side of the mutation). The 5′ homology arm is shown as boldsequence, the CRISPR-Cas9 binding site is shown as italicized sequence,the PAM site is underlined, the silent sense mutation in the PAM isshown as lower case underlined sequence, and the 3′ homology arm isshown as no emphasis capitalized sequence.

(SEQ ID NO: 27337)CAATCAAAAGGTTAGGATCCTTTTGATTGCCAGTGACAGAAACCCAATTTACTAGCTTAAGTAAATAAAAGGAACGAATTTATTGGCTCATGAAGCCTGAACTATGTGAAGACCTAGGTGGAGAACTGGCCTTAGGAACTCAATGGGACCAAGGACTCAAATGCCACCTGGTGGCATTTGCCTTATGCTGGTTTTATTTTCTCAGACCGGACCAGCTTTCTACATAAAGTGGGTCCCTGGTTAGAACTCTTTGCTCCTATCTTTAAGGACCACGAAAGAAGGAGCCCTTTGTCCTTGGCTAAATGTGAAAAATCCCAGAGACTCTTGAGTCATAGTGCTTACCCCTTGGGCCACTCATAGTCTAGAATGAACTAGGCTGAGTCTCGTGCCAACAGCACAGGCCTGATGCCAGATAAAAGGGTGAGTGAAGGGGGATAAAAAATAAGACATAGCTACTAAATTATTGCACCAAAGTAAAAACATTGAGTTGACTTGCAATTTGTTTCTTTTAATTAAATTCATTTCCTTTTTTTGGCATTTTGAAGGCAAAGTAAGATATTAAACTTTATTTTTATTGATTTTATTCAAAGAATTAAGCTAGTGGGAGTAGCAGATTCACACTTCTAAGATCAAGGGCCAGCTTCTATTATTGAACACTTGGTGTGTGCAAATGCCATGAGGTAGGGATACTTTGTTTTGTTTTTTATTTTTTATTGGGTTCGATCTCTTTTGTTTATGATGTATCCCCAAGTGCCTAGAATAGGGCCTGGCATATGGTATATACTCAATAAATATTTGTTGAATGAATCCATGATGGAATGTGAAATGGCTAGCATTACATAGAAACCTGTAGCATTGCTGGAGAGATAAAATATATAAACATAATCCATTGCAGGTATATTGACAAGTTCAAAATAATATAATGGGTATTGAATATCTAAATGTTTGTTGTTGTTGTTGCTGTTGTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGTAATGGTGCAATTTTGGCTCACTGCAAACTTCGTCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGTTTACAGGCACTCGCCACAATGCCTGGCTAATTTTTGTATTTTAGTAGATGTGGAGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCT GACCTCAAGTGATCTGCCCACCT TaaCCTCCCAAAATGCTGGGATTATAGGTGTGAGCCACTATGCCCAGCTTTGAATATCTAAGTTTTAATTGGATGCTGAGGGAATGATTAATCAGAGTAGGGCTGGGTTAATTGAAAAATGTGATACATTTGTATTTATGGCCAGATAGAGAACATGAATCTGAATTTGCAGAATTATCTGGCTTAACATTTTTTTCTTTCCAGTTTTCACTGTATCCCCCATGTTGATTCAATTTAAAAAATATACCTATTTTACTTCAATTCAACAATGCTATGCCAGTACAAACCCATACGTTCTATTATTTTTGTTTTGTTTTGTTTTTGTATCTCCACCCTGTTACTTCTTTTCTTATAAAATTGGTATTTGAAATTTATTGAAATATTTTGGAAGAGTGACATACCATTTTTGGTACTTTGTACCTCTGCACCCTTGGGAAGTGACCCTGGCTTCACATTTCATAACTGCCTTGTGACCATGGCCCTCAAGTGGTTGCCAGATGGTTGAAGAACATTAACCTATCTGGCTCAATTTTGTGACCATGGATTGAATCCTCTACATAACTGCAGTGTGCAAACCACACATCCGTTCCAAGATTGTAGTCAGGATATGAACTTTTTAAGAATAAAACTTCTTCCCTTCTGATCTGGGCCTGGTATGTGGTCCTACTAGAACCACATCACCTACTCTTGGTGCTAACAATTTGTGGCACCAAGTTGTTCAAGTTTCACCCATTAAAGAAATTCCCCGACCTTGCCTTCTCCTCAGGTAACTACCCCATTCTATTTTTTCTTTCATAGCTAACATTCTCTGCTCTCCTGGTCTCTCTACTTCACTTTCATTTACATCTCAGCTCCTGAAGTATGGTTTCCACCATGTTCCTAAAACTACATTGCCCAGGGTCACTAGAGACCTCTTATGAAATATAACAACACCTTTCTACATTACTTCCGTGTGGACCACTTTTTCACATTGAACCCATTTTGTTGGTTTATGTACACACCCCTTCCTTGGCTTTCCCATCTGATCCATTTCTCCTTTGATGGAGAAGGTGAGTCTGCTCCATATTTAGCTTCTTACTCTGAGTAACCAAATGTTATGGATGGGAGGTTAGCTCTGTGTGTGAGAGAAAGGTGGAGAAGCATGTGGGGAGGGAAATAGATGGGAAAAGGTAATTAGGCTTTATAGAAGGGCTCTCA

The underlined A has been changed from a G to A at that position so thatwild-type CFTR is still transcribed, but the PAM sequence TGG has beenmodified to TAA to reduce or eliminate Cas9 cleavage at that locus.

In an embodiment, suitable sequence for the cDNA insert of CFTR exons 3to 27, can be selected from (e.g., includes a portion of) or include thefollowing sequence:

(SEQ ID NO: 27338)AGAATGGGATAGAGAGCTGGCTTCAAAGAAAAATCCTAAACTCATTAATGCCCTTCGGCGATGTTTTTTCTGGAGATTTATGTTCTATGGAATCTTTTTATATTTAGGGGAAGTCACCAAAGCAGTACAGCCTCTCTTACTGGGAAGAATCATAGCTTCCTATGACCCGGATAACAAGGAGGAACGCTCTATCGCGATTTATCTAGGCATAGGCTTATGCCTTCTCTTTATTGTGAGGACACTGCTCCTACACCCAGCCATTTTTGGCCTTCATCACATTGGAATGCAGATGAGAATAGCTATGTTTAGTTTGATTTATAAGAAGACTTTAAAGCTGTCAAGCCGTGTTCTAGATAAAATAAGTATTGGACAACTTGTTAGTCTCCTTTCCAACAACCTGAACAAATTTGATGAAGGACTTGCATTGGCACATTTCGTGTGGATCGCTCCTTTGCAAGTGGCACTCCTCATGGGGCTAATCTGGGAGTTGTTACAGGCGTCTGCCTTCTGTGGACTTGGTTTCCTGATAGTCCTTGCCCTTTTTCAGGCTGGGCTAGGGAGAATGATGATGAAGTACAGAGATCAGAGAGCTGGGAAGATCAGTGAAAGACTTGTGATTACCTCAGAAATGATTGAAAATATCCAATCTGTTAAGGCATACTGCTGGGAAGAAGCAATGGAAAAAATGATTGAAAACTTAAGACAAACAGAACTGAAACTGACTCGGAAGGCAGCCTATGTGAGATACTTCAATAGCTCAGCCTTCTTCTTCTCAGGGTTCTTTGTGGTGTTTTTATCTGTGCTTCCCTATGCACTAATCAAAGGAATCATCCTCCGGAAAATATTCACCACCATCTCATTCTGCATTGTTCTGCGCATGGCGGTCACTCGGCAATTTCCCTGGGCTGTACAAACATGGTATGACTCTCTTGGAGCAATAAACAAAATACAGGATTTCTTACAAAAGCAAGAATATAAGACATTGGAATATAACTTAACGACTACAGAAGTAGTGATGGAGAATGTAACAGCCTTCTGGGAGGAGGGATTTGGGGAATTATTTGAGAAAGCAAAACAAAACAATAACAATAGAAAAACTTCTAATGGTGATGACAGCCTCTTCTTCAGTAATTTCTCACTTCTTGGTACTCCTGTCCTGAAAGATATTAATTTCAAGATAGAAAGAGGACAGTTGTTGGCGGTTGCTGGATCCACTGGAGCAGGCAAGACTTCACTTCTAATGGTGATTATGGGAGAACTGGAGCCTTCAGAGGGTAAAATTAAGCACAGTGGAAGAATTTCATTCTGTTCTCAGTTTTCCTGGATTATGCCTGGCACCATTAAAGAAAATATCATCTTTGGTGTTTCCTATGATGAATATAGATACAGAAGCGTCATCAAAGCATGCCAACTAGAAGAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGAGCAGTATACAAAGATGCTGATTTGTATTTATTAGACTCTCCTTTTGGATACCTAGATGTTTTAACAGAAAAAGAAATATTTGAAAGCTGTGTCTGTAAACTGATGGCTAACAAAACTAGGATTTTGGTCACTTCTAAAATGGAACATTTAAAGAAAGCTGACAAAATATTAATTTTGCATGAAGGTAGCAGCTATTTTTATGGGACATTTTCAGAACTCCAAAATCTACAGCCAGACTTTAGCTCAAAACTCATGGGATGTGATTCTTTCGACCAATTTAGTGCAGAAAGAAGAAATTCAATCCTAACTGAGACCTTACACCGTTTCTCATTAGAAGGAGATGCTCCTGTCTCCTGGACAGAAACAAAAAAACAATCTTTTAAACAGACTGGAGAGTTTGGGGAAAAAAGGAAGAATTCTATTCTCAATCCAATCAACTCTATACGAAAATTTTCCATTGTGCAAAAGACTCCCTTACAAATGAATGGCATCGAAGAGGATTCTGATGAGCCTTTAGAGAGAAGGCTGTCCTTAGTACCAGATTCTGAGCAGGGAGAGGCGATACTGCCTCGCATCAGCGTGATCAGCACTGGCCCCACGCTTCAGGCACGAAGGAGGCAGTCTGTCCTGAACCTGATGACACACTCAGTTAACCAAGGTCAGAACATTCACCGAAAGACAACAGCATCCACACGAAAAGTGTCACTGGCCCCTCAGGCAAACTTGACTGAACTGGATATATATTCAAGAAGGTTATCTCAAGAAACTGGCTTGGAAATAAGTGAAGAAATTAACGAAGAAGACTTAAAGGAGTGCTTTTTTGATGATATGGAGAGCATACCAGCAGTGACTACATGGAACACATACCTTCGATATATTACTGTCCACAAGAGCTTAATTTTTGTGCTAATTTGGTGCTTAGTAATTTTTCTGGCAGAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAACACTCCTCTTCAAGACAAAGGGAATAGTACTCATAGTAGAAATAACAGCTATGCAGTGATTATCACCAGCACCAGTTCGTATTATGTGTTTTACATTTACGTGGGAGTAGCCGACACTTTGCTTGCTATGGGATTCTTCAGAGGTCTACCACTGGTGCATACTCTAATCACAGTGTCGAAAATTTTACACCACAAAATGTTACATTCTGTTCTTCAAGCACCTATGTCAACCCTCAACACGTTGAAAGCAGGTGGGATTCTTAATAGATTCTCCAAAGATATAGCAATTTTGGATGACCTTCTGCCTCTTACCATATTTGACTTCATCCAGTTGTTATTAATTGTGATTGGAGCTATAGCAGTTGTCGCAGTTTTACAACCCTACATCTTTGTTGCAACAGTGCCAGTGATAGTGGCTTTTATTATGTTGAGAGCATATTTCCTCCAAACCTCACAGCAACTCAAACAACTGGAATCTGAAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAGCTTAAAAGGACTATGGACACTTCGTGCCTTCGGACGGCAGCCTTACTTTGAAACTCTGTTCCACAAAGCTCTGAATTTACATACTGCCAACTGGTTCTTGTACCTGTCAACACTGCGCTGGTTCCAAATGAGAATAGAAATGATTTTTGTCATCTTCTTCATTGCTGTTACCTTCATTTCCATTTTAACAACAGGAGAAGGAGAAGGAAGAGTTGGTATTATCCTGACTTTAGCCATGAATATCATGAGTACATTGCAGTGGGCTGTAAACTCCAGCATAGATGTGGATAGCTTGATGCGATCTGTGAGCCGAGTCTTTAAGTTCATTGACATGCCAACAGAAGGTAAACCTACCAAGTCAACCAAACCATACAAGAATGGCCAACTCTCGAAAGTTATGATTATTGAGAATTCACACGTGAAGAAAGATGACATCTGGCCCTCAGGGGGCCAAATGACTGTCAAAGATCTCACAGCAAAATACACAGAAGGTGGAAATGCCATATTAGAGAACATTTCCTTCTCAATAAGTCCTGGCCAGAGGGTGGGCCTCTTGGGAAGAACTGGATCAGGGAAGAGTACTTTGTTATCAGCTTTTTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTGGAGGAAAGCCTTTGGAGTGATACCACAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAACTTGGATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTTGGGCTCAGATCTGTGATAGAACAGTTTCCTGGGAAGCTTGACTTTGTCCTTGTGGATGGGGGCTGTGTCCTAAGCCATGGCCACAAGCAGTTGATGTGCTTGGCTAGATCTGTTCTCAGTAAGGCGAAGATCTTGCTGCTTGATGAACCCAGTGCTCATTTGGATCCAGTAACATACCAAATAATTAGAAGAACTCTAAAACAAGCATTTGCTGATTGCACAGTAATTCTCTGTGAACACAGGATAGAAGCAATGCTGGAATGCCAACAATTTTTGGTCATAGAAGAGAACAAAGTGCGGCAGTACGATTCCATCCAGAAACTGCTGAACGAGAGGAGCCTCTTCCGGCAAGCCATCAGCCCCTCCGACAGGGTGAAGCTCTTTCCCCACCGGAACTCAAGCAAGTGCAAGTCTAAGCCCCAGATTGCTGCTCTGAAAGAGGAGACAGAAGAAGAGGTGCAAGATACAAGGCTTTAG

It is contemplated herein that one or both homology arms may beshortened to avoid including certain sequence repeat elements, e.g., Alurepeats, LINE elements. For example, a 5′ homology arm may be shortenedto avoid a sequence repeat element. In other embodiments, a 3′ homologyarm may be shortened to avoid a sequence repeat element. In someembodiments, both the 5′ and the 3′ homology arms may be shortened toavoid including certain sequence repeat elements.

In an embodiment, to insert CFTR cDNA (e.g., CFTR exons 3 to 27) intointron 2, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the homology arms, e.g., the 5′and 3′ homology arms, may be shorted to approximately 500 bp. The 5′homology arm is shown as bold sequence, the CRISPR-Cas9 binding site isshown as italicized sequence, the PAM site is underlined, the silentsense mutation in the PAM is shown as lower case underlined sequence,and the 3′ homology arm is shown as no emphasis capitalized sequence.

(SEQ ID NO: 27339)TTTTTATTTTTTATTGGGTTCGATCTCTTTTGTTTATGATGTATCCCCAAGTGCCTAGAATAGGGCCTGGCATATGGTATATACTCAATAAATATTTGTTGAATGAATCCATGATGGAATGTGAAATGGCTAGCATTACATAGAAACCTGTAGCATTGCTGGAGAGATAAAATATATAAACATAATCCATTGCAGGTATATTGACAAGTTCAAAATAATATAATGGGTATTGAATATCTAAATGTTTGTTGTTGTTGTTGCTGTTGTTTTTGAGACAGAGTCTTGCTCTGTTGCCCAGGCTGGAGTGTAATGGTGCAATTTTGGCTCACTGCAAACTTCGTCTCCTGGGTTCAAGTGATTCTCCTGCCTCAGCCTCTCGAGTAGCTGGGTTTACAGGCACTCGCCACAATGCCTGGCTAATTTTTGTATTTTAGTAGATGTGGAGTTTCGCCATGTTGGCCAGGCTGGTCTTGAACTCCTGAC CTCAAGTGATCTGCCCACCT TaaCCTCCCAAAATGCTGGGATTATAGGTGTGAGCCACTATGCCCAGCTTTGAATATCTAAGTTTTAATTGGATGCTGAGGGAATGATTAATCAGAGTAGGGCTGGGTTAATTGAAAAATGTGATACATTTGTATTTATGGCCAGATAGAGAACATGAATCTGAATTTGCAGAATTATCTGGCTTAACATTTTTTTCTTTCCAGTTTTCACTGTATCCCCCATGTTGATTCAATTTAAAAAATATACCTATTTTACTTCAATTCAACAATGCTATGCCAGTACAAACCCATACGTTCTATTATTTTTGTTTTGTTTTGTTTTTGTATCTCCACCCTGTTACTTCTTTTCTTATAAAATTGGTATTTGAAATTTATTGAAATATTTTGGAAGAGTGACATACCATTTTTGGTACTTTGTACCTCTGCACCCTTGGGAAGTGACCCTGGCTTCACATTTCATAACTGCCTTGTGACCATGGCCCTCAAGTGGTTGCCAG

The underlined A has been changed from a G to A at that position so thatwild-type CFTR is still transcribed, but the PAM sequence TGG has beenmodified to TAA to reduce or eliminate Cas9 cleavage at that locus.

Exemplary template cDNA (also referred to herein as cDNA inserts) tointroduce wild-type sequence, e.g., exons 11 to 27 of the CFTR gene, areprovided. In an embodiment, the CRISPR-Cas9 binding site isAGTGAATGAATGTGGTATCCCGG (SEQ ID NO: 27340) (PAM is underlined CGG).

In an embodiment, to insert CFTR cDNA (e.g., CFTR exons 11 to 27) intointron 10, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the homology arms, e.g., the 5′and 3′ homology arms, may each comprise about 1000 base pairs (bp) ofsequence flanking the most distal gRNAs (e.g., 1200 bp of sequence oneither side of the mutation). The 5′ homology arm is shown as boldsequence, the CRISPR-Cas9 binding site is shown as italicized sequence,the PAM site is underlined, the silent sense mutation in the PAM isshown as lower case underlined sequence, and the 3′ homology arm isshown as no emphasis capitalized sequence.

(SEQ ID NO: 27341)CTAAATAGAGTGCTGATTTCCCCACAGCATTACTAACAGATGATATTATCTAATTTAAAAAGTTTCTCATCTTATAGGGAAAATAGTATGTCAATGTATTCTTAACTTGCATTTCTTTTATTATAAGTAGTGTAAAATATCATTTCAACTTATACACAGGAGGAATTTCTCTCTATATAAAGTGATCCTAGAATCATAATGAAAAATATCACCAACTCATTAGGAAAATGTACAAAGGATTGAATAGATATCTCATCAAAAATAAAAATATAAGTGGCCTTTAAACATTGAAAGGTAACATTTGAACAAAGACTTGCAGGAGGTGAGGGATTAGGGAATGCAGACTCTGGGAAGAGTCTTCCAAGTAGCAGGTGAAGCAAGTGCAAAGCTTTCAGATGGGACTGACTATACCTGTCTGGTTTGAAGAACAGTAAGGAGGTCACTGAGGCTGGCATAGAGTAAGACAGGGAGGGTAGAATACTGTCAGAGAAGTAATCGGCGGTGGAGGTAGGGGGTAAACCATAAAGTGCTCGTAAAGACTAAGGCTTATTTCTCTGGGTGAGATTAGAGGCCACTGGAGAGTTTTAAACAGAAGTAACAGGGCCACTTTGGCTAATGTTTTTAGGCTATTCTGTAGGGAGACAAGGGAGGAAGCAAGGAGATGAGTTAGGAGTCTATTGTGCCAGTTCAGGCAAGTGATGATGGTGGCTTGATCCAGGTAGTAGTGGAAGTAGTATAGTAGGAAGTGATCAGATTCAGGACATGCTTTGAAGGAAGATCCAATAGGATTAATGGATAAGTTGAACAATGGCATATGAGAAAAGTCACAGAGGAGTCAAAGATGATTCCAAGCTTTCTGGACTGAGTAACTGGAAGGATAAATGTGCCGTTTACTAGAAAGATAATGGGAGAAACAGGTTTTGGATGGAGCTTGGTTTGGGAATATTAAGTTTGAAATGCCTATTTGACATCCAAATAGAGATGTTAGTTGGATGTACAAGTCTAGTTTCAAGGAAGAGGGGGCTGGTAGTGTGAAGATGGGGCTGGATAAGATTCTAAAGGAAAGAGGGTTGATAAGAAGAGAAAGGGGTGTAGGGGTTAGCCTAAGGGCATTCTAAGTATTAGAGGTTAAGGAGGTGGGTGAAGAAAACCCAATAAAATAAAAGTCTGAGAAGACAAAGCT AGTGAATGAATGTGGTATCC CttAACCCAACTGATGTCAAGCAGAAGGGTGTTATCAACTAGGTCAAATGCTCATTCATCAAGTAAGATGAAACTGTTATAATTAACCGGTGTCTTCTGAAATACGGAGATAACTCGTGACTTAATGAAAGCAATAGTAGAGAAGGTCAAACTTGACCAGAATGAAATTAGAAAGAATAAGAGGAAAGAAAAGACCAAATACAGACAACCATTGATGCCTTATTCTTTTGATATACTCCTGGAGTCCACTTGCTAATACAATTGACCCTTAAACAATACAGGCTTGAACTGCATGGGTCCACTTATTTGTGAATTTTTTTTCAGTTAATACATTGGAAAATTTTTGGGGTTTTTTGACAATTTGAAAAAACTCACAAACTGTCTAGCCTAGAAATACCGAGAAAATTAAGAAAAAGTAAGATATGCCATGAATGCATAAAATATATGTAGACACTAGCCTATTTTATCATTTGCTACTATAAAATATACACAATCTATTATAAAAAGTTAAAATTTATCAAAACTTAACACACACTAACACCTACCCTACCTGGCACCATTCACAGTAAAGAGAAATGTAAATAAACATAAAAATGTAGTATTAAACCATAATGGCATAAAACTAATTGTAGTACATATGGTACTACTGTAATAATTTGGAAGCCACTTCCTGTTGCTATTACGGTAAGCTCAAGCATTGTGGATAGCCATTTAAAACACCACGTGATGCTAATCATCTCCGTGTGAGCAGTTCTCTCTCCAGTAAATTGCATATTGCAGTAAAAAGTGATCTCTAGTGGTTCTCGCATATTTTTCATCATGTTTAGTGCAATGCCATAAACCTTGAATAACATCAAGCAATCCATACAAAGTGCCACTAGTGATGCACGGAAAAGTTGTAACAGTACAAGAAAAAAGTTGAGTTGCTTGGTATTTACCATATATTGAGGTCTGCAGCTACAGTTGCCTGCAATTTCGAGATAAATGAACCCAGTATAAAGACTGTTGTAACAAAAGAAAAGAAAATGTGAAACCATCAGTGCAGCTATGCCAGCAGGTGTGAAGTCTTGCACTTTTTGCAAAATACAAAATATGAAATATGTGTTAATTGACTGTTTATGTTATCTGTAAGGTTTCCACTCAACAATAGGCTATTAGTAGTTAAGTTTTTGTGGAGTCAAAAATTATACGTGGATT

The underlined T has been changed from a G to T at that position so thatwild-type CFTR is still transcribed, but the PAM sequence CGG has beenmodified to CTT to reduce or eliminate Cas9 cleavage at that locus.

In an embodiment, suitable sequence for the cDNA insert of CFTR exons 11to 27, can be selected from (e.g., includes a portion of) or include thefollowing sequence:

(SEQ ID NO: 27342)ACTTCACTTCTAATGGTGATTATGGGAGAACTGGAGCCTTCAGAGGGTAAAATTAAGCACAGTGGAAGAATTTCATTCTGTTCTCAGTTTTCCTGGATTATGCCTGGCACCATTAAAGAAAATATCATCTTTGGTGTTTCCTATGATGAATATAGATACAGAAGCGTCATCAAAGCATGCCAACTAGAAGAGGACATCTCCAAGTTTGCAGAGAAAGACAATATAGTTCTTGGAGAAGGTGGAATCACACTGAGTGGAGGTCAACGAGCAAGAATTTCTTTAGCAAGAGCAGTATACAAAGATGCTGATTTGTATTTATTAGACTCTCCTTTTGGATACCTAGATGTTTTAACAGAAAAAGAAATATTTGAAAGCTGTGTCTGTAAACTGATGGCTAACAAAACTAGGATTTTGGTCACTTCTAAAATGGAACATTTAAAGAAAGCTGACAAAATATTAATTTTGCATGAAGGTAGCAGCTATTTTTATGGGACATTTTCAGAACTCCAAAATCTACAGCCAGACTTTAGCTCAAAACTCATGGGATGTGATTCTTTCGACCAATTTAGTGCAGAAAGAAGAAATTCAATCCTAACTGAGACCTTACACCGTTTCTCATTAGAAGGAGATGCTCCTGTCTCCTGGACAGAAACAAAAAAACAATCTTTTAAACAGACTGGAGAGTTTGGGGAAAAAAGGAAGAATTCTATTCTCAATCCAATCAACTCTATACGAAAATTTTCCATTGTGCAAAAGACTCCCTTACAAATGAATGGCATCGAAGAGGATTCTGATGAGCCTTTAGAGAGAAGGCTGTCCTTAGTACCAGATTCTGAGCAGGGAGAGGCGATACTGCCTCGCATCAGCGTGATCAGCACTGGCCCCACGCTTCAGGCACGAAGGAGGCAGTCTGTCCTGAACCTGATGACACACTCAGTTAACCAAGGTCAGAACATTCACCGAAAGACAACAGCATCCACACGAAAAGTGTCACTGGCCCCTCAGGCAAACTTGACTGAACTGGATATATATTCAAGAAGGTTATCTCAAGAAACTGGCTTGGAAATAAGTGAAGAAATTAACGAAGAAGACTTAAAGGAGTGCTTTTTTGATGATATGGAGAGCATACCAGCAGTGACTACATGGAACACATACCTTCGATATATTACTGTCCACAAGAGCTTAATTTTTGTGCTAATTTGGTGCTTAGTAATTTTTCTGGCAGAGGTGGCTGCTTCTTTGGTTGTGCTGTGGCTCCTTGGAAACACTCCTCTTCAAGACAAAGGGAATAGTACTCATAGTAGAAATAACAGCTATGCAGTGATTATCACCAGCACCAGTTCGTATTATGTGTTTTACATTTACGTGGGAGTAGCCGACACTTTGCTTGCTATGGGATTCTTCAGAGGTCTACCACTGGTGCATACTCTAATCACAGTGTCGAAAATTTTACACCACAAAATGTTACATTCTGTTCTTCAAGCACCTATGTCAACCCTCAACACGTTGAAAGCAGGTGGGATTCTTAATAGATTCTCCAAAGATATAGCAATTTTGGATGACCTTCTGCCTCTTACCATATTTGACTTCATCCAGTTGTTATTAATTGTGATTGGAGCTATAGCAGTTGTCGCAGTTTTACAACCCTACATCTTTGTTGCAACAGTGCCAGTGATAGTGGCTTTTATTATGTTGAGAGCATATTTCCTCCAAACCTCACAGCAACTCAAACAACTGGAATCTGAAGGCAGGAGTCCAATTTTCACTCATCTTGTTACAAGCTTAAAAGGACTATGGACACTTCGTGCCTTCGGACGGCAGCCTTACTTTGAAACTCTGTTCCACAAAGCTCTGAATTTACATACTGCCAACTGGTTCTTGTACCTGTCAACACTGCGCTGGTTCCAAATGAGAATAGAAATGATTTTTGTCATCTTCTTCATTGCTGTTACCTTCATTTCCATTTTAACAACAGGAGAAGGAGAAGGAAGAGTTGGTATTATCCTGACTTTAGCCATGAATATCATGAGTACATTGCAGTGGGCTGTAAACTCCAGCATAGATGTGGATAGCTTGATGCGATCTGTGAGCCGAGTCTTTAAGTTCATTGACATGCCAACAGAAGGTAAACCTACCAAGTCAACCAAACCATACAAGAATGGCCAACTCTCGAAAGTTATGATTATTGAGAATTCACACGTGAAGAAAGATGACATCTGGCCCTCAGGGGGCCAAATGACTGTCAAAGATCTCACAGCAAAATACACAGAAGGTGGAAATGCCATATTAGAGAACATTTCCTTCTCAATAAGTCCTGGCCAGAGGGTGGGCCTCTTGGGAAGAACTGGATCAGGGAAGAGTACTTTGTTATCAGCTTTTTTGAGACTACTGAACACTGAAGGAGAAATCCAGATCGATGGTGTGTCTTGGGATTCAATAACTTTGCAACAGTGGAGGAAAGCCTTTGGAGTGATACCACAGAAAGTATTTATTTTTTCTGGAACATTTAGAAAAAACTTGGATCCCTATGAACAGTGGAGTGATCAAGAAATATGGAAAGTTGCAGATGAGGTTGGGCTCAGATCTGTGATAGAACAGTTTCCTGGGAAGCTTGACTTTGTCCTTGTGGATGGGGGCTGTGTCCTAAGCCATGGCCACAAGCAGTTGATGTGCTTGGCTAGATCTGTTCTCAGTAAGGCGAAGATCTTGCTGCTTGATGAACCCAGTGCTCATTTGGATCCAGTAACATACCAAATAATTAGAAGAACTCTAAAACAAGCATTTGCTGATTGCACAGTAATTCTCTGTGAACACAGGATAGAAGCAATGCTGGAATGCCAACAATTTTTGGTCATAGAAGAGAACAAAGTGCGGCAGTACGATTCCATCCAGAAACTGCTGAACGAGAGGAGCCTCTTCCGGCAAGCCATCAGCCCCTCCGACAGGGTGAAGCTCTTTCCCCACCGGAACTCAAGCAAGTGCAAGTCTAAGCCCCAGATTGCTGCTCTGAAAGAGGAGACAGAAGAAGAGGTGCAAGATACAAGGCTTTAG

In an embodiment, to insert CFTR cDNA (e.g., CFTR exons 11 to 27) intointron 10, and concomitantly introduce a silent mutation to disruptsubsequent Cas9 binding and cleavage, the homology arms, e.g., the 5′and 3′ homology arms, may be shorted to approximately 500 bp. The 5′homology arm is shown as bold sequence, the CRISPR-Cas9 binding site isshown as italicized sequence, the PAM site is underlined, the silentsense mutation in the PAM is shown as lower case underlined sequence,and the 3′ homology arm is shown as no emphasis capitalized sequence.

(SEQ ID NO: 27343)GATGGTGGCTTGATCCAGGTAGTAGTGGAAGTAGTATAGTAGGAAGTGATCAGATTCAGGACATGCTTTGAAGGAAGATCCAATAGGATTAATGGATAAGTTGAACAATGGCATATGAGAAAAGTCACAGAGGAGTCAAAGATGATTCCAAGCTTTCTGGACTGAGTAACTGGAAGGATAAATGTGCCGTTTACTAGAAAGATAATGGGAGAAACAGGTTTTGGATGGAGCTTGGTTTGGGAATATTAAGTTTGAAATGCCTATTTGACATCCAAATAGAGATGTTAGTTGGATGTACAAGTCTAGTTTCAAGGAAGAGGGGGCTGGTAGTGTGAAGATGGGGCTGGATAAGATTCTAAAGGAAAGAGGGTTGATAAGAAGAGAAAGGGGTGTAGGGGTTAGCCTAAGGGCATTCTAAGTATTAGAGGTTAAGGAGGTGGGTGAAGAAAACCCAATAAAATAAAAGTCTGAGAAGACAAAGCT AGTGAATGAATGTGGTATCC CttAACCCAACTGATGTCAAGCAGAAGGGTGTTATCAACTAGGTCAAATGCTCATTCATCAAGTAAGATGAAACTGTTATAATTAACCGGTGTCTTCTGAAATACGGAGATAACTCGTGACTTAATGAAAGCAATAGTAGAGAAGGTCAAACTTGACCAGAATGAAATTAGAAAGAATAAGAGGAAAGAAAAGACCAAATACAGACAACCATTGATGCCTTATTCTTTTGATATACTCCTGGAGTCCACTTGCTAATACAATTGACCCTTAAACAATACAGGCTTGAACTGCATGGGTCCACTTATTTGTGAATTTTTTTTCAGTTAATACATTGGAAAATTTTTGGGGTTTTTTGACAATTTGAAAAAACTCACAAACTGTCTAGCCTAGAAATACCGAGAAAATTAAGAAAAAGTAAGATATGCCATGAATGCATAAAATATATGTAGACACTAGCCTATTTTATCATTTGCTACTATAAAATATACACAATCTA

The underlined T has been changed from a G to T at that position so thatwild-type CFTR is still transcribed, but the PAM sequence CGG has beenmodified to CTT to reduce or eliminate Cas9 cleavage at that locus.

V.2 NHEJ Approaches for Gene Targeting

As described herein, nuclease-induced non-homologous end-joining (NHEJ)can be used to target gene-specific knockouts. Nuclease-induced NHEJ canalso be used to remove (e.g., delete) sequence insertions in a gene ofinterest.

While not wishing to be bound by theory, it is believed that, in anembodiment, the genomic alterations associated with the methodsdescribed herein rely on nuclease-induced NHEJ and the error-pronenature of the NHEJ repair pathway. NHEJ repairs a double-strand break inthe DNA by joining together the two ends; however, generally, theoriginal sequence is restored only if two compatible ends, exactly asthey were formed by the double-strand break, are perfectly ligated. TheDNA ends of the double-strand break are frequently the subject ofenzymatic processing, resulting in the addition or removal ofnucleotides, at one or both strands, prior to rejoining of the ends.This results in the presence of insertion and/or deletion (indel)mutations in the DNA sequence at the site of the NHEJ repair. Two-thirdsof these mutations typically alter the reading frame and, therefore,produce a non-functional protein. Additionally, mutations that maintainthe reading frame, but which insert or delete a significant amount ofsequence, can destroy functionality of the protein. This is locusdependent as mutations in critical functional domains are likely lesstolerable than mutations in non-critical regions of the protein.

The indel mutations generated by NHEJ are unpredictable in nature;however, at a given break site certain indel sequences are favored andare over represented in the population, likely due to small regions ofmicrohomology. The lengths of deletions can vary widely; most commonlyin the 1-50 bp range, but they can easily reach greater than 100-200 bp.Insertions tend to be shorter and often include short duplications ofthe sequence immediately surrounding the break site. However, it ispossible to obtain large insertions, and in these cases, the insertedsequence has often been traced to other regions of the genome or toplasmid DNA present in the cells.

Because NHEJ is a mutagenic process, it can also be used to delete smallsequence motifs as long as the generation of a specific final sequenceis not required. If a double-strand break is targeted near to a shorttarget sequence, the deletion mutations caused by the NHEJ repair oftenspan, and therefore remove, the unwanted nucleotides. For the deletionof larger DNA segments, introducing two double-strand breaks, one oneach side of the sequence, can result in NHEJ between the ends withremoval of the entire intervening sequence. Both of these approaches canbe used to delete specific DNA sequences; however, the error-pronenature of NHEJ may still produce indel mutations at the site of repair.

Both double strand cleaving eaCas9 molecules and single strand, ornickase, eaCas9 molecules can be used in the methods and compositionsdescribed herein to generate NHEJ-mediated indels. NHEJ-mediated indelstargeted to the gene, e.g., a coding region, e.g., an early codingregion of a gene of interest can be used to knockout (i.e., eliminateexpression of) a gene of interest. For example, early coding region of agene of interest includes sequence immediately following a transcriptionstart site, within a first exon of the coding sequence, or within 500 bpof the transcription start site (e.g., less than 500, 450, 400, 350,300, 250, 200, 150, 100 or 50 bp).

Placement of Double Strand or Single Strand Breaks Relative to theTarget Position

In an embodiment, in which a gRNA and Cas9 nuclease generate a doublestrand break for the purpose of inducing NHEJ-mediated indels, a gRNA,e.g., a unimolecular (or chimeric) or modular gRNA molecule, isconfigured to position one double-strand break in close proximity to anucleotide of the target position. In an embodiment, the cleavage siteis between 0-30 bp away from the target position (e.g., less than 30,25, 20, 15, 10, 9, 8, 7, 6, 5, 4, 3, 2 or 1 bp from the targetposition).

In an embodiment, in which two gRNAs complexing with Cas9 nickasesinduce two single strand breaks for the purpose of inducingNHEJ-mediated indels, two gRNAs, e.g., independently, unimolecular (orchimeric) or modular gRNA, are configured to position two single-strandbreaks to provide for NHEJ repair a nucleotide of the target position.In an embodiment, the gRNAs are configured to position cuts at the sameposition, or within a few nucleotides of one another, on differentstrands, essentially mimicking a double strand break. In an embodiment,the closer nick is between 0-30 bp away from the target position (e.g.,less than 30, 25, 20, 15, 10, 9, 8, 7, 6, 5, 4, 3, 2 or 1 bp from thetarget position), and the two nicks are within 25-55 bp of each other(e.g., between 25 to 50, 25 to 45, 25 to 40, 25 to 35, 25 to 30, 50 to55, 45 to 55, 40 to 55, 35 to 55, 30 to 55, 30 to 50, 35 to 50, 40 to50, 45 to 50, 35 to 45, or 40 to 45 bp) and no more than 100 bp awayfrom each other (e.g., no more than 90, 80, 70, 60, 50, 40, 30, 20 or 10bp). In an embodiment, the gRNAs are configured to place a single strandbreak on either side of a nucleotide of the target position.

Both double strand cleaving eaCas9 molecules and single strand, ornickase, eaCas9 molecules can be used in the methods and compositionsdescribed herein to generate breaks both sides of a target position.Double strand or paired single strand breaks may be generated on bothsides of a target position to remove the nucleic acid sequence betweenthe two cuts (e.g., the region between the two breaks in deleted). Inone embodiment, two gRNAs, e.g., independently, unimolecular (orchimeric) or modular gRNA, are configured to position a double-strandbreak on both sides of a target position. In an alternate embodiment,three gRNAs, e.g., independently, unimolecular (or chimeric) or modulargRNA, are configured to position a double strand break (i.e., one gRNAcomplexes with a cas9 nuclease) and two single strand breaks or pairedsingle stranded breaks (i.e., two gRNAs complex with Cas9 nickases) oneither side of the target position. In another embodiment, four gRNAs,e.g., independently, unimolecular (or chimeric) or modular gRNA, areconfigured to generate two pairs of single stranded breaks (i.e., twopairs of two gRNAs complex with Cas9 nickases) on either side of thetarget position. The double strand break(s) or the closer of the twosingle strand nicks in a pair will ideally be within 0-500 bp of thetarget position (e.g., no more than 450, 400, 350, 300, 250, 200, 150,100, 50 or 25 bp from the target position). When nickases are used, thetwo nicks in a pair are within 25-55 bp of each other (e.g., between 25to 50, 25 to 45, 25 to 40, 25 to 35, 25 to 30, 50 to 55, 45 to 55, 40 to55, 35 to 55, 30 to 55, 30 to 50, 35 to 50, 40 to 50, 45 to 50, 35 to45, or 40 to 45 bp) and no more than 100 bp away from each other (e.g.,no more than 90, 80, 70, 60, 50, 40, 30, 20 or 10 bp).

V.3 Single-Strand Annealing

Single strand annealing (SSA) is another DNA repair process that repairsa double-strand break between two repeat sequences present in a targetnucleic acid. Repeat sequences utilized by the SSA pathway are generallygreater than 30 nucleotides in length. Resection at the break endsoccurs to reveal repeat sequences on both strands of the target nucleicacid. After resection, single strand overhangs containing the repeatsequences are coated with RPA protein to prevent the repeats sequencesfrom inappropriate annealing, e.g., to themselves. RAD52 binds to andeach of the repeat sequences on the overhangs and aligns the sequencesto enable the annealing of the complementary repeat sequences. Afterannealing, the single-strand flaps of the overhangs are cleaved. New DNAsynthesis fills in any gaps, and ligation restores the DNA duplex. As aresult of the processing, the DNA sequence between the two repeats isdeleted. The length of the deletion can depend on many factors includingthe location of the two repeats utilized, and the pathway orprocessivity of the resection.

In contrast to HDR pathways, SSA does not require a template nucleicacid to alter or correct a target nucleic acid sequence. Instead, thecomplementary repeat sequence is utilized.

V.4 Other DNA Repair Pathways

SSBR (Single Strand Break Repair)

Single-stranded breaks (SSB) in the genome are repaired by the SSBRpathway, which is a distinct mechanism from the DSB repair mechanismsdiscussed above. The SSBR pathway has four major stages: SSB detection,DNA end processing, DNA gap filling, and DNA ligation. A more detailedexplanation is given in Caldecott, Nature Reviews Genetics 9, 619-631(August 2008), and a summary is given here.

In the first stage, when a SSB forms, PARP1 and/or PARP2 recognize thebreak and recruit repair machinery. The binding and activity of PARP1 atDNA breaks is transient and it seems to accelerate SSBr by promoting thefocal accumulation or stability of SSBr protein complexes at the lesion.Arguably the most important of these SSBr proteins is XRCC1, whichfunctions as a molecular scaffold that interacts with, stabilizes, andstimulates multiple enzymatic components of the SSBr process includingthe protein responsible for cleaning the DNA 3′ and 5′ ends. Forinstance, XRCC1 interacts with several proteins (DNA polymerase beta,PNK, and three nucleases, APE1, APTX, and APLF) that promote endprocessing. APE1 has endonuclease activity. APLF exhibits endonucleaseand 3′ to 5′ exonuclease activities. APTX has endonuclease and 3′ to 5′exonuclease activity.

This end processing is an important stage of SSBR since the 3′- and/or5′-termini of most, if not all, SSBs are ‘damaged’. End processinggenerally involves restoring a damaged 3′-end to a hydroxylated stateand and/or a damaged 5′ end to a phosphate moiety, so that the endsbecome ligation-competent. Enzymes that can process damaged 3′ terminiinclude PNKP, APE1, and TDP1. Enzymes that can process damaged 5′termini include PNKP, DNA polymerase beta, and APTX. LIG3 (DNA ligaseIII) can also participate in end processing. Once the ends are cleaned,gap filling can occur.

At the DNA gap filling stage, the proteins typically present are PARP1,DNA polymerase beta, XRCC1, FEN1 (flap endonuclease 1), DNA polymerasedelta/epsilon, PCNA, and LIG1. There are two ways of gap filling, theshort patch repair and the long patch repair. Short patch repairinvolves the insertion of a single nucleotide that is missing. At someSSBs, “gap filling” might continue displacing two or more nucleotides(displacement of up to 12 bases have been reported). FEN1 is anendonuclease that removes the displaced 5′-residues. Multiple DNApolymerases, including Pol β, are involved in the repair of SSBs, withthe choice of DNA polymerase influenced by the source and type of SSB.

In the fourth stage, a DNA ligase such as LIG1 (Ligase I) or LIG3(Ligase III) catalyzes joining of the ends. Short patch repair usesLigase III and long patch repair uses Ligase I.

Sometimes, SSBR is replication-coupled. This pathway can involve one ormore of CtIP, MRN, ERCC1, and FEN1. Additional factors that may promoteSSBR include: aPARP, PARP1, PARP2, PARG, XRCC1, DNA polymerase b, DNApolymerase d, DNA polymerase e, PCNA, LIG1, PNK, PNKP, APE1, APTX, APLF,TDP1, LIG3, FEN1, CtIP, MRN, and ERCC1.

MMR (Mismatch Repair)

Cells contain three excision repair pathways: MMR, BER, and NER. Theexcision repair pathways hace a common feature in that they typicallyrecognize a lesion on one strand of the DNA, then exo/endonucleaseasesremove the lesion and leave a 1-30 nucleotide gap that issub-sequentially filled in by DNA polymerase and finally sealed withligase. A more complete picture is given in Li, Cell Research (2008)18:85-98, and a summary is provided here.

Mismatch repair (MMR) operates on mispaired DNA bases.

The MSH2/6 or MSH2/3 complexes both have ATPases activity that plays animportant role in mismatch recognition and the initiation of repair.MSH2/6 preferentially recognizes base-base mismatches and identifiesmispairs of 1 or 2 nucleotides, while MSH2/3 preferentially recognizeslarger ID mispairs.

hMLH1 heterodimerizes with hPMS2 to form hMutL a which possesses anATPase activity and is important for multiple steps of MMR. It possessesa PCNA/replication factor C (RFC)-dependent endonuclease activity whichplays an important role in 3′ nick-directed MMR involving EXO1. (EXO1 isa participant in both HR and MMR.) It regulates termination ofmismatch-provoked excision. Ligase I is the relevant ligase for thispathway. Additional factors that may promote MMR include: EXO1, MSH2,MSH3, MSH6, MLH1, PMS2, MLH3, DNA Pol d, RPA, HMGB1, RFC, and DNA ligaseI.

Base Excision Repair (BER)

The base excision repair (BER) pathway is active throughout the cellcycle; it is responsible primarily for removing small,non-helix-distorting base lesions from the genome. In contrast, therelated Nucleotide Excision Repair pathway (discussed in the nextsection) repairs bulky helix-distorting lesions. A more detailedexplanation is given in Caldecott, Nature Reviews Genetics 9, 619-631(August 2008), and a summary is given here.

Upon DNA base damage, base excision repair (BER) is initiated and theprocess can be simplified into five major steps: (a) removal of thedamaged DNA base; (b) incision of the subsequent a basic site; (c)clean-up of the DNA ends; (d) insertion of the correct nucleotide intothe repair gap; and (e) ligation of the remaining nick in the DNAbackbone. These last steps are similar to the SSBR.

In the first step, a damage-specific DNA glycosylase excises the damagedbase through cleavage of the N-glycosidic bond linking the base to thesugar phosphate backbone. Then AP endonuclease-1 (APE1) or bifunctionalDNA glycosylases with an associated lyase activity incised thephosphodiester backbone to create a DNA single strand break (SSB). Thethird step of BER involves cleaning-up of the DNA ends. The fourth stepin BER is conducted by Pol R that adds a new complementary nucleotideinto the repair gap and in the final step XRCC1/Ligase III seals theremaining nick in the DNA backbone. This completes the short-patch BERpathway in which the majority (80%) of damaged DNA bases are repaired.However, if the 5′-ends in step 3 are resistant to end processingactivity, following one nucleotide insertion by Pol β there is then apolymerase switch to the replicative DNA polymerases, Pol δ/ε, whichthen add ˜2-8 more nucleotides into the DNA repair gap. This creates a5′-flap structure, which is recognized and excised by flapendonuclease-1 (FEN-1) in association with the processivity factorproliferating cell nuclear antigen (PCNA). DNA ligase I then seals theremaining nick in the DNA backbone and completes long-patch BER.Additional factors that may promote the BER pathway include: DNAglycosylase, APE1, Polb, Pold, Pole, XRCC1, Ligase III, FEN-1, PCNA,RECQL4, WRN, MYH, PNKP, and APTX.

Nucleotide Excision Repair (NER)

Nucleotide excision repair (NER) is an important excision mechanism thatremoves bulky helix-distorting lesions from DNA. Additional detailsabout NER are given in Marteijn et al., Nature Reviews Molecular CellBiology 15, 465-481 (2014), and a summary is given here. NER a broadpathway encompassing two smaller pathways: global genomic NER (GG-NER)and transcription coupled repair NER (TC-NER). GG-NER and TC-NER usedifferent factors for recognizing DNA damage. However, they utilize thesame machinery for lesion incision, repair, and ligation.

Once damage is recognized, the cell removes a short single-stranded DNAsegment that contains the lesion. Endonucleases XPF/ERCC1 and XPG(encoded by ERCC5) remove the lesion by cutting the damaged strand oneither side of the lesion, resulting in a single-strand gap of 22-30nucleotides. Next, the cell performs DNA gap filling synthesis andligation. Involved in this process are: PCNA, RFC, DNA Pol δ, DNA Pol εor DNA Pol κ, and DNA ligase I or XRCC1/Ligase III. Replicating cellstend to use DNA pol ε and DNA ligase I, while non-replicating cells tendto use DNA Pol δ, DNA Pol κ, and the XRCC1/Ligase III complex to performthe ligation step.

NER can involve the following factors: XPA-G, POLH, XPF, ERCC1, XPA-G,and LIG1. Transcription-coupled NER (TC-NER) can involve the followingfactors: CSA, CSB, XPB, XPD, XPG, ERCC1, and TTDA. Additional factorsthat may promote the NER repair pathway include XPA-G, POLH, XPF, ERCC1,XPA-G, LIG1, CSA, CSB, XPA, XPB, XPC, XPD, XPF, XPG, TTDA, UVSSA, USP7,CETN2, RAD23B, UV-DDB, CAK subcomplex, RPA, and PCNA.

Interstrand Crosslink (ICL)

A dedicated pathway called the ICL repair pathway repairs interstrandcrosslinks. Interstrand crosslinks, or covalent crosslinks between basesin different DNA strand, can occur during replication or transcription.ICL repair involves the coordination of multiple repair processes, inparticular, nucleolytic activity, translesion synthesis (TLS), and HDR.Nucleases are recruited to excise the ICL on either side of thecrosslinked bases, while TLS and HDR are coordinated to repair the cutstrands. ICL repair can involve the following factors: endonucleases,e.g., XPF and RAD51C, endonucleases such as RAD51, translesionpolymerases, e.g., DNA polymerase zeta and Rev1), and the Fanconi anemia(FA) proteins, e.g., FancJ.

Other Pathways

Several other DNA repair pathways exist in mammals.

Translesion synthesis (TLS) is a pathway for repairing a single strandedbreak left after a defective replication event and involves translesionpolymerases, e.g., DNA pol□ and Rev1.

Error-free postreplication repair (PRR) is another pathway for repairinga single stranded break left after a defective replication event.

V.5 Targeted Knockdown

Unlike CRISPR/Cas-mediated gene knockout, which permanently eliminatesexpression by mutating the gene at the DNA level, CRISPR/Cas knockdownallows for temporary reduction of gene expression through the use ofartificial transcription factors. Mutating key residues in both DNAcleavage domains of the Cas9 protein (e.g. the D10A and H840A mutations)results in the generation of a catalytically inactive Cas9 (eiCas9 whichis also known as dead Cas9 or dCas9) molecule. A catalytically inactiveCas9 complexes with a gRNA and localizes to the DNA sequence specifiedby that gRNA's targeting domain, however, it does not cleave the targetDNA. Fusion of the dCas9 to an effector domain, e.g., a transcriptionrepression domain, enables recruitment of the effector to any DNA sitespecified by the gRNA. Although an enzymatically inactive (eiCas9) Cas9molecule itself can block transcription when recruited to early regionsin the coding sequence, more robust repression can be achieved by fusinga transcriptional repression domain (for example KRAB, SID or ERD) tothe Cas9 and recruiting it to the target knockdown position, e.g.,within 1000 bp of sequence 3′ of the start codon or within 500 bp of apromoter region 5′ of the start codon of a gene. It is likely thattargeting DNAseI hypersensitive sites (DHSs) of the promoter may yieldmore efficient gene repression or activation because these regions aremore likely to be accessible to the Cas9 protein and are also morelikely to harbor sites for endogenous transcription factors. Especiallyfor gene repression, it is contemplated herein that blocking the bindingsite of an endogenous transcription factor would aid in downregulatinggene expression. In an embodiment, one or more eiCas9 molecules may beused to block binding of one or more endogenous transcription factors.In another embodiment, an eiCas9 molecule can be fused to a chromatinmodifying protein. Altering chromatin status can result in decreasedexpression of the target gene. One or more eiCas9 molecules fused to oneor more chromatin modifying proteins may be used to alter chromatinstatus.

In an embodiment, a gRNA molecule can be targeted to a knowntranscription response elements (e.g., promoters, enhancers, etc.), aknown upstream activating sequences (UAS), and/or sequences of unknownor known function that are suspected of being able to control expressionof the target DNA.

CRISPR/Cas-mediated gene knockdown can be used to reduce expression ofan unwanted allele or transcript. Contemplated herein are scenarioswherein permanent destruction of the gene is not ideal. In thesescenarios, site-specific repression may be used to temporarily reduce oreliminate expression. It is also contemplated herein that the off-targeteffects of a Cas-repressor may be less severe than those of aCas-nuclease as a nuclease can cleave any DNA sequence and causemutations whereas a Cas-repressor may only have an effect if it targetsthe promoter region of an actively transcribed gene. However, whilenuclease-mediated knockout is permanent, repression may only persist aslong as the Cas-repressor is present in the cells. Once the repressor isno longer present, it is likely that endogenous transcription factorsand gene regulatory elements would restore expression to its naturalstate.

V.6 Examples of gRNAs in Genome Editing Methods

gRNA molecules as described herein can be used with Cas9 molecules thatgenerate a double strand break or a single strand break to alter thesequence of a target nucleic acid, e.g., a target position or targetgenetic signature. gRNA molecules useful in these methods are describedbelow.

In an embodiment, the gRNA, e.g., a chimeric gRNA, is configured suchthat it comprises one or more of the following properties;

-   -   a) it can position, e.g., when targeting a Cas9 molecule that        makes double strand breaks, a double strand break (i) within 50,        100, 150 or 200 nucleotides of a target position, or (ii)        sufficiently close that the target position is within the region        of end resection;    -   b) it has a targeting domain of at least 17 nucleotides, e.g., a        targeting domain of (i) 17, (ii) 18, or (iii) 20 nucleotides;        and    -   c)        -   (i) the proximal and tail domain, when taken together,            comprise at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,            50, or 53 nucleotides, e.g., at least 15, 18, 20, 25, 30,            31, 35, 40, 45, 49, 50, or 53 nucleotides from a naturally            occurring S. pyogenes, S. thermophilus, S. aureus, or N.            meningitidis tail and proximal domain, or a sequence that            differs by no more than 1, 2, 3, 4, 5; 6, 7, 8, 9 or 10            nucleotides therefrom;        -   (ii) there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45,            49, 50, or 53 nucleotides 3′ to the last nucleotide of the            second complementarity domain, e.g., at least 15, 18, 20,            25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides from the            corresponding sequence of a naturally occurring S.            pyogenes, S. thermophilus, S. aureus, or N. meningitidis            gRNA, or a sequence that differs by no more than 1, 2, 3, 4,            5; 6, 7, 8, 9 or 10 nucleotides therefrom;        -   (iii) there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46,            50, 51, or 54 nucleotides 3′ to the last nucleotide of the            second complementarity domain that is complementary to its            corresponding nucleotide of the first complementarity            domain, e.g., at least 16, 19, 21, 26, 31, 32, 36, 41, 46,            50, 51, or 54 nucleotides from the corresponding sequence of            a naturally occurring S. pyogenes, S. thermophilus, S.            aureus, or N. meningitidis gRNA, or a sequence that differs            by no more than 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10 nucleotides            therefrom;        -   (iv) the tail domain is at least 10, 15, 20, 25, 30, 35 or            40 nucleotides in length, e.g., it comprises at least 10,            15, 20, 25, 30, 35 or 40 nucleotides from a naturally            occurring S. pyogenes, S. thermophilus, S. aureus, or N.            meningitidis tail domain; or, or a sequence that differs by            no more than 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10 nucleotides            therefrom; or        -   (v) the tail domain comprises 15, 20, 25, 30, 35, 40            nucleotides or all of the corresponding portions of a            naturally occurring tail domain, e.g., a naturally            occurring S. pyogenes, S. thermophilus, S. aureus, or N.            meningitidis tail domain.

In an embodiment, the gRNA is configured such that it comprisesproperties: a and b(i).

In an embodiment, the gRNA is configured such that it comprisesproperties: a and b(ii).

In an embodiment, the gRNA is configured such that it comprisesproperties: a and b(iii).

In an embodiment, the gRNA is configured such that it comprisesproperties: a and c.

In an embodiment, the gRNA is configured such that in comprisesproperties: a, b, and c.

In an embodiment, the gRNA is configured such that in comprisesproperties: a(i), b(i), and c(i).

In an embodiment, the gRNA is configured such that in comprisesproperties: a(i), b(i), and c(ii).

In an embodiment, the gRNA is configured such that in comprisesproperties: a(i), b(iii), and c(i).

In an embodiment, the gRNA is configured such that in comprisesproperties: a(i), b(iii), and c(ii).

In an embodiment, the gRNA, e.g., a chimeric gRNA, is configured suchthat it comprises one or more of the following properties;

-   -   a) it can position, e.g., when targeting a Cas9 molecule that        makes single strand breaks, a single strand break (i) within 50,        100, 150 or 200 nucleotides of a target position, or (ii)        sufficiently close that the target position is within the region        of end resection;    -   b) it has a targeting domain of at least 17 nucleotides, e.g., a        targeting domain of (i) 17, (ii) 18, or (iii) 20 nucleotides;        and    -   c)        -   (i) the proximal and tail domain, when taken together,            comprise at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,            50, or 53 nucleotides, e.g., at least 15, 18, 20, 25, 30,            31, 35, 40, 45, 49, 50, or 53 nucleotides from a naturally            occurring S. pyogenes, S. thermophilus, S. aureus, or N.            meningitidis tail and proximal domain, or a sequence that            differs by no more than 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10            nucleotides therefrom;        -   (ii) there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45,            49, 50, or 53 nucleotides 3′ to the last nucleotide of the            second complementarity domain, e.g., at least 15, 18, 20,            25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides from the            corresponding sequence of a naturally occurring S.            pyogenes, S. thermophilus, S. aureus, or N. meningitidis            gRNA, or a sequence that differs by no more than 1, 2, 3, 4,            5, 6, 7, 8, 9 or 10 nucleotides therefrom;        -   (iii) there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46,            50, 51, or 54 nucleotides 3′ to the last nucleotide of the            second complementarity domain that is complementary to its            corresponding nucleotide of the first complementarity            domain, e.g., at least 16, 19, 21, 26, 31, 32, 36, 41, 46,            50, 51, or 54 nucleotides from the corresponding sequence of            a naturally occurring S. pyogenes, S. thermophilus, S.            aureus, or N. meningitidis gRNA, or a sequence that differs            by no more than 1, 2, 3, 4, 5; 6, 7, 8, 9 or 10 nucleotides            therefrom;        -   (iv) the tail domain is at least 10, 15, 20, 25, 30, 35 or            40 nucleotides in length, e.g., it comprises at least 10,            15, 20, 25, 30, 35 or 40 nucleotides from a naturally            occurring S. pyogenes, S. thermophilus, S. aureus, or N.            meningitidis tail domain; or, a sequence that differs by no            more than 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10 nucleotides            therefrom; or        -   (v) the tail domain comprises 15, 20, 25, 30, 35, 40            nucleotides or all of the corresponding portions of a            naturally occurring tail domain, e.g., a naturally            occurring S. pyogenes, S. thermophilus, S. aureus, or N.            meningitidis tail domain.

In an embodiment, the gRNA is configured such that it comprisesproperties: a and b(i).

In an embodiment, the gRNA is configured such that it comprisesproperties: a and b(ii).

In an embodiment, the gRNA is configured such that it comprisesproperties: a and b(iii).

In an embodiment, the gRNA is configured such that it comprisesproperties: a and c.

In an embodiment, the gRNA is configured such that in comprisesproperties: a, b, and c.

In an embodiment, the gRNA is configured such that in comprisesproperties: a(i), b(i), and c(i).

In an embodiment, the gRNA is configured such that in comprisesproperties: a(i), b(i), and c(ii).

In an embodiment, the gRNA is configured such that in comprisesproperties: a(i), b(iii), and c(i).

In an embodiment, the gRNA is configured such that in comprisesproperties: a(i), b(iii), and c(ii).

In an embodiment, the gRNA is used with a Cas9 nickase molecule havingHNH activity, e.g., a Cas9 molecule having the RuvC activityinactivated, e.g., a Cas9 molecule having a mutation at D10, e.g., theD10A mutation.

In an embodiment, the gRNA is used with a Cas9 nickase molecule havingRuvC activity, e.g., a Cas9 molecule having the HNH activityinactivated, e.g., a Cas9 molecule having a mutation at H840, e.g., aH840A.

In an embodiment, the gRNAs are used with a Cas9 nickase molecule havingRuvC activity, e.g., a Cas9 molecule having the HNH activityinactivated, e.g., a Cas9 molecule having a mutation at N863, e.g., anN863A mutation.

In an embodiment, a pair of gRNAs, e.g., a pair of chimeric gRNAs,comprising a first and a second gRNA, is configured such that theycomprises one or more of the following properties;

-   -   a) one or both of the gRNAs can position, e.g., when targeting a        Cas9 molecule that makes single strand breaks, a single strand        break within (i) 50, 100, 150 or 200 nucleotides of a target        position, or (ii) sufficiently close that the target position is        within the region of end resection;    -   b) one or both have a targeting domain of at least 17        nucleotides, e.g., a targeting domain of (i) 17 or (ii) 18        nucleotides;    -   c) for one or both:        -   (i) the proximal and tail domain, when taken together,            comprise at least 15, 18, 20, 25, 30, 31, 35, 40, 45, 49,            50, or 53 nucleotides, e.g., at least 15, 18, 20, 25, 30,            31, 35, 40, 45, 49, 50, or 53 nucleotides from a naturally            occurring S. pyogenes, S. thermophilus, S. aureus, or N.            meningitidis tail and proximal domain, or a sequence that            differs by no more than 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10            nucleotides therefrom;        -   (ii) there are at least 15, 18, 20, 25, 30, 31, 35, 40, 45,            49, 50, or 53 nucleotides 3′ to the last nucleotide of the            second complementarity domain, e.g., at least 15, 18, 20,            25, 30, 31, 35, 40, 45, 49, 50, or 53 nucleotides from the            corresponding sequence of a naturally occurring S.            pyogenes, S. thermophilus, S. aureus, or N. meningitidis            gRNA, or a sequence that differs by no more than 1, 2, 3, 4,            5, 6, 7, 8, 9 or 10 nucleotides therefrom;        -   (iii) there are at least 16, 19, 21, 26, 31, 32, 36, 41, 46,            50, 51, or 54 nucleotides 3′ to the last nucleotide of the            second complementarity domain that is complementary to its            corresponding nucleotide of the first complementarity            domain, e.g., at least 16, 19, 21, 26, 31, 32, 36, 41, 46,            50, 51, or 54 nucleotides from the corresponding sequence of            a naturally occurring S. pyogenes, S. thermophilus, S.            aureus, or N. meningitidis gRNA, or a sequence that differs            by no more than 1, 2, 3, 4, 5; 6, 7, 8, 9 or 10 nucleotides            therefrom;        -   (iv) the tail domain is at least 10, 15, 20, 25, 30, 35 or            40 nucleotides in length, e.g., it comprises at least 10,            15, 20, 25, 30, 35 or 40 nucleotides from a naturally            occurring S. pyogenes, S. thermophilus, S. aureus, or N.            meningitidis tail domain; or, or a sequence that differs by            no more than 1, 2, 3, 4, 5, 6, 7, 8, 9 or 10 nucleotides            therefrom; or        -   (v) the tail domain comprises 15, 20, 25, 30, 35, 40            nucleotides or all of the corresponding portions of a            naturally occurring tail domain, e.g., a naturally            occurring S. pyogenes, S. thermophilus, S. aureus, or N.            meningitidis tail domain;    -   d) the gRNAs are configured such that, when hybridized to target        nucleic acid, they are separated by 0-50, 0-100, 0-200, at least        10, at least 20, at least 30 or at least 50 nucleotides;    -   e) the breaks made by the first gRNA and second gRNA are on        different strands; and    -   f) the PAMs are facing outwards.

In an embodiment, one or both of the gRNAs is configured such that itcomprises properties: a and b(i).

In an embodiment, one or both of the gRNAs is configured such that itcomprises properties: a and b(ii).

In an embodiment, one or both of the gRNAs is configured such that itcomprises properties: a and b(iii).

In an embodiment, one or both of the gRNAs configured such that itcomprises properties: a and c.

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a, b, and c.

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(i), and c(i).

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(i), and c(ii).

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(i), c, and d.

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(i), c, and e.

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(i), c, d, and e.

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(iii), and c(i).

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(iii), and c(ii).

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(iii), c, and d.

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(iii), c, and e.

In an embodiment, one or both of the gRNAs is configured such that incomprises properties: a(i), b(iii), c, d, and e.

In an embodiment, the gRNAs are used with a Cas9 nickase molecule havingHNH activity, e.g., a Cas9 molecule having the RuvC activityinactivated, e.g., a Cas9 molecule having a mutation at D10, e.g., theD10A mutation.

In an embodiment, the gRNAs are used with a Cas9 nickase molecule havingRuvC activity, e.g., a Cas9 molecule having the HNH activityinactivated, e.g., a Cas9 molecule having a mutation at H840, e.g., aH840A.

In an embodiment, the gRNAs are used with a Cas9 nickase molecule havingRuvC activity, e.g., a Cas9 molecule having the HNH activityinactivated, e.g., a Cas9 molecule having a mutation at N863, e.g., aN863A mutation.

VI. Target Cells

Cas9 molecules, gRNA molecules (e.g., a Cas9 molecule/gRNA moleculecomplex), and donor nucleic acids can be used to manipulate a cell,e.g., to edit a target nucleic acid, in a wide variety of cells.

In an embodiment, a cell is manipulated by editing (e.g., correcting orintroducing a mutation in) the CFTR and/or SCNN1A target genes, e.g., asdescribed herein. In an embodiment, the expression of the CFTR and/orSCNN1A target genes is modulated, e.g., in vivo.

In another embodiment, the expression of the CFTR and/or SCNN1A targetgenes is modulated, e.g., ex vivo.

The Cas9 and gRNA molecules described herein can be delivered to atarget cell. Methods and compositions discussed herein, provide fortreating or delaying the onset or progression of diseases of the lungand airways, including the nose, trachea, bronchus, bronchioles,alveoli, submucosal ducts and submucosal glands. In an embodiment, thetarget cell is an airway cell, e.g., a nasal epithelial cell, e.g., atracheal epithelial cell. In an embodiment, the target cell is a lungepithelial cell, e.g., a bronchial epithelial cell, e.g., a proximalbronchial epithelial cell, e.g., a bronchiolar epithelial cell, e.g., analveolar epithelial cell, e.g., a clara cell, e.g., a ciliated cell,e.g., a goblet cell, e.g., a basal cell, e.g., an acinus cell. Methodsand compositions discussed herein, provide for treating or delaying theonset or progression of diseases of the gastrointestinal tract,including pancreas, bile ducts, gallbladder, small intestine, largeintestine and salivary glands. In an embodiment, the target cell is agastrointestinal epithelial cell. In an embodiment, the target cell is abiliary epithelial cell. In an embodiment, the target cell is apancreatic ductal epithelial cell. In an embodiment, the target cell isa gastrointestinal cell, e.g., an enteroendocrine cell, e.g., aBrunner's gland cell. In an embodiment, the target cell is ahepatobiliary epithelial cell. In an embodiment, the target cell is agallbladder epithelial cell. In an embodiment, the target cell is alarge intestine epithelial cell. In an embodiment, the target cell is asmall intestine epithelial cell. In an embodiment, the target cell is ajejunum epithelial cell. In an embodiment, the target cell is anepithelial cell of the iluem. In an embodiment, the target cell is aduodenum epithelial cell. Methods and compositions discussed herein,provide for treating or delaying the onset or progression of diseases ofthe reproductive tract, including the epididymis. In an embodiment, thetarget cell is a reproductive epithelial cell, e.g. an epididymalepithelial cell. In an embodiment, the target cell is a pulmonary stemcell. In an embodiment, the target cell is a gastrointestinal stem cell.

In an embodiment, the target cell is manipulated ex vivo by editing(e.g., correcting or introducing a mutation in) the CFTR and/or SCNN1Atarget genes and/or modulating the expression of the CFTR and/or SCNN1Atarget genes, and administered to the subject. A suitable cell for suchmanipulation can include a stem cell such as, by way of example, anembryonic stem cell, an induced pluripotent stem cell, a pulmonary stemcell, a gastrointestinal stem cell and a mesenchymal stem cell. In anembodiment, the cell is an induced pluripotent stem cell (iPS) cell or acell derived from an iPS cell, e.g., an iPS cell generated from thesubject, modified to correct or introduce the mutation anddifferentiated into a clinically relevant cell such as a pulmonary stemcell, a gastrointestinal stem cell, a pulmonary epithelial cell, abronchial epithelial cell, a proximal bronchial epithelial cell, abronchiolar epithelial cell, an alveolar epithelial cell, a clara cell,a ciliated cell, a goblet cell, a basal cell, an acinus cell, agastrointestinal epithelial cell, a biliary epithelial cell, apancreatic ductal epithelial cell, a hepatobiliary epithelial cell, anenteroendocrine cell, a Brunner's gland cell, a reproductive epithelialcell, or an epididymal epithelial cell.

VII. Delivery, Formulations and Routes of Administration

The components, e.g., a Cas9 molecule and gRNA molecule (e.g., a Cas9molecule/gRNA molecule complex), and a donor template nucleic acid canbe delivered or formulated in a variety of forms, see, e.g., Tables56-57. In an embodiment, one Cas9 molecule and two or more (e.g., 2, 3,4, or more) different gRNA molecules are delivered, e.g., by an AAVvector. In an embodiment, the sequence encoding the Cas9 molecule andthe sequence(s) encoding the two or more (e.g., 2, 3, 4, or more)different gRNA molecules are present on the same nucleic acid molecule,e.g., an AAV vector. When a Cas9 or gRNA component is encoded as DNA fordelivery, the DNA will typically but not necessarily include a controlregion, e.g., comprising a promoter, to effect expression. Usefulpromoters for Cas9 molecule sequences include CMV, EFS, EF-1a, MSCV,PGK, CAG control promoters. In an embodiment, the promoter is aconstitutive promoter. In another embodiment, the promoter is a tissuespecific promoter. Useful promoters for gRNAs include H1, 7SK, tRNA andU6 promoters. Promoters with similar or dissimilar strengths can beselected to tune the expression of components. Sequences encoding a Cas9molecule can comprise a nuclear localization signal (NLS), e.g., an SV40NLS. In an embodiment, the sequence encoding a Cas9 molecule comprisesat least two nuclear localization signals. In an embodiment a promoterfor a Cas9 molecule or a gRNA molecule can be, independently, inducible,tissue specific, or cell specific.

Table 56 provides examples of how the components can be formulated,delivered, or administered.

TABLE 56 Elements Donor Cas9 gRNA Template Molecule(s) Molecule(s)Nucleic Acid Comments DNA DNA DNA In this embodiment, a Cas9 molecule,typically an eaCas9 molecule, and a gRNA are transcribed from DNA. Inthis embodiment, they are encoded on separate molecules. In thisembodiment, the donor template is provided as a separate DNA molecule.DNA DNA In this embodiment, a Cas9 molecule, typically an eaCas9molecule, and a gRNA are transcribed from DNA. In this embodiment, theyare encoded on separate molecules. In this embodiment, the donortemplate is provided on the same DNA molecule that encodes the gRNA. DNADNA In this embodiment, a Cas9 molecule, typically an eaCas9 molecule,and a gRNA are transcribed from DNA, here from a single molecule. Inthis embodiment, the donor template is provided as a separate DNAmolecule. DNA DNA DNA In this embodiment, a Cas9 molecule, typically aneaCas9 molecule, and a gRNA are transcribed from DNA. In thisembodiment, they are encoded on separate molecules. In this embodiment,the donor template is provided on the same DNA molecule that encodes theCas9. DNA RNA DNA In this embodiment, a Cas9 molecule, typically aneaCas9 molecule, is transcribed from DNA, and a gRNA is provided as invitro transcribed or synthesized RNA. In this embodiment, the donortemplate is provided as a separate DNA molecule. DNA RNA DNA In thisembodiment, a Cas9 molecule, typically an eaCas9 molecule, istranscribed from DNA, and a gRNA is provided as in vitro transcribed orsynthesized RNA. In this embodiment, the donor template is provided onthe same DNA molecule that encodes the Cas9. mRNA RNA DNA In thisembodiment, a Cas9 molecule, typically an eaCas9 molecule, is translatedfrom in vitro transcribed mRNA, and a gRNA is provided as in vitrotranscribed or synthesized RNA. In this embodiment, the donor templateis provided as a DNA molecule. mRNA DNA DNA In this embodiment, a Cas9molecule, typically an eaCas9 molecule, is translated from in vitrotranscribed mRNA, and a gRNA is transcribed from DNA. In thisembodiment, the donor template is provided as a separate DNA molecule.mRNA DNA In this embodiment, a Cas9 molecule, typically an eaCas9molecule, is translated from in vitro transcribed mRNA, and a gRNA istranscribed from DNA. In this embodiment, the donor template is providedon the same DNA molecule that encodes the gRNA. Protein DNA DNA In thisembodiment, a Cas9 molecule, typically an eaCas9 molecule, is providedas a protein, and a gRNA is transcribed from DNA. In this embodiment,the donor template is provided as a separate DNA molecule. Protein DNAIn this embodiment, a Cas9 molecule, typically an eaCas9 molecule, isprovided as a protein, and a gRNA is transcribed from DNA. In thisembodiment, the donor template is provided on the same DNA molecule thatencodes the gRNA. Protein RNA DNA In this embodiment, an eaCas9 moleculeis provided as a protein, and a gRNA is provided as transcribed orsynthesized RNA. In this embodiment, the donor template is provided as aDNA molecule.

Table 57 summarizes various delivery methods for the components of a Cassystem, e.g., the Cas9 molecule component and the gRNA moleculecomponent, as described herein.

TABLE 57 Delivery into Non- Duration Type of Delivery Dividing of GenomeMolecule Vector/Mode Cells Expression Integration Delivered Physical(eg, YES Transient NO Nucleic electroporation, Acids particle gun,Calcium and Phosphate transfection, Proteins cell compression orsqueezing)) Viral Retrovirus NO Stable YES RNA Lentivirus YES StableYES/NO with RNA modifications Adenovirus YES Transient NO DNA Adeno- YESStable NO DNA Associated Virus (AAV) Vaccinia YES Very NO DNA VirusTransient Herpes YES Stable NO DNA Simplex Virus Non-Viral Cationic YESTransient Depends on Nucleic Liposomes what is Acids delivered andProteins Polymeric YES Transient Depends on Nucleic Nanoparticles whatis Acids delivered and Proteins Biological Attenuated YES Transient NONucleic Non-Viral Bacteria Acids Delivery Engineered YES Transient NONucleic Vehicles Bacterio- Acids phages Mammalian YES Transient NONucleic Virus-like Acids Particles Biological YES Transient NO Nucleicliposomes: Acids Erythrocyte Ghosts and ExosomesDNA-Based Delivery of a Cas9 Molecule and/or One or More gRNA Molecule

Nucleic acids encoding Cas9 molecules (e.g., eaCas9 molecules), gRNAmolecules, a donor template nucleic acid, or a combination thereof, canbe administered to subjects or delivered into cells by art-known methodsor as described herein. For example, Cas9-encoding and/or gRNA-encodingDNA, as well as donor nucleic acids can be delivered, e.g., by vectors(e.g., viral or non-viral vectors), non-vector based methods (e.g.,using naked DNA or DNA complexes), or a combination thereof.

DNA encoding Cas9 molecules (e.g., eaCas9 molecules) and/or gRNAmolecules, as well as template nucleic acids, can be conjugated tomolecules (e.g., N-acetylgalactosamine), thereby promoting uptake by thetarget cells (e.g., the target cells described herein).

In some embodiments, the Cas9- and/or gRNA-encoding DNA is delivered bya vector (e.g., viral vector/virus or plasmid). In some embodiments thedonor nucleic acid is delivered by a vector (e.g., a viral vector/virusor plasmid).

A vector can comprise a sequence that encodes a Cas9 molecule and/or agRNA molecule. A vector can comprise a donor nucleic acid. A vector canalso comprise a sequence encoding a signal peptide (e.g., for nuclearlocalization, nucleolar localization, mitochondrial localization),fused, e.g., to a Cas9 molecule sequence. For example, ae vector cancomprise a nuclear localization sequence (e.g., from SV40) fused to thesequence encoding the Cas9 molecule.

One or more regulatory/control elements, e.g., a promoter, an enhancer,an intron, a polyadenylation signal, a Kozak consensus sequence,internal ribosome entry sites (IRES), a 2A sequence, and splice acceptoror donor can be included in the vectors. In some embodiments, thepromoter is recognized by RNA polymerase II (e.g., a CMV promoter). Inother embodiments, the promoter is recognized by RNA polymerase III(e.g., a U6 promoter). In some embodiments, the promoter is a regulatedpromoter (e.g., inducible promoter). In other embodiments, the promoteris a constitutive promoter. In some embodiments, the promoter is atissue specific promoter. In some embodiments, the promoter is a viralpromoter. In other embodiments, the promoter is a non-viral promoter.

In some embodiments, the vector or delivery vehicle is a viral vector(e.g., for generation of recombinant viruses). In some embodiments, thevirus is a DNA virus (e.g., dsDNA or ssDNA virus). In other embodiments,the virus is an RNA virus (e.g., an ssRNA virus). Exemplary viralvectors/viruses include, e.g., retroviruses, lentiviruses, adenovirus,adeno-associated virus (AAV), vaccinia viruses, poxviruses, and herpessimplex viruses.

In some embodiments, the virus infects dividing cells. In otherembodiments, the virus infects non-dividing cells. In some embodiments,the virus infects both dividing and non-dividing cells. In someembodiments, the virus can integrate into the host genome. In someembodiments, the virus is engineered to have reduced immunity, e.g., inhuman. In some embodiments, the virus is replication-competent. In otherembodiments, the virus is replication-defective, e.g., having one ormore coding regions for the genes necessary for additional rounds ofvirion replication and/or packaging replaced with other genes ordeleted. In some embodiments, the virus causes transient expression ofthe Cas9 molecule and/or the gRNA molecule. In other embodiments, thevirus causes long-lasting, e.g., at least 1 week, 2 weeks, 1 month, 2months, 3 months, 6 months, 9 months, 1 year, 2 years, or permanentexpression, of the Cas9 molecule and/or the gRNA molecule. The packagingcapacity of the viruses may vary, e.g., from at least about 4 kb to atleast about 30 kb, e.g., at least about 5 kb, 10 kb, 15 kb, 20 kb, 25kb, 30 kb, 35 kb, 40 kb, 45 kb, or 50 kb.

In an embodiment, the viral vector recognizes a specific cell type ortissue. For example, the viral vector can be pseudotyped with adifferent/alternative viral envelope glycoprotein; engineered with acell type-specific receptor (e.g., genetic modification(s) of one ormore viral envelope glycoproteins to incorporate a targeting ligand suchas a peptide ligand, a single chain antibody, or a growth factor);and/or engineered to have a molecular bridge with dual specificitieswith one end recognizing a viral glycoprotein and the other endrecognizing a moiety of the target cell surface (e.g., aligand-receptor, monoclonal antibody, avidin-biotin and chemicalconjugation).

Exemplary viral vectors/viruses include, e.g., retroviruses,lentiviruses, adenovirus, adeno-associated virus (AAV), vacciniaviruses, poxviruses, and herpes simplex viruses.

In some embodiments, the Cas9- and/or gRNA-encoding sequence isdelivered by a recombinant retrovirus. In some embodiments, the donornucleic acid is delivered by a recombinant retrovirus. In someembodiments, the retrovirus (e.g., Moloney murine leukemia virus)comprises a reverse transcriptase, e.g., that allows integration intothe host genome. In some embodiments, the retrovirus isreplication-competent. In other embodiments, the retrovirus isreplication-defective, e.g., having one of more coding regions for thegenes necessary for additional rounds of virion replication andpackaging replaced with other genes, or deleted.

In some embodiments, the Cas9- and/or gRNA-encoding sequence isdelivered by a recombinant lentivirus. In some embodiments, the donornucleic acid is delivered by a recombinant lentivirus. For example, thelentivirus is replication-defective, e.g., does not comprise one or moregenes required for viral replication.

In some embodiments, the Cas9- and/or gRNA-encoding sequence isdelivered by a recombinant adenovirus. In some embodiments, the donornucleic acid is delivered by a recombinant adenoviru. In someembodiments, the adenovirus is engineered to have reduced immunity inhuman.

In some embodiments, the Cas9- and/or gRNA-encoding DNA is delivered bya recombinant AAV. In some embodiments, the AAV does not incorporate itsgenome into that of a host cell, e.g., a target cell as describe herein.In some embodiments, the AAV can incorporate at least part of its genomeinto that of a host cell, e.g., a target cell as described herein. Insome embodiments, the AAV is a self-complementary adeno-associated virus(scAAV), e.g., a scAAV that packages both strands which anneal togetherto form double stranded DNA. AAV serotypes that may be used in thedisclosed methods, include AAV1, AAV2, modified AAV2 (e.g.,modifications at Y444F, Y500F, Y730F and/or S662V), AAV3, modified AAV3(e.g., modifications at Y705F, Y731F and/or T492V), AAV4, AAV5, AAV6,modified AAV6 (e.g., modifications at S663V and/or T492V), AAV8, AAV8.2, AAV9, AAV rh 10, and pseudotyped AAV, such as AAV2/8, AAV2/5 andAAV2/6 can also be used in the disclosed methods. In an embodiment, anAAV capsid that can be used in the methods described herein is a capsidsequence from serotype AAV1, AAV2, AAV3, AAV4, AAV5, AAV6, AAV7, AAV8,AAV9, AAV.rh8, AAV.rh10, AAV.rh32/33, AAV.rh43, AAV.rh64R1, or AAV7m8.

In an embodiment, the Cas9- and/or gRNA-encoding DNA is delivered in are-engineered AAV capsid, e.g., with 50% or greater, e.g., 60% orgreater, 70% or greater, 80% or greater, 90% or greater, or 95% orgreater, sequence homology with a capsid sequence from serotypes AAV1,AAV2, AAV3, AAV4, AAV5, AAV6, AAV7, AAV8, AAV9, AAV.rh8, AAV.rh10,AAV.rh32/33, AAV.rh43, or AAV.rh64R1.

In an embodiment, the Cas9- and/or gRNA-encoding DNA is delivered by achimeric AAV capsid. In an embodiment, the donor nucleic acid isdelivered by a chimeric AAV capsid. Exemplary chimeric AAV capsidsinclude, but are not limited to, AAV9i1, AAV2i8, AAV-DJ, AAV2G9,AAV2i8G9, or AAV8G9.

In an embodiment, the AAV is a self-complementary adeno-associated virus(scAAV), e.g., a scAAV that packages both strands which anneal togetherto form double stranded DNA.

In some embodiments, the Cas9- and/or gRNA-encoding DNA is delivered bya hybrid virus, e.g., a hybrid of one or more of the viruses describedherein. In an embodiment, the hybrid virus is hybrid of an AAV (e.g., ofany AAV serotype), with a Bocavirus, B19 virus, porcine AAV, goose AAV,feline AAV, canine AAV, or MVM.

A Packaging cell is used to form a virus particle that is capable ofinfecting a target cell. Such a cell includes a 293 cell, which canpackage adenovirus, and a W2 cell or a PA317 cell, which can packageretrovirus. A viral vector used in gene therapy is usually generated bya producer cell line that packages a nucleic acid vector into a viralparticle. The vector typically contains the minimal viral sequencesrequired for packaging and subsequent integration into a host or targetcell (if applicable), with other viral sequences being replaced by anexpression cassette encoding the protein to be expressed, eg. Cas9. Forexample, an AAV vector used in gene therapy typically only possessesinverted terminal repeat (ITR) sequences from the AAV genome which arerequired for packaging and gene expression in the host or target cell.The missing viral functions can be supplied in trans by the packagingcell line and/or plasmid containing E2A, E4, and VA genes fromadenovirus, and plasmid encoding Rep and Cap genes from AAV, asdescribed in “Triple Transfection Protocol.” Henceforth, the viral DNAis packaged in a cell line, which contains a helper plasmid encoding theother AAV genes, namely rep and cap, but lacking ITR sequences. Inembodiment, the viral DNA is packaged in a producer cell line, whichcontains E1A and/or E1B genes from adenovirus. The cell line is alsoinfected with adenovirus as a helper. The helper virus (e.g., adenovirusor HSV) or helper plasmid promotes replication of the AAV vector andexpression of AAV genes from the helper plasmid with ITRs. The helperplasmid is not packaged in significant amounts due to a lack of ITRsequences. Contamination with adenovirus can be reduced by, e.g., heattreatment to which adenovirus is more sensitive than AAV.

In an embodiment, the viral vector has the ability of cell type and/ortissue type recognition. For example, the viral vector can bepseudotyped with a different/alternative viral envelope glycoprotein;engineered with a cell type-specific receptor (e.g., geneticmodification of the viral envelope glycoproteins to incorporatetargeting ligands such as a peptide ligand, a single chain antibodie, agrowth factor); and/or engineered to have a molecular bridge with dualspecificities with one end recognizing a viral glycoprotein and theother end recognizing a moiety of the target cell surface (e.g.,ligand-receptor, monoclonal antibody, avidin-biotin and chemicalconjugation).

In an embodiment, the viral vector achieves cell type specificexpression. For example, a tissue-specific promoter can be constructedto restrict expression of the transgene (Cas 9 and gRNA) in only thetarget cell. The specificity of the vector can also be mediated bymicroRNA-dependent control of transgene expression. In an embodiment,the viral vector has increased efficiency of fusion of the viral vectorand a target cell membrane. For example, a fusion protein such asfusion-competent hemagglutin (HA) can be incorporated to increase viraluptake into cells. In an embodiment, the viral vector has the ability ofnuclear localization. For example, aviruse that requires the breakdownof the nuclear envelope (during cell division) and therefore will notinfect a non-diving cell can be altered to incorporate a nuclearlocalization peptide in the matrix protein of the virus thereby enablingthe transduction of non-proliferating cells.

In some embodiments, the Cas9- and/or gRNA-encoding DNA is delivered bya non-vector based method (e.g., using naked DNA or DNA complexes). Forexample, the DNA can be delivered, e.g., by organically modified silicaor silicate (Ormosil), electroporation, transient cell compression orsqueezing (e.g., as described in Lee, et al [2012] Nano Lett 12:6322-27), gene gun, sonoporation, magnetofection, lipid-mediatedtransfection, dendrimers, inorganic nanoparticles, calcium phosphates,or a combination thereof.

In an embodiment, delivery via electroporation comprises mixing thecells with the Cas9- and/or gRNA-encoding DNA in a cartridge, chamber orcuvette and applying one or more electrical impulses of defined durationand amplitude. In an embodiment, delivery via electroporation isperformed using a system in which cells are mixed with the Cas9- and/orgRNA-encoding DNA in a vessel connected to a device (eg, a pump) whichfeeds the mixture into a cartridge, chamber or cuvette wherein one ormore electrical impulses of defined duration and amplitude are applied,after which the cells are delivered to a second vessel.

In some embodiments, the Cas9- and/or gRNA-encoding DNA is delivered bya combination of a vector and a non-vector based method. In someembodiments, the donor nucleic acid is delivered by a combination of avector and a non-vector based method. For example, a virosome comprisesa liposome combined with an inactivated virus (e.g., HIV or influenzavirus), which can result in more efficient gene transfer, e.g., in arespiratory epithelial cell than either a viral or a liposomal methodalone.

In an embodiment, the delivery vehicle is a non-viral vector. In anembodiment, the non-viral vector is an inorganic nanoparticle. Exemplaryinorganic nanoparticles include, e.g., magnetic nanoparticles (e.g.,Fe₃MnO₂) or silica. The outer surface of the nanoparticle can beconjugated with a positively charged polymer (e.g., polyethylenimine,polylysine, polyserine) which allows for attachment (e.g., conjugationor entrapment) of payload. In an embodiment, the non-viral vector is anorganic nanoparticle. Exemplary organic nanoparticles include, e.g.,SNALP liposomes (e.g., SNALP liposomes that contain cationic lipidstogether with neutral helper lipids and polyethylene glycol(PEG)-conjugated lipids) and protamine-nucleic acid complexes, e.g.,protamine-nucleic acid complexes coated with lipid coating.

Exemplary lipids for gene transfer are shown below in Table 58.

TABLE 58 Lipids Used for Gene Transfer Lipid Abbreviation Feature1,2-Dioleoyl-sn-glycero-3-phosphatidylcholine DOPC Helper1,2-Dioleoyl-sn-glycero-3-phosphatidyl- DOPE Helper ethanolamineCholesterol Helper N-[1-(2,3-Dioleyloxy)proph- DOTMA Cationicyl]N,N,N-trimethylammonium chloride 1,2-Dioleoyloxy-3-trimethyl- DOTAPCationic ammonium-propane Dioctadecylamidoglycylspermine DOGS CationicN-(3-Aminopropyl)-N,N-dimeth- GAP-DLRIE Cationicyl-2,3-bis(dodecyloxy)-1-prop- anaminium bromide Cetyltrimethylammoniumbromide CTAB Cationic 6-Lauroxyhexyl ornithinate LHON Cationic1-(2,3-Dioleoyloxyprop- 2Oc Cationic yl)-2,4,6-trimethylpyridinium2,3-Dioleyloxy-N-[2(sperminecarbox- DOSPA Cationicamido-ethyl]-N,N-dimethyl-1-prop- anaminium trifluoroacetate1,2-Dioleyl-3-trimethylammonium-propane DOPA CationicN-(2-Hydroxyethyl)-N,N-dimeth- MDRIE Cationicyl-2,3-bis(tetradecyloxy)-1-prop- anaminium bromide Dimyristooxypropyldimethyl DMRI Cationic hydroxyethyl ammonium bromide3β-[N-(N′,N′-Dimethylaminoeth- DC-Chol Cationicane)-carbamoyl]cholesterol Bis-guanidium-tren-cholesterol BGTC Cationic1,3-Diodeoxy-2-(6-carboxy-sperm- DOSPER Cationic yl)-propylamideDimethyloctadecylammonium bromide DDAB CationicDioctadecylamidoglicylspermidin DSL Cationicrac-[(2,3-Dioctadecyloxypropyl)(2-hydroxy- CLIP-1 Cationicethyl)]dimethylammonium chloride rac-[2(2,3-Dihexadecyloxypropyl- CLIP-6Cationic oxymethyloxy)ethyl]trimethyl- ammonium bromideEthyldimyristoylphosphatidylcholine EDMPC Cationic1,2-Distearyloxy-N,N-dimeth- DSDMA Cationic yl-3-aminopropane1,2-Dimyristoyl-trimethyl- DMTAP Cationic ammonium propaneO,O′-Dimyristyl-N-lysyl aspartate DMKE Cationic1,2-Distearoyl-sn-glycero-3-ethyl- DSEPC Cationic phosphocholineN-Palmitoyl D-erythro-sphingosyl CCS Cationic carbamoyl-spermineN-t-Butyl-N0-tetradecyl-3-tetradecyl- diC14-amidine Cationicaminopropionamidine Octadecenolyoxy[ethyl-2-heptadecen- DOTIM Cationicyl-3 hydroxyethyl] imidazolinium chloride N1-Cholesteryloxycarbon- CDANCationic yl-3,7-diazanonane-1,9-diamine2-(3-[Bis(3-amino-propyl)-amino]propyl- RPR209120 Cationicamino)-N-ditetradecyl- carbamoylme-ethyl-acetamide1,2-dilinoleyloxy-3-dimethylaminopropane DLinDMA Cationic2,2-dilinoleyl-4-dimethylaminoeth- DLin-KC2- Cationic yl-[1,3]-dioxolaneDMA dilinoleyl-methyl-4-dimethyl- DLin-MC3- Cationic aminobutyrate DMA

Exemplary polymers for gene transfer are shown below in Table 59.

TABLE 59 Polymers Used for Gene Transfer Polymer AbbreviationPoly(ethylene)glycol PEG Polyethylenimine PEIDithiobis(succinimidylpropionate) DSPDimethyl-3,3′-dithiobispropionimidate DTBP Poly(ethylene imine)biscarbamate PEIC Poly(L-lysine) PLL Histidine modified PLLPoly(N-vinylpyrrolidone) PVP Poly(propylenimine) PPI Poly(amidoamine)PAMAM Poly(amido ethylenimine) SS-PAEI Triethylenetetramine TETAPoly(β-aminoester) Poly(4-hydroxy-L-proline ester) PHP Poly(allylamine)Poly(α[4-aminobutyl]-L-glycolic acid) PAGA Poly(D,L-lactic-co-glycolicacid) PLGA Poly(N-ethyl-4-vinylpyridinium bromide) Poly(phosphazene)sPPZ Poly(phosphoester)s PPE Poly(phosphoramidate)s PPAPoly(N-2-hydroxypropylmethacrylamide) pHPMA Poly(2-(dimethylamino)ethylmethacrylate) pDMAEMA Poly(2-aminoethyl propylene phosphate) PPE-EAChitosan Galactosylated chitosan N-Dodacylated chitosan Histone CollagenDextran-spermine D-SPM

In an embodiment, the vehicle has targeting modifications to increasetarget cell update of nanoparticles and liposomes, e.g., cell specificantigens, monoclonal antibodies, single chain antibodies, aptamers,polymers, sugars, and cell penetrating peptides. In an embodiment, thevehicle uses fusogenic and endosome-destabilizing peptides/polymers. Inan embodiment, the vehicle undergoes acid-triggered conformationalchanges (e.g., to accelerate endosomal escape of the cargo). In anembodiment, a stimuli-cleavable polymer is used, e.g., for release in acellular compartment. For example, disulfide-based cationic polymersthat are cleaved in the reducing cellular environment can be used.

In an embodiment, the delivery vehicle is a biological non-viraldelivery vehicle. In an embodiment, the vehicle is an attenuatedbacterium (e.g., naturally or artificially engineered to be invasive butattenuated to prevent pathogenesis and expressing the transgene (e.g.,Listeria monocytogenes, certain Salmonella strains, Bifidobacteriumlongum, and modified Escherichia coli), bacteria having nutritional andtissue-specific tropism to target specific tissues, bacteria havingmodified surface proteins to alter target tissue specificity). In anembodiment, the vehicle is a genetically modified bacteriophage (e.g.,engineered phages having large packaging capacity, less immunogenic,containing mammalian plasmid maintenance sequences and havingincorporated targeting ligands). In an embodiment, the vehicle is amammalian virus-like particle. For example, modified viral particles canbe generated (e.g., by purification of the “empty” particles followed byex vivo assembly of the virus with the desired cargo). The vehicle canalso be engineered to incorporate targeting ligands to alter targettissue specificity. In an embodiment, the vehicle is a biologicalliposome. For example, the biological liposome is a phospholipid-basedparticle derived from human cells (e.g., erythrocyte ghosts, which arered blood cells broken down into spherical structures derived from thesubject (e.g., tissue targeting can be achieved by attachment of varioustissue or cell-specific ligands), or secretory exosomes—subject (i.e.,patient) derived membrane-bound nanovesicle (30-100 nm) of endocyticorigin (e.g., can be produced from various cell types and can thereforebe taken up by cells without the need of for targeting ligands).

In an embodiment, the delivery vehicle is a powder comprising, e.g.,calcium carbonate, sucrose, mannitol, dextrose, or lactose.

In an embodiment, components are delivered as an aerosol.

In an embodiment, one or more nucleic acid molecules (e.g., DNAmolecules) other than the components of a Cas system, e.g., the Cas9molecule component and/or the gRNA molecule component described herein,are delivered. In an embodiment, the nucleic acid molecule is deliveredat the same time as one or more of the components of the Cas system aredelivered. In an embodiment, the nucleic acid molecule is deliveredbefore or after (e.g., less than about 30 minutes, 1 hour, 2 hours, 3hours, 6 hours, 9 hours, 12 hours, 1 day, 2 days, 3 days, 1 week, 2weeks, or 4 weeks) one or more of the components of the Cas system aredelivered. In an embodiment, the nucleic acid molecule is delivered by adifferent means than one or more of the components of the Cas system,e.g., the Cas9 molecule component and/or the gRNA molecule component,are delivered. The nucleic acid molecule can be delivered by any of thedelivery methods described herein. For example, the nucleic acidmolecule can be delivered by a viral vector, e.g., anintegration-deficient lentivirus, and the Cas9 molecule component and/orthe gRNA molecule component can be delivered by electroporation, e.g.,such that the toxicity caused by nucleic acids (e.g., DNAs) can bereduced. In an embodiment, the nucleic acid molecule encodes atherapeutic protein, e.g., a protein described herein. In an embodiment,the nucleic acid molecule encodes an RNA molecule, e.g., an RNA moleculedescribed herein.

Delivery of RNA Encoding a Cas9 Molecule

RNA encoding Cas9 molecules (e.g., eaCas9 molecules or eiCas9 molecules)and/or gRNA molecules, can be delivered into cells, e.g., target cellsdescribed herein, by art-known methods or as described herein. Forexample, Cas9-encoding and/or gRNA-encoding RNA can be delivered, e.g.,by microinjection, electroporation, transient cell compression orsqueezing (e.g., as described in Lee, et al [2012] Nano Lett 12:6322-27), lipid-mediated transfection, lipid-mediated transfection,peptide-mediated delivery, or a combination thereof. Cas9-encodingand/or gRNA-encoding RNA can be conjugated to molecules promoting uptakeby the target cells (e.g., target cells described herein).

In an embodiment, delivery via electroporation comprises mixing thecells with the RNA encoding Cas9 molecules (e.g., eaCas9 molecules,eiCas9 molecules or eiCas9 fusion proteins) and/or gRNA molecules, withor without donor nucleic acid molecules in a cartridge, chamber orcuvette and applying one or more electrical impulses of defined durationand amplitude. In an embodiment, delivery via electroporation isperformed using a system in which cells are mixed with the RNA encodingCas9 molecules (e.g., eaCas9 molecules, eiCas9 molecules or eiCas9fusion proteins) and/or gRNA molecules, with or without donor nucleicacid molecules in a vessel connected to a device (eg, a pump) whichfeeds the mixture into a cartridge, chamber or cuvette wherein one ormore electrical impulses of defined duration and amplitude are applied,after which the cells are delivered to a second vessel.

Delivery Cas9 Molecule Protein

Cas9 molecules (e.g., eaCas9 molecules or eiCas9 molecules) can bedelivered into cells by art-known methods or as described herein. Forexample, Cas9 protein molecules can be delivered, e.g., bymicroinjection, electroporation, lipid-mediated transfection,peptide-mediated delivery, or a combination thereof. Delivery can beaccompanied by DNA encoding a gRNA or by a gRNA. Cas9 protein can beconjugated to molecules promoting uptake by the target cells (e.g.,target cells described herein).

In an embodiment, delivery via electroporation comprises mixing thecells with the Cas9 molecules (e.g., eaCas9 molecules, eiCas9 moleculesor eiCas9 fusion proteins) and/or gRNA molecules, with or without donornucleic acid, in a cartridge, chamber or cuvette and applying one ormore electrical impulses of defined duration and amplitude. In anembodiment, delivery via electroporation is performed using a system inwhich cells are mixed with the Cas9 molecules (e.g., eaCas9 molecules,eiCas9 molecules or eiCas9 fusion proteins) and/or gRNA molecules, withor without donor nucleic acid in a vessel connected to a device (eg, apump) which feeds the mixture into a cartridge, chamber or cuvettewherein one or more electrical impulses of defined duration andamplitude are applied, after which the cells are delivered to a secondvessel.

Route of Administration

Systemic modes of administration include oral and parenteral routes.Parenteral routes include, by way of example, intravenous,intra-arterial, intraosseous, intramuscular, intradermal, subcutaneousand intraperitoneal routes. Components administered systemically may bemodified or formulated to target the components to specific cells, e.g.,airway epithelial cells, pulmonary epithelial cells, gastrointestinalepithelial cells, biliary epithelial cells, pancreatic ductal epithelialcells, reproductive epithelial cells or pulmonary stem cells.

Local modes of administration include, by way of example, inhalation,intra-nasal instillation, and intraparenchymal injection, e.g.,intraparenchymal injection into the lung, bronchial tree, liver,pancreas, pancreatic duct, bile duct, gastrointestinal tract orreproductive tract. In an embodiment, significantly smaller amounts ofthe components (compared with systemic approaches) may exert an effectwhen administered locally (for example, by inhalation) compared to whenadministered systemically (for example, intravenously). Local modes ofadministration can reduce or eliminate the incidence of potentiallytoxic side effects that may occur when therapeutically effective amountsof a component are administered systemically.

In an embodiment, components described herein are delivered byinhalation.

In an embodiment, nanoparticle or viral, e.g., AAV vector, delivery isvia inhalation.

In an embodiment, subjects are treated with mucus loosening agentsand/or chest physical therapy prior to administration of components byinhalation.

Administration may be provided as a periodic bolus or as continuousinfusion from an internal reservoir or from an external reservoir (forexample, from an intravenous bag). Components may be administeredlocally, for example, by continuous release from a sustained releasedrug delivery device.

In addition, components may be formulated to permit release over aprolonged period of time. A release system can include a matrix of abiodegradable material or a material which releases the incorporatedcomponents by diffusion. The components can be homogeneously orheterogeneously distributed within the release system. A variety ofrelease systems may be useful, however, the choice of the appropriatesystem will depend upon rate of release required by a particularapplication. Both non-degradable and degradable release systems can beused. Suitable release systems include polymers and polymeric matrices,non-polymeric matrices, or inorganic and organic excipients and diluentssuch as, but not limited to, calcium carbonate and sugar (for example,trehalose). Release systems may be natural or synthetic. However,synthetic release systems are preferred because generally they are morereliable, more reproducible and produce more defined release profiles.The release system material can be selected so that components havingdifferent molecular weights are released by diffusion through ordegradation of the material.

Representative synthetic, biodegradable polymers include, for example:polyamides such as poly(amino acids) and poly(peptides); polyesters suchas poly(lactic acid), poly(glycolic acid), poly(lactic-co-glycolicacid), and poly(caprolactone); poly(anhydrides); polyorthoesters;polycarbonates; and chemical derivatives thereof (substitutions,additions of chemical groups, for example, alkyl, alkylene,hydroxylations, oxidations, and other modifications routinely made bythose skilled in the art), copolymers and mixtures thereof.Representative synthetic, non-degradable polymers include, for example:polyethers such as poly(ethylene oxide), poly(ethylene glycol), andpoly(tetramethylene oxide); vinyl polymers-polyacrylates andpolymethacrylates such as methyl, ethyl, other alkyl, hydroxyethylmethacrylate, acrylic and methacrylic acids, and others such aspoly(vinyl alcohol), poly(vinyl pyrolidone), and poly(vinyl acetate);poly(urethanes); cellulose and its derivatives such as alkyl,hydroxyalkyl, ethers, esters, nitrocellulose, and various celluloseacetates; polysiloxanes; and any chemical derivatives thereof(substitutions, additions of chemical groups, for example, alkyl,alkylene, hydroxylations, oxidations, and other modifications routinelymade by those skilled in the art), copolymers and mixtures thereof.

Poly(lactide-co-glycolide) microsphere can also be used for injection.Typically the microspheres are composed of a polymer of lactic acid andglycolic acid, which are structured to form hollow spheres. The spherescan be approximately 15-30 microns in diameter and can be loaded withcomponents described herein.

Bi-Modal or Differential Delivery of Components

Separate delivery of the components of a Cas system, e.g., the Cas9molecule component and the gRNA molecule component, and moreparticularly, delivery of the components by differing modes, can enhanceperformance, e.g., by improving tissue specificity and safety.

In an embodiment, the Cas9 molecule and the gRNA molecule are deliveredby different modes, or as sometimes referred to herein as differentialmodes. Different or differential modes, as used herein, refer modes ofdelivery that confer different pharmacodynamic or pharmacokineticproperties on the subject component molecule, e.g., a Cas9 molecule,gRNA molecule, or template nucleic acid. For example, the modes ofdelivery can result in different tissue distribution, differenthalf-life, or different temporal distribution, e.g., in a selectedcompartment, tissue, or organ.

Some modes of delivery, e.g., delivery by a nucleic acid vector thatpersists in a cell, or in progeny of a cell, e.g., by autonomousreplication or insertion into cellular nucleic acid, result in morepersistent expression of and presence of a component. Examples includeviral, e.g., adeno-associated virus or lentivirus, delivery.

By way of example, the components, e.g., a Cas9 molecule and a gRNAmolecule, can be delivered by modes that differ in terms of resultinghalf-life or persistent of the delivered component the body, or in aparticular compartment, tissue or organ. In an embodiment, a gRNAmolecule can be delivered by such modes. The Cas9 molecule component canbe delivered by a mode which results in less persistence or lessexposure to the body or a particular compartment or tissue or organ.

More generally, in an embodiment, a first mode of delivery is used todeliver a first component and a second mode of delivery is used todeliver a second component. The first mode of delivery confers a firstpharmacodynamic or pharmacokinetic property. The first pharmacodynamicproperty can be, e.g., distribution, persistence, or exposure, of thecomponent, or of a nucleic acid that encodes the component, in the body,a compartment, tissue or organ. The second mode of delivery confers asecond pharmacodynamic or pharmacokinetic property. The secondpharmacodynamic property can be, e.g., distribution, persistence, orexposure, of the component, or of a nucleic acid that encodes thecomponent, in the body, a compartment, tissue or organ.

In an embodiment, the first pharmacodynamic or pharmacokinetic property,e.g., distribution, persistence or exposure, is more limited than thesecond pharmacodynamic or pharmacokinetic property.

In an embodiment, the first mode of delivery is selected to optimize,e.g., minimize, a pharmacodynamic or pharmacokinetic property, e.g.,distribution, persistence or exposure.

In an embodiment, the second mode of delivery is selected to optimize,e.g., maximize, a pharmacodynamic or pharmcokinetic property, e.g.,distribution, persistence or exposure.

In an embodiment, the first mode of delivery comprises the use of arelatively persistent element, e.g., a nucleic acid, e.g., a plasmid orviral vector, e.g., an AAV or lentivirus. As such vectors are relativelypersistent product transcribed from them would be relatively persistent.

In an embodiment, the second mode of delivery comprises a relativelytransient element, e.g., an RNA or protein.

In an embodiment, the first component comprises gRNA, and the deliverymode is relatively persistent, e.g., the gRNA is transcribed from aplasmid or viral vector, e.g., an AAV or lentivirus. Transcription ofthese genes would be of little physiological consequence because thegenes do not encode for a protein product, and the gRNAs are incapableof acting in isolation. The second component, a Cas9 molecule, isdelivered in a transient manner, for example as mRNA or as protein,ensuring that the full Cas9 molecule/gRNA molecule complex is onlypresent and active for a short period of time.

Furthermore, the components can be delivered in different molecular formor with different delivery vectors that complement one another toenhance safety and tissue specificity.

Use of differential delivery modes can enhance performance, safety andefficacy. E.g., the likelihood of an eventual off-target modificationcan be reduced. Delivery of immunogenic components, e.g., Cas9molecules, by less persistent modes can reduce immunogenicity, aspeptides from the bacterially-derived Cas enzyme are displayed on thesurface of the cell by MHC molecules. A two-part delivery system canalleviate these drawbacks.

Differential delivery modes can be used to deliver components todifferent, but overlapping target regions. The formation active complexis minimized outside the overlap of the target regions. Thus, in anembodiment, a first component, e.g., a gRNA molecule is delivered by afirst delivery mode that results in a first spatial, e.g., tissue,distribution. A second component, e.g., a Cas9 molecule is delivered bya second delivery mode that results in a second spatial, e.g., tissue,distribution. In an embodiment, the first mode comprises a first elementselected from a liposome, nanoparticle, e.g., polymeric nanoparticle,and a nucleic acid, e.g., viral vector. The second mode comprises asecond element selected from the group. In an embodiment, the first modeof delivery comprises a first targeting element, e.g., a cell specificreceptor or an antibody, and the second mode of delivery does notinclude that element. In embodiment, the second mode of deliverycomprises a second targeting element, e.g., a second cell specificreceptor or second antibody.

When the Cas9 molecule is delivered in a virus delivery vector, aliposome, or polymeric nanoparticle, there is the potential for deliveryto and therapeutic activity in multiple tissues, when it may bedesirable to only target a single tissue. A two-part delivery system canresolve this challenge and enhance tissue specificity. If the gRNAmolecule and the Cas9 molecule are packaged in separated deliveryvehicles with distinct but overlapping tissue tropism, the fullyfunctional complex is only be formed in the tissue that is targeted byboth vectors.

Ex Vivo Delivery

In some embodiments, components described in Table 56 are introducedinto cells which are then introduced into the subject e.g., cells areremoved from a subject, manipulated ex vivo and then introduced into thesubject. Methods of introducing the components can include, e.g., any ofthe delivery methods described herein, e.g., any of the delivery methodsdescribed in Table 57.

VIII. Modified Nucleosides, Nucleotides, and Nucleic Acids

Modified nucleosides and modified nucleotides can be present in nucleicacids, e.g., particularly gRNA, but also other forms of RNA, e.g., mRNA,RNAi, or siRNA. As described herein, “nucleoside” is defined as acompound containing a five-carbon sugar molecule (a pentose or ribose)or derivative thereof, and an organic base, purine or pyrimidine, or aderivative thereof. As described herein, “nucleotide” is defined as anucleoside further comprising a phosphate group.

Modified nucleosides and nucleotides can include one or more of:

-   -   (i) alteration, e.g., replacement, of one or both of the        non-linking phosphate oxygens and/or of one or more of the        linking phosphate oxygens in the phosphodiester backbone        linkage;    -   (ii) alteration, e.g., replacement, of a constituent of the        ribose sugar, e.g., of the 2′ hydroxyl on the ribose sugar;    -   (iii) wholesale replacement of the phosphate moiety with        “dephospho” linkers;    -   (iv) modification or replacement of a naturally occurring        nucleobase;    -   (v) replacement or modification of the ribose-phosphate        backbone;    -   (vi) modification of the 3′ end or 5′ end of the        oligonucleotide, e.g., removal, modification or replacement of a        terminal phosphate group or conjugation of a moiety; and    -   (vii) modification of the sugar.

The modifications listed above can be combined to provide modifiednucleosides and nucleotides that can have two, three, four, or moremodifications. For example, a modified nucleoside or nucleotide can havea modified sugar and a modified nucleobase. In an embodiment, every baseof a gRNA is modified, e.g., all bases have a modified phosphate group,e.g., all are phosphorothioate groups. In an embodiment, all, orsubstantially all, of the phosphate groups of a unimolecular or modulargRNA molecule are replaced with phosphorothioate groups.

In an embodiment, modified nucleotides, e.g., nucleotides havingmodifications as described herein, can be incorporated into a nucleicacid, e.g., a “modified nucleic acid.” In some embodiments, the modifiednucleic acids comprise one, two, three or more modified nucleotides. Insome embodiments, at least 5% (e.g., at least about 5%, at least about10%, at least about 15%, at least about 20%, at least about 25%, atleast about 30%, at least about 35%, at least about 40%, at least about45%, at least about 50%, at least about 55%, at least about 60%, atleast about 65%, at least about 70%, at least about 75%, at least about80%, at least about 85%, at least about 90%, at least about 95%, orabout 100%) of the positions in a modified nucleic acid are a modifiednucleotides.

Unmodified nucleic acids can be prone to degradation by, e.g., cellularnucleases. For example, nucleases can hydrolyze nucleic acidphosphodiester bonds. Accordingly, in one aspect the modified nucleicacids described herein can contain one or more modified nucleosides ornucleotides, e.g., to introduce stability toward nucleases.

In some embodiments, the modified nucleosides, modified nucleotides, andmodified nucleic acids described herein can exhibit a reduced innateimmune response when introduced into a population of cells, both in vivoand ex vivo. The term “innate immune response” includes a cellularresponse to exogenous nucleic acids, including single stranded nucleicacids, generally of viral or bacterial origin, which involves theinduction of cytokine expression and release, particularly theinterferons, and cell death. In some embodiments, the modifiednucleosides, modified nucleotides, and modified nucleic acids describedherein can disrupt binding of a major groove interacting partner withthe nucleic acid. In some embodiments, the modified nucleosides,modified nucleotides, and modified nucleic acids described herein canexhibit a reduced innate immune response when introduced into apopulation of cells, both in vivo and ex vivo, and also disrupt bindingof a major groove interacting partner with the nucleic acid.

Definitions of Chemical Groups

As used herein, “alkyl” is meant to refer to a saturated hydrocarbongroup which is straight-chained or branched. Example alkyl groupsinclude methyl (Me), ethyl (Et), propyl (e.g., n-propyl and isopropyl),butyl (e.g., n-butyl, isobutyl, t-butyl), pentyl (e.g., n-pentyl,isopentyl, neopentyl), and the like. An alkyl group can contain from 1to about 20, from 2 to about 20, from 1 to about 12, from 1 to about 8,from 1 to about 6, from 1 to about 4, or from 1 to about 3 carbon atoms.

As used herein, “aryl” refers to monocyclic or polycyclic (e.g., having2, 3 or 4 fused rings) aromatic hydrocarbons such as, for example,phenyl, naphthyl, anthracenyl, phenanthrenyl, indanyl, indenyl, and thelike. In some embodiments, aryl groups have from 6 to about 20 carbonatoms.

As used herein, “alkenyl” refers to an aliphatic group containing atleast one double bond.

As used herein, “alkynyl” refers to a straight or branched hydrocarbonchain containing 2-12 carbon atoms and characterized in having one ormore triple bonds. Examples of alkynyl groups include, but are notlimited to, ethynyl, propargyl, and 3-hexynyl.

As used herein, “arylalkyl” or “aralkyl” refers to an alkyl moiety inwhich an alkyl hydrogen atom is replaced by an aryl group. Aralkylincludes groups in which more than one hydrogen atom has been replacedby an aryl group. Examples of “arylalkyl” or “aralkyl” include benzyl,2-phenylethyl, 3-phenylpropyl, 9-fluorenyl, benzhydryl, and tritylgroups.

As used herein, “cycloalkyl” refers to a cyclic, bicyclic, tricyclic, orpolycyclic non-aromatic hydrocarbon groups having 3 to 12 carbons.Examples of cycloalkyl moieties include, but are not limited to,cyclopropyl, cyclopentyl, and cyclohexyl.

As used herein, “heterocyclyl” refers to a monovalent radical of aheterocyclic ring system. Representative heterocyclyls include, withoutlimitation, tetrahydrofuranyl, tetrahydrothienyl, pyrrolidinyl,pyrrolidonyl, piperidinyl, pyrrolinyl, piperazinyl, dioxanyl,dioxolanyl, diazepinyl, oxazepinyl, thiazepinyl, and morpholinyl.

As used herein, “heteroaryl” refers to a monovalent radical of aheteroaromatic ring system. Examples of heteroaryl moieties include, butare not limited to, imidazolyl, oxazolyl, thiazolyl, triazolyl,pyrrolyl, furanyl, indolyl, thiophenyl pyrazolyl, pyridinyl, pyrazinyl,pyridazinyl, pyrimidinyl, indolizinyl, purinyl, naphthyridinyl,quinolyl, and pteridinyl.

Phosphate Backbone Modifications

The Phosphate Group

In some embodiments, the phosphate group of a modified nucleotide can bemodified by replacing one or more of the oxygens with a differentsubstituent. Further, the modified nucleotide, e.g., modified nucleotidepresent in a modified nucleic acid, can include the wholesalereplacement of an unmodified phosphate moiety with a modified phosphateas described herein. In some embodiments, the modification of thephosphate backbone can include alterations that result in either anuncharged linker or a charged linker with unsymmetrical chargedistribution.

Examples of modified phosphate groups include, phosphorothioate,phosphoroselenates, borano phosphates, borano phosphate esters, hydrogenphosphonates, phosphoroamidates, alkyl or aryl phosphonates andphosphotriesters. In some embodiments, one of the non-bridging phosphateoxygen atoms in the phosphate backbone moiety can be replaced by any ofthe following groups: sulfur (S), selenium (Se), BR₃ (wherein R can be,e.g., hydrogen, alkyl, or aryl), C (e.g., an alkyl group, an aryl group,and the like), H, NR₂ (wherein R can be, e.g., hydrogen, alkyl, oraryl), or OR (wherein R can be, e.g., alkyl or aryl). The phosphorousatom in an unmodified phosphate group is achiral. However, replacementof one of the non-bridging oxygens with one of the above atoms or groupsof atoms can render the phosphorous atom chiral; that is to say that aphosphorous atom in a phosphate group modified in this way is astereogenic center. The stereogenic phosphorous atom can possess eitherthe “R” configuration (herein Rp) or the “S” configuration (herein Sp).

Phosphorodithioates have both non-bridging oxygens replaced by sulfur.The phosphorus center in the phosphorodithioates is achiral whichprecludes the formation of oligoribonucleotide diastereomers. In someembodiments, modifications to one or both non-bridging oxygens can alsoinclude the replacement of the non-bridging oxygens with a groupindependently selected from S, Se, B, C, H, N, and OR (R can be, e.g.,alkyl or aryl).

The phosphate linker can also be modified by replacement of a bridgingoxygen, (i.e., the oxygen that links the phosphate to the nucleoside),with nitrogen (bridged phosphoroamidates), sulfur (bridgedphosphorothioates) and carbon (bridged methylenephosphonates). Thereplacement can occur at either linking oxygen or at both of the linkingoxygens.

Replacement of the Phosphate Group

The phosphate group can be replaced by non-phosphorus containingconnectors. In some embodiments, the charge phosphate group can bereplaced by a neutral moiety.

Examples of moieties which can replace the phosphate group can include,without limitation, e.g., methyl phosphonate, hydroxylamino, siloxane,carbonate, carboxymethyl, carbamate, amide, thioether, ethylene oxidelinker, sulfonate, sulfonamide, thioformacetal, formacetal, oxime,methyleneimino, methylenemethylimino, methylenehydrazo,methylenedimethylhydrazo and methyleneoxymethylimino.

Replacement of the Ribophosphate Backbone

Scaffolds that can mimic nucleic acids can also be constructed whereinthe phosphate linker and ribose sugar are replaced by nuclease resistantnucleoside or nucleotide surrogates. In some embodiments, thenucleobases can be tethered by a surrogate backbone. Examples caninclude, without limitation, the morpholino, cyclobutyl, pyrrolidine andpeptide nucleic acid (PNA) nucleoside surrogates.

Sugar Modifications

The modified nucleosides and modified nucleotides can include one ormore modifications to the sugar group. For example, the 2′ hydroxylgroup (OH) can be modified or replaced with a number of different “oxy”or “deoxy” substituents. In some embodiments, modifications to the 2′hydroxyl group can enhance the stability of the nucleic acid since thehydroxyl can no longer be deprotonated to form a 2′-alkoxide ion. The2′-alkoxide can catalyze degradation by intramolecular nucleophilicattack on the linker phosphorus atom.

Examples of “oxy”-2′ hydroxyl group modifications can include alkoxy oraryloxy (OR, wherein “R” can be, e.g., alkyl, cycloalkyl, aryl, aralkyl,heteroaryl or a sugar); polyethyleneglycols (PEG),O(CH₂CH₂O)_(n)CH₂CH₂OR wherein R can be, e.g., H or optionallysubstituted alkyl, and n can be an integer from 0 to 20 (e.g., from 0 to4, from 0 to 8, from 0 to 10, from 0 to 16, from 1 to 4, from 1 to 8,from 1 to 10, from 1 to 16, from 1 to 20, from 2 to 4, from 2 to 8, from2 to 10, from 2 to 16, from 2 to 20, from 4 to 8, from 4 to 10, from 4to 16, and from 4 to 20). In some embodiments, the “oxy”-2′ hydroxylgroup modification can include “locked” nucleic acids (LNA) in which the2′ hydroxyl can be connected, e.g., by a C₁₋₆ alkylene or C₁₋₆heteroalkylene bridge, to the 4′ carbon of the same ribose sugar, whereexemplary bridges can include methylene, propylene, ether, or aminobridges; O-amino (wherein amino can be, e.g., NH₂; alkylamino,dialkylamino, heterocyclyl, arylamino, diarylamino, heteroarylamino, ordiheteroarylamino, ethylenediamine, or polyamino) and aminoalkoxy,O(CH₂)_(n)-amino, (wherein amino can be, e.g., NH₂; alkylamino,dialkylamino, heterocyclyl, arylamino, diarylamino, heteroarylamino, ordiheteroarylamino, ethylenediamine, or polyamino). In some embodiments,the “oxy”-2′ hydroxyl group modification can include the methoxyethylgroup (MOE), (OCH₂CH₂OCH₃, e.g., a PEG derivative).

“Deoxy” modifications can include hydrogen (i.e. deoxyribose sugars,e.g., at the overhang portions of partially ds RNA); halo (e.g., bromo,chloro, fluoro, or iodo); amino (wherein amino can be, e.g., NH₂;alkylamino, dialkylamino, heterocyclyl, arylamino, diarylamino,heteroarylamino, diheteroarylamino, or amino acid);NH(CH₂CH₂NH)_(n)CH₂CH₂-amino (wherein amino can be, e.g., as describedherein), —NHC(O)R (wherein R can be, e.g., alkyl, cycloalkyl, aryl,aralkyl, heteroaryl or sugar), cyano; mercapto; alkyl-thio-alkyl;thioalkoxy; and alkyl, cycloalkyl, aryl, alkenyl and alkynyl, which maybe optionally substituted with e.g., an amino as described herein.

The sugar group can also contain one or more carbons that possess theopposite stereochemical configuration than that of the correspondingcarbon in ribose. Thus, a modified nucleic acid can include nucleotidescontaining e.g., arabinose, as the sugar. The nucleotide “monomer” canhave an alpha linkage at the 1′ position on the sugar, e.g.,alpha-nucleosides. The modified nucleic acids can also include “abasic”sugars, which lack a nucleobase at C-1′. These abasic sugars can also befurther modified at one or more of the constituent sugar atoms. Themodified nucleic acids can also include one or more sugars that are inthe L form, e.g. L-nucleosides.

Generally, RNA includes the sugar group ribose, which is a 5-memberedring having an oxygen. Exemplary modified nucleosides and modifiednucleotides can include, without limitation, replacement of the oxygenin ribose (e.g., with sulfur (S), selenium (Se), or alkylene, such as,e.g., methylene or ethylene); addition of a double bond (e.g., toreplace ribose with cyclopentenyl or cyclohexenyl); ring contraction ofribose (e.g., to form a 4-membered ring of cyclobutane or oxetane); ringexpansion of ribose (e.g., to form a 6- or 7-membered ring having anadditional carbon or heteroatom, such as for example, anhydrohexitol,altritol, mannitol, cyclohexanyl, cyclohexenyl, and morpholino that alsohas a phosphoramidate backbone). In some embodiments, the modifiednucleotides can include multicyclic forms (e.g., tricyclo; and“unlocked” forms, such as glycol nucleic acid (GNA) (e.g., R-GNA orS-GNA, where ribose is replaced by glycol units attached tophosphodiester bonds), threose nucleic acid (TNA, where ribose isreplaced with α-L-threofuranosyl-(3′→2′)).

Modifications on the Nucleobase

The modified nucleosides and modified nucleotides described herein,which can be incorporated into a modified nucleic acid, can include amodified nucleobase. Examples of nucleobases include, but are notlimited to, adenine (A), guanine (G), cytosine (C), and uracil (U).These nucleobases can be modified or wholly replaced to provide modifiednucleosides and modified nucleotides that can be incorporated intomodified nucleic acids. The nucleobase of the nucleotide can beindependently selected from a purine, a pyrimidine, a purine orpyrimidine analog. In some embodiments, the nucleobase can include, forexample, naturally-occurring and synthetic derivatives of a base.

Uracil

In some embodiments, the modified nucleobase is a modified uracil.Exemplary nucleobases and nucleosides having a modified uracil includewithout limitation pseudouridine (ψ), pyridin-4-one ribonucleoside,5-aza-uridine, 6-aza-uridine, 2-thio-5-aza-uridine, 2-thio-uridine(s2U), 4-thio-uridine (s4U), 4-thio-pseudouridine, 2-thio-pseudouridine,5-hydroxy-uridine (ho⁵U), 5-aminoallyl-uridine, 5-halo-uridine (e.g.,5-iodo-uridine or 5-bromo-uridine), 3-methyl-uridine (m³U),5-methoxy-uridine (mo⁵U), uridine 5-oxyacetic acid (cmo⁵U), uridine5-oxyacetic acid methyl ester (mcmo⁵U), 5-carboxymethyl-uridine (cm⁵U),1-carboxymethyl-pseudouridine, 5-carboxyhydroxymethyl-uridine (chm⁵U),5-carboxyhydroxymethyl-uridine methyl ester (mchm⁵U),5-methoxycarbonylmethyl-uridine (mcm⁵U),5-methoxycarbonylmethyl-2-thio-uridine (mcm⁵s2U),5-aminomethyl-2-thio-uridine (nm⁵s2U), 5-methylaminomethyl-uridine(mnm⁵U), 5-methylaminomethyl-2-thio-uridine (mnm⁵s2U),5-methylaminomethyl-2-seleno-uridine (mnm⁵se²U),5-carbamoylmethyl-uridine (ncm⁵U), 5-carboxymethylaminomethyl-uridine(cmnm⁵U), 5-carboxymethylaminomethyl-2-thio-uridine (cmnm⁵s2U),5-propynyl-uridine, 1-propynyl-pseudouridine, 5-taurinomethyl-uridine(τcm⁵U), 1-taurinomethyl-pseudouridine, 5-taurinomethyl-2-thio-uridine(τm⁵s2U), 1-taurinomethyl-4-thio-pseudouridine, 5-methyl-uridine (m⁵U,i.e., having the nucleobase deoxythymine), 1-methyl-pseudouridine (m¹ψ),5-methyl-2-thio-uridine (m⁵s2U), 1-methyl-4-thio-pseudouridine (m¹s4ψ),4-thio-1-methyl-pseudouridine, 3-methyl-pseudouridine (m³ψ),2-thio-1-methyl-pseudouridine, 1-methyl-1-deaza-pseudouridine,2-thio-1-methyl-1-deaza-pseudouridine, dihydrouridine (D),dihydropseudouridine, 5,6-dihydrouridine, 5-methyl-dihydrouridine (m⁵D),2-thio-dihydrouridine, 2-thio-dihydropseudouridine, 2-methoxy-uridine,2-methoxy-4-thio-uridine, 4-methoxy-pseudouridine,4-methoxy-2-thio-pseudouridine, N1-methyl-pseudouridine,3-(3-amino-3-carboxypropyl)uridine (acp³U),1-methyl-3-(3-amino-3-carboxypropyl)pseudouridine (acp³ψ),5-(isopentenylaminomethyl)uridine (inm⁵U),5-(isopentenylaminomethyl)-2-thio-uridine (inm⁵s2U), α-thio-uridine,2′-O-methyl-uridine (Um), 5,2′-O-dimethyl-uridine (m⁵Um),2′-O-methyl-pseudouridine (ψm), 2-thio-2′-O-methyl-uridine (s2Um),5-methoxycarbonylmethyl-2′-O-methyl-uridine (mcm⁵Um),5-carbamoylmethyl-2′-O-methyl-uridine (ncm⁵Um),5-carboxymethylaminomethyl-2′-O-methyl-uridine (cmnm⁵Um),3,2′-O-dimethyl-uridine (m³Um),5-(isopentenylaminomethyl)-2′-O-methyl-uridine (inm⁵Um), 1-thio-uridine,deoxythymidine, 2′-F-ara-uridine, 2′-F-uridine, 2′-OH-ara-uridine,5-(2-carbomethoxyvinyl) uridine, 5-[3-(1-E-propenylamino)uridine,pyrazolo[3,4-d]pyrimidines, xanthine, and hypoxanthine.

Cytosine

In some embodiments, the modified nucleobase is a modified cytosine.Exemplary nucleobases and nucleosides having a modified cytosine includewithout limitation 5-aza-cytidine, 6-aza-cytidine, pseudoisocytidine,3-methyl-cytidine (m³C), N4-acetyl-cytidine (act), 5-formyl-cytidine(f⁵C), N4-methyl-cytidine (m⁴C), 5-methyl-cytidine (m⁵C),5-halo-cytidine (e.g., 5-iodo-cytidine), 5-hydroxymethyl-cytidine(hm⁵C), 1-methyl-pseudoisocytidine, pyrrolo-cytidine,pyrrolo-pseudoisocytidine, 2-thio-cytidine (s2C),2-thio-5-methyl-cytidine, 4-thio-pseudoisocytidine,4-thio-1-methyl-pseudoisocytidine,4-thio-1-methyl-1-deaza-pseudoisocytidine,1-methyl-1-deaza-pseudoisocytidine, zebularine, 5-aza-zebularine,5-methyl-zebularine, 5-aza-2-thio-zebularine, 2-thio-zebularine,2-methoxy-cytidine, 2-methoxy-5-methyl-cytidine,4-methoxy-pseudoisocytidine, 4-methoxy-1-methyl-pseudoisocytidine,lysidine (k²C), α-thio-cytidine, 2′-O-methyl-cytidine (Cm),5,2′-O-dimethyl-cytidine (m⁵Cm), N4-acetyl-2′-O-methyl-cytidine (ac⁴Cm),N4,2′-O-dimethyl-cytidine (m⁴Cm), 5-formyl-2′-O-methyl-cytidine (f⁵Cm),N4,N4,2′-O-trimethyl-cytidine (m⁴ ₂Cm), 1-thio-cytidine,2′-F-ara-cytidine, 2′-F-cytidine, and 2′-OH-ara-cytidine.

Adenine

In some embodiments, the modified nucleobase is a modified adenine.Exemplary nucleobases and nucleosides having a modified adenine includewithout limitation 2-amino-purine, 2,6-diaminopurine,2-amino-6-halo-purine (e.g., 2-amino-6-chloro-purine), 6-halo-purine(e.g., 6-chloro-purine), 2-amino-6-methyl-purine, 8-azido-adenosine,7-deaza-adenosine, 7-deaza-8-aza-adenosine, 7-deaza-2-amino-purine,7-deaza-8-aza-2-amino-purine, 7-deaza-2,6-diaminopurine,7-deaza-8-aza-2,6-diaminopurine, 1-methyl-adenosine (m¹A),2-methyl-adenosine (m²A), N6-methyl-adenosine (m⁶A),2-methylthio-N6-methyl-adenosine (ms2 m⁶A), N6-isopentenyl-adenosine(i⁶A), 2-methylthio-N6-isopentenyl-adenosine (ms²i⁶A),N6-(cis-hydroxyisopentenyl)adenosine (io⁶A),2-methylthio-N6-(cis-hydroxyisopentenyl)adenosine (ms2io⁶A),N6-glycinylcarbamoyl-adenosine (g⁶A), N6-threonylcarbamoyl-adenosine(t⁶A), N6-methyl-N6-threonylcarbamoyl-adenosine (m⁶t⁶A),2-methylthio-N6-threonylcarbamoyl-adenosine (ms²g⁶A),N6,N6-dimethyl-adenosine (m⁶ ₂A), N6-hydroxynorvalylcarbamoyl-adenosine(hn⁶A), 2-methylthio-N6-hydroxynorvalylcarbamoyl-adenosine (ms2hn⁶A),N6-acetyl-adenosine (ac⁶A), 7-methyl-adenosine, 2-methylthio-adenosine,2-methoxy-adenosine, α-thio-adenosine, 2′-O-methyl-adenosine (Am),N⁶,2′-O-dimethyl-adenosine (m⁶Am), N⁶-Methyl-2′-deoxyadenosine,N6,N6,2′-O-trimethyl-adenosine (m⁶ ₂Am), 1,2′-O-dimethyl-adenosine(m¹Am), 2′-O-ribosyladenosine (phosphate) (Ar(p)),2-amino-N6-methyl-purine, 1-thio-adenosine, 8-azido-adenosine,2′-F-ara-adenosine, 2′-F-adenosine, 2′-OH-ara-adenosine, andN6-(19-amino-pentaoxanonadecyl)-adenosine.

Guanine

In some embodiments, the modified nucleobase is a modified guanine.Exemplary nucleobases and nucleosides having a modified guanine includewithout limitation inosine (I), 1-methyl-inosine (m¹I), wyosine (imG),methylwyosine (mimG), 4-demethyl-wyosine (imG-14), isowyosine (imG2),wybutosine (yW), peroxywybutosine (o₂yW), hydroxywybutosine (OHyW),undermodified hydroxywybutosine (OHyW*), 7-deaza-guanosine, queuosine(Q), epoxyqueuosine (oQ), galactosyl-queuosine (galQ),mannosyl-queuosine (manQ), 7-cyano-7-deaza-guanosine (preQo),7-aminomethyl-7-deaza-guanosine (preQ₁), archaeosine (G⁺),7-deaza-8-aza-guanosine, 6-thio-guanosine, 6-thio-7-deaza-guanosine,6-thio-7-deaza-8-aza-guanosine, 7-methyl-guanosine (m⁷G),6-thio-7-methyl-guanosine, 7-methyl-inosine, 6-methoxy-guanosine,1-methyl-guanosine (m′G), N2-methyl-guanosine (m²G),N2,N2-dimethyl-guanosine (m² ₂G), N2,7-dimethyl-guanosine (m²,7G), N2,N2,7-dimethyl-guanosine (m²,2,7G), 8-oxo-guanosine,7-methyl-8-oxo-guanosine, 1-methyl-6-thio-guanosine,N2-methyl-6-thio-guanosine, N2,N2-dimethyl-6-thio-guanosine,α-thio-guanosine, 2′-O-methyl-guanosine (Gm),N2-methyl-2′-O-methyl-guanosine (m²Gm),N2,N2-dimethyl-2′-O-methyl-guanosine (m² ₂Gm),1-methyl-2′-O-methyl-guanosine (m′Gm),N2,7-dimethyl-2′-O-methyl-guanosine (m²,7Gm), 2′-O-methyl-inosine (Im),1,2′-O-dimethyl-inosine (m′Im), O⁶-phenyl-2′-deoxyinosine,2′-O-ribosylguanosine (phosphate) (Gr(p)), 1-thio-guanosine,O⁶-methyl-guanosine, O⁶-Methyl-2′-deoxyguanosine, 2′-F-ara-guanosine,and 2′-F-guanosine.

Exemplary Modified gRNAs

In some embodiments, the modified nucleic acids can be modified gRNAs.It is to be understood that any of the gRNAs described herein can bemodified in accordance with this section, including any gRNA thatcomprises a targeting domain from Tables 1A-1E, 2A-2E, 3A-3D, 4A-4D,5A-5E, 6A-6C, 7A-7D, 8A-8E, 9A-9B, 10A-10C, 11A-11E, 12A-12C, 13A-13D,14A-14E, 15A-15C, or 16A-16D, 17A-17E, 18A-18C, 19A-19D, 20A-20E,21A-21B, 22A-22D, 23A-23E, 24A-24D, 25A-25D, 26A-26E, 27A-27D, 28A-28D,29A-29E, 30A-30B, 31A-31D, 32A-32D, 33A-33B, 34A-34D, 35A-35D, 36A-36D,37A-37D, 38A-38E, 39A-39D, 40A-40D, 41A-41E, 42A-42D, 43A-43E, 44A-44G,45A-45E, 46A-46E, 47A-47G, or 48A-48E.

Through experimentation (results not shown) we have found that the guideRNA (gRNA) component of the CRISPR/Cas system is more efficient atediting genes in T cells when it has been modified at or near its 5′ end(e.g., when the 5′ end of a gRNA is modified by the inclusion of aeukaryotic mRNA cap structure or cap analog). While not wishing to bebound by theory it is believed that these and other modified gRNAsdescribed herein elicit a reduced innate immune response from certaincirculatory cell types (e.g., T cells) and that this might beresponsible for the observed improvements. The present inventionencompasses the realization that minimizing the innate immune responseof circulating cells (e.g., T cells) to gRNAs could be advantageous whenusing gRNAs to edit circulating cells (whether ex vivo or in vivo) andcould also be advantageous when using gRNAs to edit non-circulatingcells, e.g., when a gRNA is administered systemically or locally for invivo gene editing purposes. The present invention also encompasses therealization that the improvements observed with a 5′ capped gRNA can beextended to gRNAs that have been modified in other ways to achieve thesame type of structural or functional result (e.g., by the inclusion ofmodified nucleosides or nucleotides, or when an in vitro transcribedgRNA is modified by treatment with a phosphatase such as calf intestinalalkaline phosphatase to remove the 5′ triphosphate group). While notwishing to be bound by theory, in some embodiments, the modified gRNAsdescribed herein may contain one or more modifications (e.g., modifiednucleosides or nucleotides) which introduce stability toward nucleases(e.g., by the inclusion of modified nucleosides or nucleotides and/or a3′ polyA tract).

Thus, in one aspect, methods and compositions discussed herein providemethods and compositions for gene editing by using gRNAs which have beenmodified at or near their 5′ end (e.g., within 1-10, 1-5, or 1-2nucleotides of their 5′ end). In an embodiment, the 5′ end of a gRNA ismodified by the inclusion of a eukaryotic mRNA cap structure or capanalog (e.g., a G(5′)ppp(5′)G cap analog, a m7G(5′)ppp(5′)G cap analog,or a 3′-O-Me-m7G(5′)ppp(5′)G anti reverse cap analog (ARCA)). The cap orcap analog can be included during either chemical synthesis or in vitrotranscription of the gRNA. In an embodiment, an in vitro transcribedgRNA is modified by treatment with a phosphatase (e.g., calf intestinalalkaline phosphatase) to remove the 5′ triphosphate group.

In another aspect, methods and compositions discussed herein providemethods and compositions for gene editing by using gRNAs which includeone or more modified nucleosides or nucleotides that are describedherein. In some embodiments, the inclusion of the one or more modifiednucleosides or nucleotides causes the gRNA to elicit a reduced innateimmune response in certain circulating cell types (e.g., T cells,macrophages, dendritic cells, and/or B cells) as compared to anotherwise unmodified gRNA.

While some of the exemplary modifications discussed in this section maybe included at any position within the gRNA sequence, in someembodiments, a gRNA comprises a modification at or near its 5′ end(e.g., within 1-10, 1-5, or 1-2 nucleotides of its 5′ end). In someembodiments, a gRNA comprises a modification at or near its 3′ end(e.g., within 1-10, 1-5, or 1-2 nucleotides of its 3′ end). In someembodiments, a gRNA comprises both a modification at or near its 5′ endand a modification at or near its 3′ end.

In an embodiment, the 3′ end of a gRNA is modified by the addition ofone or more (e.g., 25-200) adenine (A) residues. The polyA tract can becontained in the nucleic acid (e.g., plasmid, PCR product, viral genome)encoding the gRNA, or can be added to the gRNA during chemicalsynthesis, or following in vitro transcription using a polyadenosinepolymerase (e.g., E. coli Poly(A)Polymerase).

In an embodiment, in vitro transcribed gRNA contains both a 5′ capstructure or cap analog and a 3′ polyA tract. In an embodiment, an invitro transcribed gRNA is modified by treatment with a phosphatase(e.g., calf intestinal alkaline phosphatase) to remove the 5′triphosphate group and comprises a 3′ polyA tract.

In some embodiments, gRNAs can be modified at a 3′ terminal U ribose.For example, the two terminal hydroxyl groups of the U ribose can beoxidized to aldehyde groups and a concomitant opening of the ribose ringto afford a modified nucleoside as shown below:

wherein “U” can be an unmodified or modified uridine.

In another embodiment, the 3′ terminal U can be modified with a 2′3′cyclic phosphate as shown below:

wherein “U” can be an unmodified or modified uridine.

In some embodiments, the gRNA molecules may contain 3′ nucleotides whichcan be stabilized against degradation, e.g., by incorporating one ormore of the modified nucleotides described herein. In this embodiment,e.g., uridines can be replaced with modified uridines, e.g.,5-(2-amino)propyl uridine, and 5-bromo uridine, or with any of themodified uridines described herein; adenosines, cytidines and guanosinescan be replaced with modified adenosines, cytidines and guanosines,e.g., with modifications at the 8-position, e.g., 8-bromo guanosine, orwith any of the modified adenosines, cytidines or guanosines describedherein.

In some embodiments, sugar-modified ribonucleotides can be incorporatedinto the gRNA, e.g., wherein the 2′ OH-group is replaced by a groupselected from H, —OR, —R (wherein R can be, e.g., alkyl, cycloalkyl,aryl, aralkyl, heteroaryl or sugar), halo, —SH, —SR (wherein R can be,e.g., alkyl, cycloalkyl, aryl, aralkyl, heteroaryl or sugar), amino(wherein amino can be, e.g., NH₂; alkylamino, dialkylamino,heterocyclylamino, arylamino, diarylamino, heteroarylamino,diheteroarylamino, or amino acid); or cyano (—CN). In some embodiments,the phosphate backbone can be modified as described herein, e.g., with aphosphothioate group. In some embodiments, one or more of thenucleotides of the gRNA can each independently be a modified orunmodified nucleotide including, but not limited to 2′-sugar modified,such as, 2′-O-methyl, 2′-O-methoxyethyl, or 2′-Fluoro modifiedincluding, e.g., 2′-F or 2′-O-methyl, adenosine (A), 2′-F or2′-O-methyl, cytidine (C), 2′-F or 2′-O-methyl, uridine (U), 2′-F or2′-O-methyl, thymidine (T), 2′-F or 2′-O-methyl, guanosine (G),2′-O-methoxyethyl-5-methyluridine (Teo), 2′-O-methoxyethyladenosine(Aeo), 2′-O-methoxyethyl-5-methylcytidine (m5Ceo), and any combinationsthereof.

In some embodiments, a gRNA can include “locked” nucleic acids (LNA) inwhich the 2′ OH-group can be connected, e.g., by a C1-6 alkylene or C1-6heteroalkylene bridge, to the 4′ carbon of the same ribose sugar, whereexemplary bridges can include methylene, propylene, ether, or aminobridges; O-amino (wherein amino can be, e.g., NH₂; alkylamino,dialkylamino, heterocyclylamino, arylamino, diarylamino,heteroarylamino, or diheteroarylamino, ethylenediamine, or polyamino)and aminoalkoxy or O(CH₂)_(n)-amino (wherein amino can be, e.g., NH₂;alkylamino, dialkylamino, heterocyclylamino, arylamino, diarylamino,heteroarylamino, or diheteroarylamino, ethylenediamine, or polyamino).

In some embodiments, a gRNA can include a modified nucleotide which ismulticyclic (e.g., tricyclo; and “unlocked” forms, such as glycolnucleic acid (GNA) (e.g., R-GNA or S-GNA, where ribose is replaced byglycol units attached to phosphodiester bonds), or threose nucleic acid(TNA, where ribose is replaced with α-L-threofuranosyl-(3′→2′)).

Generally, gRNA molecules include the sugar group ribose, which is a5-membered ring having an oxygen. Exemplary modified gRNAs can include,without limitation, replacement of the oxygen in ribose (e.g., withsulfur (S), selenium (Se), or alkylene, such as, e.g., methylene orethylene); addition of a double bond (e.g., to replace ribose withcyclopentenyl or cyclohexenyl); ring contraction of ribose (e.g., toform a 4-membered ring of cyclobutane or oxetane); ring expansion ofribose (e.g., to form a 6- or 7-membered ring having an additionalcarbon or heteroatom, such as for example, anhydrohexitol, altritol,mannitol, cyclohexanyl, cyclohexenyl, and morpholino that also has aphosphoramidate backbone). Although the majority of sugar analogalterations are localized to the 2′ position, other sites are amenableto modification, including the 4′ position. In an embodiment, a gRNAcomprises a 4′-S, 4′-Se or a 4′-C-aminomethyl-2′-O-Me modification.

In some embodiments, deaza nucleotides, e.g., 7-deaza-adenosine, can beincorporated into the gRNA. In some embodiments, O- and N-alkylatednucleotides, e.g., N6-methyl adenosine, can be incorporated into thegRNA. In some embodiments, one or more or all of the nucleotides in agRNA molecule are deoxynucleotides.

miRNA Binding Sites

microRNAs (or miRNAs) are naturally occurring cellular 19-25 nucleotidelong noncoding RNAs. They bind to nucleic acid molecules having anappropriate miRNA binding site, e.g., in the 3′ UTR of an mRNA, anddown-regulate gene expression. While not wishing to be bound by theoryit is believed that the down regulation is either by reducing nucleicacid molecule stability or by inhibiting translation. An RNA speciesdisclosed herein, e.g., an mRNA encoding Cas9 can comprise an miRNAbinding site, e.g., in its 3′UTR. The miRNA binding site can be selectedto promote down regulation of expression is a selected cell type. By wayof example, the incorporation of a binding site for miR-122, a microRNAabundant in liver, can inhibit the expression of the gene of interest inthe liver.

EXAMPLES

The following Examples are merely illustrative and are not intended tolimit the scope or content of the invention in any way.

Example 1: Evaluation of Candidate Guide RNAs (gRNAs)

The suitability of candidate gRNAs can be evaluated as described in thisexample. Although described for a chimeric gRNA, the approach can alsobe used to evaluate modular gRNAs.

Cloning gRNAs into Vectors

For each gRNA, a pair of overlapping oligonucleotides is designed andobtained. Oligonucleotides are annealed and ligated into a digestedvector backbone containing an upstream U6 promoter and the remainingsequence of a long chimeric gRNA. Plasmid is sequence-verified andprepped to generate sufficient amounts of transfection-quality DNA.Alternate promoters maybe used to drive in vivo transcription (e.g. H1promoter) or for in vitro transcription (e.g., a T7 promoter).

Cloning gRNAs in Linear dsDNA Molecule (STITCHR)

For each gRNA, a single oligonucleotide is designed and obtained. The U6promoter and the gRNA scaffold (e.g. including everything except thetargeting domain, e.g., including sequences derived from the crRNA andtracrRNA, e.g., including a first complementarity domain; a linkingdomain; a second complementarity domain; a proximal domain; and a taildomain) are separately PCR amplified and purified as dsDNA molecules.The gRNA-specific oligonucleotide is used in a PCR reaction to stitchtogether the U6 and the gRNA scaffold, linked by the targeting domainspecified in the oligonucleotide. Resulting dsDNA molecule (STITCHRproduct) is purified for transfection. Alternate promoters may be usedto drive in vivo transcription (e.g., H1 promoter) or for in vitrotranscription (e.g., T7 promoter). Any gRNA scaffold may be used tocreate gRNAs compatible with Cas9s from any bacterial species.

Initial gRNA Screen

Each gRNA to be tested is transfected, along with a plasmid expressingCas9 and a small amount of a GFP-expressing plasmid into human cells. Inpreliminary experiments, these cells can be immortalized human celllines such as 293T, K562 or U2OS. Alternatively, primary human cells maybe used. In this case, cells may be relevant to the eventual therapeuticcell target (for example, an erythroid cell). The use of primary cellssimilar to the potential therapeutic target cell population may provideimportant information on gene targeting rates in the context ofendogenous chromatin and gene expression.

Transfection may be performed using lipid transfection (such asLipofectamine or Fugene) or by electroporation (such as LonzaNucleofection). Following transfection, GFP expression can be determinedeither by fluorescence microscopy or by flow cytometry to confirmconsistent and high levels of transfection. These preliminarytransfections can comprise different gRNAs and different targetingapproaches (17-mers, 20-mers, nuclease, dual-nickase, etc.) to determinewhich gRNAs/combinations of gRNAs give the greatest activity.

Efficiency of cleavage with each gRNA may be assessed by measuringNHEJ-induced indel formation at the target locus by a T7E1-type assay orby sequencing. Alternatively, other mismatch-sensitive enzymes, such asCell/Surveyor nuclease, may also be used.

For the T7E1 assay, PCR amplicons are approximately 500-700 bp with theintended cut site placed asymmetrically in the amplicon. Followingamplification, purification and size-verification of PCR products, DNAis denatured and re-hybridized by heating to 95° C. and then slowlycooling. Hybridized PCR products are then digested with T7 EndonucleaseI (or other mismatch-sensitive enzyme) which recognizes and cleavesnon-perfectly matched DNA. If indels are present in the originaltemplate DNA, when the amplicons are denatured and re-annealed, thisresults in the hybridization of DNA strands harboring different indelsand therefore lead to double-stranded DNA that is not perfectly matched.Digestion products may be visualized by gel electrophoresis or bycapillary electrophoresis. The fraction of DNA that is cleaved (densityof cleavage products divided by the density of cleaved and uncleaved)may be used to estimate a percent NHEJ using the following equation: %NHEJ=(1−(1−fraction cleaved)^(1/2)). The T7E1 assay is sensitive down toabout 2-5% NHEJ.

Sequencing may be used instead of, or in addition to, the T7E1 assay.For Sanger sequencing, purified PCR amplicons are cloned into a plasmidbackbone, transformed, miniprepped and sequenced with a single primer.Sanger sequencing may be used for determining the exact nature of indelsafter determining the NHEJ rate by T7E1.

Sequencing may also be performed using next generation sequencingtechniques. When using next generation sequencing, amplicons may be300-500 bp with the intended cut site placed asymmetrically. FollowingPCR, next generation sequencing adapters and barcodes (for exampleIllumina multiplex adapters and indexes) may be added to the ends of theamplicon, e.g., for use in high throughput sequencing (for example on anIllumina MiSeq). This method allows for detection of very low NHEJrates.

Example 2: Assessment of Gene Targeting by NHEJ

The gRNAs that induce the greatest levels of NHEJ in initial tests canbe selected for further evaluation of gene targeting efficiency. In thiscase, cells are derived from disease subjects and, therefore, harbor therelevant mutation.

Following transfection (usually 2-3 days post-transfection) genomic DNAmay be isolated from a bulk population of transfected cells and PCR maybe used to amplify the target region. Following PCR, gene targetingefficiency to generate the desired mutations (either knockout of atarget gene or removal of a target sequence motif) may be determined bysequencing. For Sanger sequencing, PCR amplicons may be 500-700 bp long.For next generation sequencing, PCR amplicons may be 300-500 bp long. Ifthe goal is to knockout gene function, sequencing may be used to assesswhat percent of alleles have undergone NHEJ-induced indels that resultin a frameshift or large deletion or insertion that would be expected todestroy gene function. If the goal is to remove a specific sequencemotif, sequencing may be used to assess what percent of alleles haveundergone NHEJ-induced deletions that span this sequence.

Example 3: Assessment of Gene Targeting by HDR

The gRNAs that induce the greatest levels of NHEJ in initial tests canbe selected for further evaluation of gene targeting efficiency. In thiscase, cells are derived from disease subjects and, therefore, harbor therelevant mutation.

Following transfection (usually 2-3 days post-transfection) genomic DNAmay be isolated from a bulk population of transfected cells and PCR maybe used to amplify the target region. Following PCR, gene targetingefficiency can be determined by several methods.

Determination of gene targeting frequency involves measuring thepercentage of alleles that have undergone homologous directed repair(HDR) with the donor template and which therefore have incorporateddesired correction. If the desired HDR event creates or destroys arestriction enzyme site, the frequency of gene targeting may bedetermined by a RFLP assay. If no restriction site is created ordestroyed, sequencing may be used to determine gene targeting frequency.If a RFLP assay is used, sequencing may still be used to verify thedesired HDR event and ensure that no other mutations are present. Atleast one of the primers is placed in the endogenous gene sequenceoutside of the region included in the homology arms, which preventsamplification of donor template still present in the cells. Therefore,the length of the homology arms present in the donor template may affectthe length of the PCR amplicon. PCR amplicons can either span the entiredonor region (both primers placed outside the homology arms) or they canspan only part of the donor region and a single junction between donorand endogenous DNA (one internal and one external primer). If theamplicons span less than entire donor region, two different PCRs shouldbe used to amplify and sequence both the 5′ and the 3′ junction.

If the PCR amplicon is short (less than 600 bp) it is possible to usenext generation sequencing. Following PCR, next generation sequencingadapters and barcodes (for example Illumina multiplex adapters andindexes) may be added to the ends of the amplicon, e.g., for use in highthroughput sequencing (for example on an Illumina MiSeq). This methodallows for detection of very low gene targeting rates.

If the PCR amplicon is too long for next generation sequencing, Sangersequencing can be performed. For Sanger sequencing, purified PCRamplicons will be cloned into a plasmid backbone (for example, TOPOcloned using the LifeTech Zero Blunt® TOPO® cloning kit), transformed,miniprepped and sequenced.

INCORPORATION BY REFERENCE

All publications, patents, and patent applications mentioned herein arehereby incorporated by reference in their entirety as if each individualpublication, patent or patent application was specifically andindividually indicated to be incorporated by reference. In case ofconflict, the present application, including any definitions herein,will control.

EQUIVALENTS

Those skilled in the art will recognize, or be able to ascertain usingno more than routine experimentation, many equivalents to the specificembodiments of the invention described herein. Such equivalents areintended to be encompassed by the following claims.

What is claimed is:
 1. A method of altering a cystic fibrosistransmembrane conductance regulator (CFTR) gene in a cell, comprisingadministering to said cell: (i) a CRISPR/Cas system comprising: (a) agRNA molecule comprising a targeting domain that is complementary with atarget sequence of a CFTR gene and (b) a Cas9 molecule; or (ii) anucleic acid composition comprising: (a) a first nucleotide sequenceencoding a gRNA molecule comprising a targeting domain that iscomplementary with a target sequence of a CFTR gene and (b) a secondnucleotide sequence encoding a Cas9 molecule.
 2. The method of claim 1,wherein said alteration comprises correction of one or more mutations insaid CFTR gene.
 3. The method of claim 1, wherein said alteration ofsaid CFTR gene results in restoration of a mutant CFTR gene to its wildtype state thereby providing a functional CFTR protein.
 4. The method ofclaim 1, wherein said cell is from a subject suffering from or at riskfor Cystic Fibrosis (CF) and CF-like disease.
 5. The method of claim 1,wherein said cell is from a subject having a mutation at a CF targetmutant position.
 6. The method of claim 1, wherein said cell is selectedfrom the group consisting of an airway cell, an epithelial cell, and astem cell.
 7. The method of claim 6, wherein said epithelial cell isselected from the group consisting of a lung epithelial cell, agastrointestinal epithelial cell, a biliary epithelial cell, apancreatic ductal epithelial cell, a gastrointestinal cell, ahepatobiliary epithelial cell, a gallbladder epithelial cell, a largeintestine epithelial cell, a small intestine epithelial cell, a jejunumepithelial cell, a epithelial cell of the ileum, a duodenum epithelialcell, and a reproductive epithelial cell; and said stem cell is selectedfrom the group consisting of an embryonic stem cell, an inducedpluripotent stem cell, a pulmonary stem cell, a gastrointestinal stemcell, and a mesenchymal stem cell.
 8. The method of claim 1, whereinsaid targeting domain that is complementary with a target sequence ofsaid CFTR gene comprises or consists of a nucleotide sequence that isthe same as, or differs by no more than 3 nucleotides from, a nucleotidesequence set forth in SEQ ID NOs: 15101-27265.
 9. A method of altering asodium channel epithelial 1 alpha (SCNN1A) gene in a cell, comprisingadministering to said cell: (i) a CRISPR/Cas system comprising: (a) agRNA molecule comprising a targeting domain that is complementary with atarget sequence of a SCNN1A gene and (b) a Cas9 molecule; or (ii) anucleic acid composition comprising: (a) a first nucleotide sequenceencoding a gRNA molecule comprising a targeting domain that iscomplementary with a target sequence of a SCNN1A gene and (b) a secondnucleotide sequence encoding a Cas9 molecule.
 10. The method of claim 9,wherein said alteration comprises correction of one or more mutations insaid SCNN1A gene, knockout of said SCNN1A gene, or knockdown of saidSCNN1A gene.
 11. The method of claim 9, wherein the alteration of saidSCNN1A gene results in a reduction or elimination of expression of saidSCNN1A gene.
 12. The method of claim 9, wherein said cell is from asubject suffering from or at risk for Cystic Fibrosis (CF) and CF-likedisease.
 13. The method of claim 9, wherein said cell is from a subjecthaving a mutation at a CF target mutant position, or from a subject whowould benefit from having a mutation in said SCNN1A gene.
 14. The methodof claim 9, wherein the cell is selected from the group consisting of anairway cell, an epithelial cell, and a stem cell.
 15. The method ofclaim 14, wherein said epithelial cell is selected from the groupconsisting of a lung epithelial cell, a gastrointestinal epithelialcell, a biliary epithelial cell, a pancreatic ductal epithelial cell, agastrointestinal cell, a hepatobiliary epithelial cell, a gallbladderepithelial cell, a large intestine epithelial cell, a small intestineepithelial cell, a jejunum epithelial cell, a epithelial cell of theileum, a duodenum epithelial cell, and a reproductive epithelial cell;and said stem cell is selected from the group consisting of an embryonicstem cell, an induced pluripotent stem cell, a pulmonary stem cell, agastrointestinal stem cell, and a mesenchymal stem cell.
 16. The methodof claim 9, wherein said targeting domain that is complementary to atarget sequence of said SCNN1A gene comprises or consists of anucleotide sequence that is the same as, or differs by no more than 3nucleotides from, a nucleotide sequence set forth in SEQ ID NOs:497-654, 803-916, and 4176-15100.